Value histogram for bosTau4.gbMiscDiff.notes

Value histogram for bosTau4.gbMiscDiff.notes

value	count	graph
'G' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8352	************************************************************
compared to genomic sequence	6932	**************************************************
'T' in cDNA is 'C' in the mouse genome.	4183	******************************
'G' in cDNA is 'A' in the mouse genome.	4141	******************************
'C' in cDNA is 'T' in the mouse genome.	4004	*****************************
'A' in cDNA is 'G' in the mouse genome.	3728	***************************
'T' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3491	*************************
'A' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3327	************************
'C' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2783	********************
'G' in cDNA is 'A' in the human genome.	2549	******************
'C' in cDNA is 'T' in the human genome.	1981	**************
not present in genomic sequence	1829	*************
'A' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1828	*************
1 base in cDNA is not found in the mouse genome.	1551	***********
'A' in cDNA is 'G' in the human genome.	1503	***********
'G' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1497	***********
polyA tail: 15 bases do not align to the human genome.	1432	**********
'T' in cDNA is 'C' in the human genome.	1291	*********
polyA tail: 14 bases do not align to the human genome.	1223	*********
compared to genome	1217	*********
'G' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1146	********
'C' in cDNA is 'A' in the mouse genome.	1124	********
'T' in cDNA is 'G' in the mouse genome.	1116	********
'G' in cDNA is 'T' in the mouse genome.	1066	********
'C' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1056	********
'T' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1034	*******
'C' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1003	*******
1 base in cDNA is not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	992	*******
1 base in cDNA is not found in the human genome.	935	*******
'A' in cDNA is 'C' in the mouse genome.	905	*******
'C' in cDNA is 'G' in the mouse genome.	892	******
'T' in cDNA is 'A' in the mouse genome.	891	******
'A' in cDNA is 'T' in the mouse genome.	875	******
polyA tail: 16 bases do not align to the human genome.	869	******
polyA tail: 17 bases do not align to the human genome.	842	******
'G' in cDNA is 'C' in the mouse genome.	842	******
'G' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	837	******
'T' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	805	******
polyA tail: 14 bases do not align to the mouse genome.	789	******
'A' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	751	*****
polyA tail: 13 bases do not align to the human genome.	750	*****
'C' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	697	*****
1 base at the 5' end does not align to the human genome.	689	*****
1 base in cDNA is not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	654	*****
'T' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	620	****
'G' in cDNA is 'C' in the human genome.	611	****
'T' in cDNA is 'C' in the mouse genome; no amino acid change.	598	****
'C' in cDNA is 'T' in the mouse genome; no amino acid change.	595	****
polyA tail: 15 bases do not align to the mouse genome.	594	****
'A' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	590	****
1 base in the mouse genome, T, is not found in cDNA.	575	****
'C' in cDNA is 'G' in the human genome.	572	****
'A' in cDNA is 'C' in the human genome.	548	****
compared to genomic sequence resulting in an amino acid sequence difference	524	****
1 base in the mouse genome, A, is not found in cDNA.	504	****
'G' in cDNA is 'T' in the human genome.	496	****
polyA tail: 18 bases do not align to the human genome.	493	****
polyA tail: 12 bases do not align to the human genome.	479	***
polyA tail: 16 bases do not align to the mouse genome.	474	***
polyA tail: 13 bases do not align to the mouse genome.	462	***
'T' in cDNA is 'G' in the human genome.	455	***
'A' in cDNA is 'G' in the mouse genome; no amino acid change.	447	***
'G' in cDNA is 'A' in the mouse genome; no amino acid change.	440	***
(null)	435	***
'C' in cDNA is 'A' in the human genome.	429	***
1 base in the human genome, T, is not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	425	***
3 bases at the 5' end do not align to the human genome.	422	***
1 base in the human genome, A, is not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	420	***
polyA tail: 17 bases do not align to the mouse genome.	415	***
'A' in cDNA is 'T' in the human genome.	412	***
'T' in cDNA is 'C' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	387	***
2 bases in cDNA are not found in the mouse genome.	385	***
1 base in the mouse genome, G, is not found in cDNA.	374	***
in the human genome : AA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	372	***
'T' in cDNA is 'A' in the human genome.	368	***
polyA tail: 18 bases do not align to the mouse genome.	363	***
polyA tail: 29 bases do not align to the human genome.	361	***
polyA tail: 31 bases do not align to the human genome.	361	***
4 bases at the 5' end do not align to the human genome.	343	**
polyA tail: 30 bases do not align to the human genome.	342	**
polyA tail: 28 bases do not align to the human genome.	330	**
'C' in cDNA is 'T' in the human genome; no amino acid change.	325	**
polyA tail: 19 bases do not align to the human genome.	314	**
polyA tail: 27 bases do not align to the human genome.	313	**
'A' in cDNA is 'G' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	313	**
2 bases at the 5' end do not align to the human genome.	312	**
polyA tail: 19 bases do not align to the mouse genome.	307	**
polyA tail: 12 bases do not align to the mouse genome.	304	**
1 base in the human genome, T, is not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	301	**
polyA tail: 26 bases do not align to the human genome.	298	**
1 base in the human genome, C, is not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	289	**
'T' in cDNA is 'C' in the human genome; no amino acid change.	289	**
polyA tail: 21 bases do not align to the mouse genome.	283	**
11 bases at the 5' end do not align to the mouse genome.	281	**
'C' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	280	**
polyA tail: 11 bases do not align to the human genome.	280	**
1 base in the mouse genome, C, is not found in cDNA.	280	**
polyA tail: 20 bases do not align to the mouse genome.	277	**
polyA tail: 25 bases do not align to the human genome.	270	**
1 base in the human genome, T, is not found in cDNA.	264	**
polyA tail: 22 bases do not align to the mouse genome.	256	**
12 bases at the 5' end do not align to the mouse genome.	249	**
5 bases at the 5' end do not align to the human genome.	245	**
2 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	241	**
polyA tail: 24 bases do not align to the human genome.	241	**
1 base at the 3' end does not align to the human genome.	239	**
'C' in cDNA is 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	236	**
polyA tail: 20 bases do not align to the human genome.	230	**
polyA tail: 21 bases do not align to the human genome.	230	**
'G' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	227	**
1 base in the human genome, A, is not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	225	**
polyA tail: 23 bases do not align to the mouse genome.	224	**
'C' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	222	**
1 base in the human genome, G, is not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	214	**
polyA tail: 10 bases do not align to the human genome.	214	**
'G' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	212	**
polyA tail: 22 bases do not align to the human genome.	211	**
1 base at the 5' end does not align to the mouse genome.	209	**
polyA tail: 24 bases do not align to the mouse genome.	208	*
'C' in cDNA is 'T' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	206	*
'A' in cDNA is 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	203	*
'T' in cDNA is 'C' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	200	*
'G' in cDNA is 'A' in the human genome; no amino acid change.	199	*
'A' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	198	*
polyA tail: 31 bases do not align to the mouse genome.	196	*
2 bases in cDNA are not found in the human genome.	195	*
polyA tail: 23 bases do not align to the human genome.	192	*
3 bases in cDNA are not found in the mouse genome.	190	*
polyA tail: 11 bases do not align to the mouse genome.	187	*
'G' in cDNA is 'A' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	186	*
1 base in the human genome, A, is not found in cDNA.	185	*
'G' in cDNA is 'A' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	185	*
polyA tail: 32 bases do not align to the human genome.	184	*
9 bases at the 5' end do not align to the mouse genome.	178	*
in the mouse genome : TG.	174	*
polyA tail: 29 bases do not align to the mouse genome.	173	*
polyA tail: 26 bases do not align to the mouse genome.	172	*
'T' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	165	*
11 bases at the 5' end do not align to the human genome.	164	*
in the mouse genome : CA.	162	*
'A' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	162	*
polyA tail: 27 bases do not align to the mouse genome.	160	*
polyA tail: 9 bases do not align to the human genome.	158	*
polyA tail: 28 bases do not align to the mouse genome.	154	*
polyA tail: 10 bases do not align to the mouse genome.	152	*
polyA tail: 30 bases do not align to the mouse genome.	149	*
polyA tail: 25 bases do not align to the mouse genome.	147	*
4 bases in cDNA are not found in the mouse genome.	144	*
2 bases at the 3' end do not align to the human genome.	143	*
'A' in cDNA is 'G' in the human genome; no amino acid change.	143	*
polyA tail: 33 bases do not align to the human genome.	142	*
10 bases at the 5' end do not align to the mouse genome.	142	*
'C' in cDNA is 'T' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	137	*
'T' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	135	*
compared to genome; this base change does not affect the original amino acid sequence	131	*
polyA tail: 34 bases do not align to the human genome.	130	*
1 base in the human genome, C, is not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	129	*
polyA tail: 36 bases do not align to the human genome.	118	*
polyA tail: 32 bases do not align to the mouse genome.	118	*
in the mouse genome : AA.	118	*
in the mouse genome : CT.	117	*
in the mouse genome : TT.	112	*
polyA tail: 35 bases do not align to the human genome.	111	*
polyA tail: 39 bases do not align to the human genome.	111	*
polyA tail: 38 bases do not align to the human genome.	110	*
polyA tail: 37 bases do not align to the human genome.	110	*
3 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	110	*
'C' in cDNA is 'A' in the mouse genome; no amino acid change.	107	*
2 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	107	*
in the mouse genome : CC.	107	*
1 base in the human genome, G, is not found in cDNA.	106	*
polyA tail: 8 bases do not align to the human genome.	105	*
1 base at the 3' end does not align to the mouse genome.	104	*
3 bases at the 3' end do not align to the human genome.	103	*
1 base in the human genome, G, is not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	103	*
6 bases at the 5' end do not align to the human genome.	102	*
3 bases at the 5' end do not align to the mouse genome.	98	*
in the mouse genome : AG.	98	*
'G' in cDNA is 'A' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	98	*
polyA tail: 42 bases do not align to the human genome.	96	*
polyA tail: 40 bases do not align to the human genome.	95	*
1 base in the human genome, C, is not found in cDNA.	94	*
in the mouse genome : GG.	94	*
polyA tail: 9 bases do not align to the mouse genome.	93	*
polyA tail: 33 bases do not align to the mouse genome.	92	*
12 bases at the 5' end do not align to the human genome.	90	*
mismatch relative to genomic	90	*
polyA tail: 41 bases do not align to the human genome.	86	*
polyA tail: 7 bases do not align to the human genome.	85	*
in the mouse genome : GT.	84	*
9 bases at the 5' end do not align to the human genome.	84	*
polyA tail: 43 bases do not align to the human genome.	83	*
in the mouse genome : AC.	83	*
in the mouse genome : GA.	82	*
in the human genome : GC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	81	*
'A' in cDNA is 'C' in the mouse genome; no amino acid change.	81	*
'A' in cDNA is 'G' in the human genome; amino acid difference: 'K' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	81	*
2 bases at the 5' end do not align to the mouse genome.	80	*
polyA tail: 34 bases do not align to the mouse genome.	80	*
'C' in cDNA is 'A' in the human genome; no amino acid change.	80	*
7 bases at the 5' end do not align to the human genome.	79	*
in the human genome : AA.	78	*
'A' in cDNA is 'C' in the human genome; amino acid difference: 'T' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	78	*
in the human genome : TG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	77	*
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Y' in cDNA, 'F' in the human genome.	77	*
in the mouse genome : TA.	76	*
in the human genome : TG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	76	*
polyA tail: 35 bases do not align to the mouse genome.	76	*
polyA tail: 48 bases do not align to the human genome.	75	*
polyA tail: 44 bases do not align to the human genome.	75	*
in the human genome : CA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	75	*
in the mouse genome : GC.	74	*
2 bases at the 3' end do not align to the mouse genome.	74	*
polyA tail: 39 bases do not align to the mouse genome.	73	*
in the human genome : AA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	73	*
in the mouse genome : TC.	73	*
in the human genome : CA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	72	*
polyA tail: 6 bases do not align to the human genome.	72	*
4 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	71	*
2 bases in the mouse genome, AA, are not found in cDNA.	71	*
polyA tail: 36 bases do not align to the mouse genome.	70	*
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'A' in cDNA, 'T' in the mouse genome.	70	*
polyA tail: 37 bases do not align to the mouse genome.	69
8 bases at the 5' end do not align to the mouse genome.	69
polyA tail: 45 bases do not align to the human genome.	68
polyA tail: 52 bases do not align to the human genome.	68
polyA tail: 8 bases do not align to the mouse genome.	68
2 bases in the human genome, AA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	68
2 bases in the human genome, TT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	68
3 bases in cDNA are not found in the human genome.	68
polyA tail: 50 bases do not align to the human genome.	67
polyA tail: 51 bases do not align to the human genome.	67
13 bases at the 5' end do not align to the mouse genome.	67
4 bases at the 3' end do not align to the human genome.	67
polyA tail: 38 bases do not align to the mouse genome.	67
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'T' in cDNA, 'A' in the mouse genome.	67
'G' in cDNA is 'C' in the mouse genome; no amino acid change.	67
'G' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'T' in the human genome.	66
polyA tail: 56 bases do not align to the human genome.	66
'G' in cDNA is 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	66
in the mouse genome : AT.	65
2 bases in the mouse genome, TT, are not found in cDNA.	65
4 bases at the 3' end do not align to the mouse genome.	65
4 bases at the 5' end do not align to the mouse genome.	64
polyA tail: 5 bases do not align to the human genome.	64
polyA tail: 49 bases do not align to the human genome.	63
3 bases at the 3' end do not align to the mouse genome.	63
polyA tail: 53 bases do not align to the human genome.	62
4 bases in cDNA are not found in the human genome.	62
2 bases in the human genome, TT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	62
'A' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	62
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'V' in cDNA, 'A' in the mouse genome.	62
polyA tail: 54 bases do not align to the human genome.	61
7 bases at the 5' end do not align to the mouse genome.	61
'T' in cDNA is 'A' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	61
2 bases in the mouse genome, TG, are not found in cDNA.	61
polyA tail: 46 bases do not align to the human genome.	60
in the human genome : CA.	60
polyA tail: 65 bases do not align to the human genome.	60
1 base in cDNA is not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	60
polyA tail: 7 bases do not align to the mouse genome.	59
'T' in cDNA is 'G' in the mouse genome; no amino acid change.	59
'A' in cDNA is 'C' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	59
'T' in cDNA is 'C' in the human genome; amino acid difference: 'I' in cDNA, 'T' in the human genome.	59
polyA tail: 60 bases do not align to the human genome.	58
polyA tail: 40 bases do not align to the mouse genome.	58
2 bases in the mouse genome, GA, are not found in cDNA.	58
polyA tail: 5 bases do not align to the mouse genome.	58
polyA tail: 62 bases do not align to the human genome.	58
10 bases at the 5' end do not align to the human genome.	58
polyA tail: 57 bases do not align to the human genome.	57
polyA tail: 46 bases do not align to the mouse genome.	57
6 bases in cDNA are not found in the mouse genome.	56
in the human genome : TG.	56
'C' in cDNA is 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	56
polyA tail: 51 bases do not align to the mouse genome.	56
8 bases at the 5' end do not align to the human genome.	56
'C' in cDNA is 'A' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	56
'G' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'I' in the human genome.	56
polyA tail: 55 bases do not align to the human genome.	55
polyA tail: 58 bases do not align to the human genome.	54
polyA tail: 41 bases do not align to the mouse genome.	54
polyA tail: 47 bases do not align to the human genome.	53
in the human genome : AG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	53
'C' in cDNA is 'G' in the human genome; no amino acid change.	53
polyA tail: 6 bases do not align to the mouse genome.	52
5 bases at the 5' end do not align to the mouse genome.	52
polyA tail: 59 bases do not align to the human genome.	52
'T' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	52
8 bases in cDNA are not found in the mouse genome.	51
'G' in cDNA is 'T' in the mouse genome; no amino acid change.	51
polyA tail: 42 bases do not align to the mouse genome.	51
this base change does not affect the original amino acid sequence	51
compared with genome	50
'T' in cDNA is 'A' in the mouse genome; no amino acid change.	49
polyA tail: 67 bases do not align to the human genome.	49
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'V' in cDNA, 'I' in the mouse genome.	49
'A' in cDNA is 'C' in the human genome; amino acid difference: 'H' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	49
5 bases in cDNA are not found in the mouse genome.	48
2 bases in the mouse genome, GT, are not found in cDNA.	48
polyA tail: 63 bases do not align to the human genome.	48
polyA tail: 66 bases do not align to the human genome.	48
'A' in cDNA is 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	48
23 bases at the 5' end do not align to the mouse genome.	48
24 bases at the 5' end do not align to the mouse genome.	47
polyA tail: 68 bases do not align to the human genome.	47
'T' in cDNA is 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	47
in the human genome : CT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	47
'C' in cDNA is 'G' in the mouse genome; no amino acid change.	46
3 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	46
6 bases at the 5' end do not align to the mouse genome.	45
in the human genome : AC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	45
'G' in cDNA is 'C' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	45
'G' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome.	45
in the mouse genome : CG.	44
'A' in cDNA is 'T' in the mouse genome; no amino acid change.	44
'A' in cDNA is 'G' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	44
'G' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'M' in the human genome.	44
polyA tail: 44 bases do not align to the mouse genome.	43
polyA tail: 43 bases do not align to the mouse genome.	43
'A' in cDNA is 'C' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	43
'C' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'M' in the human genome.	43
'T' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	43
7 bases in cDNA are not found in the mouse genome.	42
2 bases in the mouse genome, AT, are not found in cDNA.	42
polyA tail: 52 bases do not align to the mouse genome.	42
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'R' in cDNA, 'K' in the mouse genome.	42
in the human genome : TC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	42
16 bases at the 5' end do not align to the mouse genome.	41
polyA tail: 45 bases do not align to the mouse genome.	41
14 bases at the 5' end do not align to the mouse genome.	41
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'Q' in the human genome.	41
'A' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	41
'G' in cDNA is 'C' in the human genome; no amino acid change.	41
2 bases in the mouse genome, AG, are not found in cDNA.	40
polyA tail: 61 bases do not align to the human genome.	40
2 bases in the mouse genome, CT, are not found in cDNA.	40
polyA tail: 71 bases do not align to the human genome.	39
polyA tail: 69 bases do not align to the human genome.	39
polyA tail: 47 bases do not align to the mouse genome.	39
polyA tail: 48 bases do not align to the mouse genome.	39
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'A' in cDNA, 'V' in the mouse genome.	39
'G' in cDNA is 'C' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	39
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	39
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	38
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'N' in the mouse genome.	38
in the human genome : AT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	38
polyA tail: 72 bases do not align to the human genome.	38
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'P' in cDNA, 'S' in the mouse genome.	38
'C' in cDNA is 'G' in the human genome; amino acid difference: 'P' in cDNA, 'R' in the human genome.	38
13 bases at the 5' end do not align to the human genome.	37
in the human genome : CC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	37
in the human genome : CT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	37
in the human genome : GC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	37
'A' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'S' in the human genome.	37
'A' in cDNA is 'G' in the human genome; amino acid difference: 'Q' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	36
in the human genome : CC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	36
polyA tail: 50 bases do not align to the mouse genome.	36
5 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	36
in the human genome : GG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	36
'C' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	36
'A' in cDNA is 'C' in the human genome; no amino acid change.	36
'C' in cDNA is 'G' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	35
in the human genome : AC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	35
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'K' in cDNA, 'E' in the mouse genome.	35
polyA tail: 55 bases do not align to the mouse genome.	35
polyA tail: 76 bases do not align to the human genome.	35
polyA tail: 70 bases do not align to the human genome.	35
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'N' in cDNA, 'S' in the mouse genome.	35
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	35
'T' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	34
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'K' in cDNA, 'R' in the mouse genome.	34
polyA tail: 83 bases do not align to the human genome.	34
'T' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	34
in the human genome : GA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	34
'G' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	34
'C' in cDNA is 'T' in the human genome; amino acid difference: 'A' in cDNA, 'V' in the human genome.	34
in the human genome : CC.	33
in the human genome : GG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	33
in the human genome : AG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	33
polyA tail: 49 bases do not align to the mouse genome.	33
2 bases in the human genome, AT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	32
polyA tail: 77 bases do not align to the human genome.	32
in the human genome : CT.	32
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'I' in cDNA, 'V' in the mouse genome.	32
polyA tail: 73 bases do not align to the human genome.	32
polyA tail: 75 bases do not align to the human genome.	32
in the human genome : GG.	32
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	31
'G' in cDNA is 'T' in the human genome; no amino acid change.	31
in the human genome : TT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	31
17 bases at the 5' end do not align to the mouse genome.	31
in the human genome : TT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	31
15 bases at the 5' end do not align to the mouse genome.	31
'T' in cDNA is 'C' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	31
compared to genomic sequence deletion	31
'T' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'A' in the human genome.	31
in the human genome : AT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	30
2 bases in the mouse genome, GG, are not found in cDNA.	30
2 bases in the human genome, CA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	30
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'S' in cDNA, 'P' in the mouse genome.	30
polyA tail: 57 bases do not align to the mouse genome.	30
polyA tail: 74 bases do not align to the human genome.	30
2 bases in the human genome, AA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	30
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'N' in cDNA, 'D' in the mouse genome.	30
2 bases in the mouse genome, CA, are not found in cDNA.	29
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'I' in cDNA, 'T' in the mouse genome.	29
2 bases in the human genome, CT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	29
3 bases in the mouse genome, TTT, are not found in cDNA.	29
polyA tail: 80 bases do not align to the human genome.	29
polyA tail: 82 bases do not align to the human genome.	29
in the human genome : GA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	29
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'E' in cDNA, 'K' in the mouse genome.	29
polyA tail: 90 bases do not align to the human genome.	29
'G' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	29
in the human genome : AAA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	28
polyA tail: 81 bases do not align to the human genome.	28
'T' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	28
2 bases in the human genome, AA, are not found in cDNA.	28
in the human genome : GT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	28
in the human genome : TC.	28
6 bases in cDNA are not found in the human genome.	28
polyA tail: 88 bases do not align to the human genome.	28
in the human genome : TT.	28
in the human genome : AG.	28
2 bases in the mouse genome, TA, are not found in cDNA.	28
polyA tail: 65 bases do not align to the mouse genome.	28
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'D' in cDNA, 'N' in the mouse genome.	28
in the human genome : GT.	28
2 bases in the human genome, TG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	27
polyA tail: 56 bases do not align to the mouse genome.	27
2 bases in the human genome, TT, are not found in cDNA.	27
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'P' in cDNA, 'L' in the mouse genome.	27
polyA tail: 53 bases do not align to the mouse genome.	27
2 bases in the mouse genome, CC, are not found in cDNA.	27
polyA tail: 60 bases do not align to the mouse genome.	27
in the human genome : TA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	27
'G' in cDNA is 'A' in the human genome; amino acid difference: 'E' in cDNA, 'K' in the human genome.	27
'A' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'A' in the human genome.	27
'A' in cDNA is 'T' in the human genome; no amino acid change.	27
it is found the conflict between this entry and AB027229	27
22 bases at the 5' end do not align to the mouse genome.	26
in the human genome : GT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	26
polyA tail: 78 bases do not align to the human genome.	26
'A' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	26
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	26
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'L' in cDNA, 'P' in the mouse genome.	26
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'D' in cDNA, 'G' in the mouse genome.	26
'T' in cDNA is 'G' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	26
polyA tail: 71 bases do not align to the mouse genome.	25
polyA tail: 85 bases do not align to the human genome.	25
polyA tail: 64 bases do not align to the human genome.	25
21 bases at the 5' end do not align to the mouse genome.	25
12 bases in the mouse genome are not found in cDNA.	25
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'R' in cDNA, 'G' in the mouse genome.	25
in the human genome : TA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	25
14 bases at the 5' end do not align to the human genome.	25
3 bases in the human genome, TTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	25
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'T' in cDNA, 'I' in the mouse genome.	25
compared to genomic sequence, resulting in an amino acid sequence difference	25
'C' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	24
in the human genome : AC.	24
15 bases at the 5' end do not align to the human genome.	24
polyA tail: 87 bases do not align to the human genome.	24
polyA tail: 54 bases do not align to the mouse genome.	24
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'R' in cDNA, 'Q' in the mouse genome.	24
polyA tail: 64 bases do not align to the mouse genome.	24
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'G' in cDNA, 'D' in the mouse genome.	24
polymorphism compared to sequence of the type II strain ME49 clone B7 from ToxoDB	24
'T' in cDNA is 'A' in the human genome; no amino acid change.	24
compared to genomic DNA	24
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'L' in cDNA, 'V' in the mouse genome.	23
2 bases in the human genome, GT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	23
in the human genome : CG.	23
in the human genome : GA.	23
5 bases in cDNA are not found in the human genome.	23
12 bases in cDNA are not found in the mouse genome.	23
2 bases in the human genome, TA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	23
16 bases at the 5' end do not align to the human genome.	23
polyA tail: 84 bases do not align to the human genome.	23
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'R' in the human genome.	23
'C' in cDNA is 'T' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome.	23
34 bases at the 5' end do not align to the human genome.	23
'G' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	23
'T' in cDNA is 'G' in the human genome; amino acid difference: '*' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	22
'C' in cDNA is 'T' in the human genome; amino acid difference: 'A' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	22
'A' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	22
24 bases at the 5' end do not align to the human genome.	22
polyA tail: 73 bases do not align to the mouse genome.	22
'G' in cDNA is 'A' in the human genome; amino acid difference: 'E' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	22
polyA tail: 61 bases do not align to the mouse genome.	22
'A' in cDNA is 'G' in the human genome; amino acid difference: 'R' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	22
compared to genome; this base change does not affect the original amino sequence	22
'T' in cDNA is 'G' in the human genome; no amino acid change.	22
'A' in cDNA is 'G' in the human genome; amino acid difference: 'K' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	22
'C' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'S' in the human genome.	22
10 bases in cDNA are not found in the mouse genome.	21
'A' in cDNA is 'G' in the human genome; amino acid difference: 'M' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	21
9 bases in cDNA are not found in the mouse genome.	21
polyA tail: 66 bases do not align to the mouse genome.	21
polyA tail: 94 bases do not align to the human genome.	21
'A' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'V' in the human genome.	21
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'K' in the human genome.	21
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'G' in cDNA, 'S' in the mouse genome.	21
'C' in cDNA is 'A' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	21
'T' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'T' in the human genome.	21
'T' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'Y' in the human genome.	21
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'G' in cDNA, 'E' in the mouse genome.	20
polyA tail: 58 bases do not align to the mouse genome.	20
'C' in cDNA is 'G' in the human genome; amino acid difference: 'A' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	20
4 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	20
35 bases at the 5' end do not align to the mouse genome.	20
polyA tail: 69 bases do not align to the mouse genome.	20
polyA tail: 67 bases do not align to the mouse genome.	20
in the human genome : AT.	20
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'F' in cDNA, 'L' in the mouse genome.	20
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	20
'A' in cDNA is 'T' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	20
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'H' in cDNA, 'R' in the mouse genome.	20
polyA tail: 63 bases do not align to the mouse genome.	19
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'T' in the mouse genome.	19
polyA tail: 89 bases do not align to the human genome.	19
polyA tail: 72 bases do not align to the mouse genome.	19
'T' in cDNA is 'C' in the human genome; amino acid difference: 'I' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	19
2 bases in the human genome, AT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	19
'G' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	19
'G' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	19
polyA tail: 95 bases do not align to the human genome.	19
'C' in cDNA is 'T' in the human genome; amino acid difference: 'P' in cDNA, 'L' in the human genome.	19
'A' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'G' in the human genome.	19
mismatch relative to genomic sequence	19
'G' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'N' in the human genome.	19
'C' in cDNA is 'T' in the human genome; amino acid difference: 'P' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	19
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'A' in the mouse genome.	19
RNA editing	19
'G' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	19
'G' in cDNA is 'C' in the human genome; amino acid difference: 'G' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	19
'A' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'G' in the human genome.	19
2 bases in the human genome, GA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	18
in the human genome : TC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	18
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'R' in cDNA, 'H' in the mouse genome.	18
2 bases in the human genome, AG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	18
in the human genome : GC.	18
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	18
polyA tail: 62 bases do not align to the mouse genome.	18
polyA tail: 86 bases do not align to the human genome.	18
polyA tail: 99 bases do not align to the human genome.	18
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'Q' in the human genome.	18
polyA tail: 102 bases do not align to the human genome.	18
'C' in cDNA is 'T' in the human genome; amino acid difference: 'A' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	18
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	18
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'Q' in cDNA, 'R' in the mouse genome.	18
polyA tail: 59 bases do not align to the mouse genome.	18
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'S' in the human genome.	18
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'K' in cDNA, 'Q' in the mouse genome.	18
'C' in cDNA is 'T' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	18
compared to ALV-transformed DT40 cell line derived from Hyline SC chicken	18
'T' in cDNA is 'G' in the human genome; amino acid difference: 'V' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	18
'C' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'V' in the human genome.	18
polyA tail: 81 bases do not align to the mouse genome.	17
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'I' in cDNA, 'L' in the mouse genome.	17
18 bases at the 5' end do not align to the mouse genome.	17
2 bases in the mouse genome, TC, are not found in cDNA.	17
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'M' in cDNA, 'V' in the mouse genome.	17
polyA tail: 91 bases do not align to the human genome.	17
27 bases at the 5' end do not align to the mouse genome.	17
'G' in cDNA is 'T' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	17
17 bases at the 5' end do not align to the human genome.	17
1 base in the human genome, N, is not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	17
2 bases in the human genome, CC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	17
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'D' in the mouse genome.	17
36 bases at the 5' end do not align to the mouse genome.	17
polyA tail: 97 bases do not align to the human genome.	17
'G' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	17
polyA tail: 93 bases do not align to the human genome.	17
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	17
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	17
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'A' in cDNA, 'S' in the mouse genome.	17
'A' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	17
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'T' in cDNA, 'S' in the mouse genome.	17
polyA tail: 70 bases do not align to the mouse genome.	16
26 bases at the 5' end do not align to the mouse genome.	16
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	16
3 bases in the mouse genome, AAA, are not found in cDNA.	16
polyA tail: 101 bases do not align to the human genome.	16
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	16
polyA tail: 100 bases do not align to the human genome.	16
'A' in cDNA is 'C' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	16
'A' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	16
'C' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	16
'A' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	16
'C' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	16
'T' in cDNA is 'A' in the human genome; no amino acid change. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	16
'T' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'P' in the human genome.	16
'C' in cDNA is 'A' in the human genome; amino acid difference: 'Q' in cDNA, 'K' in the human genome.	16
'G' in cDNA is 'C' in the human genome; amino acid difference: 'G' in cDNA, 'A' in the human genome.	16
8 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	15
25 bases at the 5' end do not align to the mouse genome.	15
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'W' in cDNA, 'R' in the mouse genome.	15
polyA tail: 107 bases do not align to the human genome.	15
'C' in cDNA is 'T' in the human genome; amino acid difference: 'P' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	15
19 bases at the 5' end do not align to the mouse genome.	15
23 bases at the 5' end do not align to the human genome.	15
8 bases in cDNA are not found in the human genome.	15
11 bases in cDNA are not found in the mouse genome.	15
polyA tail: 79 bases do not align to the mouse genome.	15
2 bases in the human genome, TC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	15
'G' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	15
polyA tail: 79 bases do not align to the human genome.	15
32 bases at the 5' end do not align to the human genome.	15
in the human genome : TA.	15
2 bases in the mouse genome, AC, are not found in cDNA.	15
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'M' in cDNA, 'I' in the mouse genome.	15
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	15
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'H' in cDNA, 'Y' in the mouse genome.	15
base change affects the amino acid	15
'C' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	15
'G' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	15
'C' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'Y' in the human genome.	15
'T' in cDNA is 'G' in the human genome; amino acid difference: 'V' in cDNA, 'G' in the human genome.	15
'G' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	14
33 bases at the 5' end do not align to the mouse genome.	14
2 bases in the mouse genome, GC, are not found in cDNA.	14
polyA tail: 75 bases do not align to the mouse genome.	14
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'T' in cDNA, 'S' in the mouse genome.	14
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'T' in cDNA, 'M' in the mouse genome.	14
20 bases at the 5' end do not align to the human genome.	14
2 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	14
polyA tail: 85 bases do not align to the mouse genome.	14
2 bases in the mouse genome, CG, are not found in cDNA.	14
2 bases in the human genome, GC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	14
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'R' in cDNA, 'P' in the mouse genome.	14
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'N' in cDNA, 'K' in the mouse genome.	14
11 bases in the mouse genome are not found in cDNA.	14
12 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	14
3 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	14
21 bases at the 5' end do not align to the human genome.	14
'G' in cDNA is 'C' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	14
polyA tail: 98 bases do not align to the human genome.	14
in the human genome : CG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	14
in the human genome : CG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	14
'A' in cDNA is 'G' in the human genome; amino acid difference: 'E' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	14
change observed in genomic DNA	14
compared to genomic sequence of CG8784	14
compared to genomic	14
'C' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	14
'T' in cDNA is 'C' in the mouse genome; amino acid difference: '*' in cDNA, 'Q' in the mouse genome.	14
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'Y' in cDNA, 'H' in the mouse genome.	14
'A' in cDNA is 'G' in the human genome; amino acid difference: 'K' in cDNA, 'R' in the human genome.	14
'A' in cDNA is 'G' in the human genome; amino acid difference: 'Q' in cDNA, 'R' in the human genome.	14
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'P' in cDNA, 'A' in the mouse genome.	13
34 bases at the 5' end do not align to the mouse genome.	13
polyA tail: 90 bases do not align to the mouse genome.	13
'G' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'N' in the human genome.	13
2 bases in the human genome, TG, are not found in cDNA.	13
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'G' in the mouse genome.	13
polyA tail: 92 bases do not align to the human genome.	13
2 bases in the human genome, GT, are not found in cDNA.	13
polyA tail: 108 bases do not align to the human genome.	13
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'S' in cDNA, 'F' in the mouse genome.	13
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'G' in cDNA, 'R' in the mouse genome.	13
polyA tail: 82 bases do not align to the mouse genome.	13
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'S' in cDNA, 'T' in the mouse genome.	13
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'C' in cDNA, 'R' in the mouse genome.	13
2 bases in the human genome, AG, are not found in cDNA.	13
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'F' in cDNA, 'S' in the mouse genome.	13
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'I' in the mouse genome.	13
'A' in cDNA is 'G' in the human genome; amino acid difference: 'K' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	13
'C' in cDNA is 'T' in the human genome; amino acid difference: 'P' in cDNA, 'S' in the human genome.	13
19 bases at the 5' end do not align to the human genome.	13
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'V' in cDNA, 'G' in the mouse genome.	13
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'L' in cDNA, 'S' in the mouse genome.	13
'C' in cDNA is 'A' in the human genome; amino acid difference: 'Q' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	13
'T' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	13
15 bases in the mouse genome are not found in cDNA.	12
20 bases at the 5' end do not align to the mouse genome.	12
polyA tail: 80 bases do not align to the mouse genome.	12
'G' in cDNA is 'A' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	12
6 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	12
3 bases in the human genome, TTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
31 bases at the 3' end do not align to the human genome.	12
8 bases at the 3' end do not align to the mouse genome.	12
2 bases in the human genome, GT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	12
1 base in the mouse genome, A, is not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	12
1 base in the mouse genome, C, is not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	12
6 bases in the human genome, TTTTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	12
'C' in cDNA is 'G' in the human genome; amino acid difference: 'A' in cDNA, 'G' in the human genome.	12
polyA tail: 104 bases do not align to the human genome.	12
'G' in cDNA is 'A' in the human genome; amino acid difference: 'C' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
polyA tail: 89 bases do not align to the mouse genome.	12
'A' in cDNA is 'G' in the human genome; amino acid difference: 'M' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	12
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'V' in cDNA, 'L' in the mouse genome.	12
'C' in cDNA is 'G' in the human genome; amino acid difference: 'Q' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	12
'T' in cDNA is 'C' in the human genome; amino acid difference: 'C' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
'G' in cDNA is 'C' in the human genome; amino acid difference: 'A' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'D' in the human genome.	12
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'Q' in the mouse genome.	12
'C' in cDNA is 'T' in the human genome; amino acid difference: 'H' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'F' in cDNA, 'I' in the mouse genome.	12
Compared to genome. This descrepancy does not change translation.	12
'A' in cDNA is 'G' in the human genome; amino acid difference: '*' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
'T' in cDNA is 'C' in the human genome; amino acid difference: 'Y' in cDNA, 'H' in the human genome.	12
6 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	12
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'Q' in cDNA, 'K' in the mouse genome.	12
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'E' in cDNA, 'G' in the mouse genome.	12
'A' in cDNA is 'G' in the human genome; amino acid difference: 'K' in cDNA, 'E' in the human genome.	12
'T' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'P' in the human genome.	11
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'T' in the human genome.	11
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'D' in cDNA, 'E' in the mouse genome.	11
1 base in the mouse genome, T, is not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	11
35 bases at the 5' end do not align to the human genome.	11
'C' in cDNA is 'A' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	11
polyA tail: 68 bases do not align to the mouse genome.	11
3 bases in the human genome, AAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	11
4 bases in the mouse genome, TTTT, are not found in cDNA.	11
9 bases in cDNA are not found in the human genome.	11
'C' in cDNA is 'G' in the human genome; amino acid difference: 'P' in cDNA, 'A' in the human genome.	11
polyA tail: 87 bases do not align to the mouse genome.	11
1 base in the mouse genome, G, is not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	11
4 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	11
polyA tail: 109 bases do not align to the human genome.	11
polyA tail: 96 bases do not align to the human genome.	11
'G' in cDNA is 'A' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	11
polyA tail: 105 bases do not align to the human genome.	11
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'G' in cDNA, 'A' in the mouse genome.	11
7 bases at the 3' end do not align to the mouse genome.	11
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'Q' in cDNA, 'E' in the mouse genome.	11
polyA tail: 86 bases do not align to the mouse genome.	11
polyA tail: 126 bases do not align to the human genome.	11
polyA tail: 77 bases do not align to the mouse genome.	11
polyA tail: 76 bases do not align to the mouse genome.	11
'T' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	11
2 bases in the human genome, AC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	11
'T' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'A' in the human genome.	11
8 bases at the 3' end do not align to the human genome.	11
compared to genomic sequenc	11
base change does not affect the original amino acid sequence	11
compared to Homo sapiens testican encoded by GenBank Accession Number X73608	11
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'I' in cDNA, 'M' in the mouse genome.	11
polyA tail: 111 bases do not align to the human genome.	11
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'V' in cDNA, 'L' in the mouse genome.	11
'G' in cDNA is 'A' in the human genome; amino acid difference: 'E' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	11
'T' in cDNA is 'G' in the mouse genome; amino acid difference: '*' in cDNA, 'E' in the mouse genome.	11
'T' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	11
'C' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'I' in the human genome.	11
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'W' in the human genome.	11
in the mouse genome : TGT.	10
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'Q' in the mouse genome.	10
2 bases in the human genome, GG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
13 bases in cDNA are not found in the mouse genome.	10
in the mouse genome : AA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	10
'T' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
2 bases in the human genome, CT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	10
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'V' in cDNA, 'F' in the mouse genome.	10
3 bases in the human genome, TTT, are not found in cDNA.	10
'G' in cDNA is 'T' in the human genome; amino acid difference: 'A' in cDNA, 'S' in the human genome.	10
15 bases in cDNA are not found in the mouse genome.	10
in the mouse genome : TGG.	10
27 bases at the 3' end do not align to the human genome.	10
5 bases in the mouse genome, TTTTT, are not found in cDNA.	10
17 bases in the mouse genome are not found in cDNA.	10
2 bases in the human genome, CA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	10
9 bases at the 3' end do not align to the mouse genome.	10
polyA tail: 104 bases do not align to the mouse genome.	10
7 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	10
polyA tail: 112 bases do not align to the human genome.	10
3 bases in the mouse genome, GTT, are not found in cDNA.	10
28 bases at the 5' end do not align to the mouse genome.	10
14 bases in cDNA are not found in the mouse genome.	10
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'P' in cDNA, 'T' in the mouse genome.	10
'C' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
33 bases at the 5' end do not align to the human genome.	10
polyA tail: 122 bases do not align to the human genome.	10
polyA tail: 93 bases do not align to the mouse genome.	10
'A' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
5 bases at the 3' end do not align to the mouse genome.	10
2 bases in the human genome, GA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	10
'G' in cDNA is 'T' in the human genome; amino acid difference: 'D' in cDNA, 'Y' in the human genome.	10
'T' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'I' in the human genome.	10
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'C' in the mouse genome.	10
insertion	10
L28766	10
deletion relative to genomic	10
deletion	10
2 bases in the human genome, TA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	10
'C' in cDNA is 'T' in the human genome; amino acid difference: 'H' in cDNA, 'Y' in the human genome.	10
'C' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'M' in cDNA, 'T' in the mouse genome.	10
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'F' in cDNA, 'Y' in the mouse genome.	10
'A' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'R' in the human genome.	10
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'G' in cDNA, 'R' in the mouse genome.	10
'C' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'C' in the human genome.	10
'G' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	10
'C' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	10
13 bases in the mouse genome are not found in cDNA.	9
in the mouse genome : CAG.	9
3 bases in the mouse genome, GAG, are not found in cDNA.	9
7 bases at the 3' end do not align to the human genome.	9
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'T' in cDNA, 'N' in the mouse genome.	9
2 bases in the human genome, CA, are not found in cDNA.	9
polyA tail: 94 bases do not align to the mouse genome.	9
in the mouse genome : CTG.	9
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'G' in cDNA, 'V' in the mouse genome.	9
3 bases in the human genome, AAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
10 bases in cDNA are not found in the human genome.	9
18 bases at the 5' end do not align to the human genome.	9
'C' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	9
'A' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	9
'G' in cDNA is 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	9
polyA tail: 105 bases do not align to the mouse genome.	9
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'T' in cDNA, 'P' in the mouse genome.	9
14 bases in the mouse genome are not found in cDNA.	9
27 bases at the 5' end do not align to the human genome.	9
26 bases at the 3' end do not align to the human genome.	9
'A' in cDNA is 'G' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	9
polyA tail: 128 bases do not align to the human genome.	9
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'A' in the mouse genome.	9
polyA tail: 95 bases do not align to the mouse genome.	9
in the mouse genome : CTT.	9
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'I' in cDNA, 'M' in the mouse genome.	9
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'C' in cDNA, 'Y' in the mouse genome.	9
16 bases in the mouse genome are not found in cDNA.	9
polyA tail: 113 bases do not align to the human genome.	9
polyA tail: 114 bases do not align to the human genome.	9
9 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	9
polyA tail: 118 bases do not align to the mouse genome.	9
'T' in cDNA is 'C' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
5 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'C' in cDNA is 'G' in the human genome; amino acid difference: 'R' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'H' in the human genome.	9
2 bases in the human genome, CC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	9
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'S' in cDNA, 'L' in the mouse genome.	9
'C' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'A' in cDNA is 'C' in the human genome; amino acid difference: 'T' in cDNA, 'P' in the human genome.	9
'A' in cDNA is 'C' in the human genome; amino acid difference: 'I' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'H' in cDNA, 'N' in the mouse genome.	9
not present in genomic sequence (version CHR1v07142002)	9
results in a frameshift when compared with genomic sequence	9
compared to overlapping genomic sequences contained in GenBank Accession Numbers Z85989 and Z94160	9
5 bases at the 3' end do not align to the human genome.	9
'T' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
30 bases at the 3' end do not align to the human genome.	9
2 bases in the human genome, TG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	9
'G' in cDNA is 'C' in the human genome; amino acid difference: 'G' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
differs from the Mus musculus sequence deposited as GenBank Accession Number U82122	9
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'P' in cDNA, 'R' in the mouse genome.	9
compared to sequence presented in GenBank Accession Number L35008	9
'C' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome.	9
'A' in cDNA is 'C' in the human genome; amino acid difference: 'N' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'T' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'A' in cDNA is 'G' in the human genome; amino acid difference: 'Q' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	9
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Y' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	9
'A' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	9
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'V' in the human genome.	9
'C' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome.	9
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
2 bases in the human genome, GA, are not found in cDNA.	8
'T' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
2 bases in the human genome, AT, are not found in cDNA.	8
3 bases in the mouse genome, CTG, are not found in cDNA.	8
2 bases in the human genome, AC, are not found in cDNA.	8
polyA tail: 83 bases do not align to the mouse genome.	8
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'D' in cDNA, 'E' in the mouse genome.	8
polyA tail: 14 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	8
20 bases in the mouse genome are not found in cDNA.	8
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'A' in cDNA, 'P' in the mouse genome.	8
'C' in cDNA is 'T' in the human genome; amino acid difference: 'P' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	8
25 bases at the 5' end do not align to the human genome.	8
in the mouse genome : GGC.	8
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'L' in cDNA, 'F' in the mouse genome.	8
28 bases at the 3' end do not align to the human genome.	8
in the mouse genome : TG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	8
polyA tail: 97 bases do not align to the mouse genome.	8
polyA tail: 91 bases do not align to the mouse genome.	8
11 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
31 bases at the 5' end do not align to the mouse genome.	8
polyA tail: 120 bases do not align to the human genome.	8
2 bases in the human genome, CG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
'T' in cDNA is 'A' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	8
2 bases in the human genome, AG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	8
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'P' in cDNA, 'Q' in the mouse genome.	8
'T' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'S' in the human genome.	8
18 bases in cDNA are not found in the mouse genome.	8
polyA tail: 103 bases do not align to the human genome.	8
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'E' in cDNA, 'D' in the mouse genome.	8
in the mouse genome : GC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	8
in the mouse genome : NN.	8
polyA tail: 84 bases do not align to the mouse genome.	8
'G' in cDNA is 'C' in the human genome; amino acid difference: 'A' in cDNA, 'P' in the human genome.	8
polymorphism	8
compared to genomic sequence of CG8795	8
this base change affects the amino acid	8
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'Y' in cDNA, 'F' in the mouse genome.	8
polyA tail: 134 bases do not align to the human genome.	8
7 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	8
'G' in cDNA is 'T' in the human genome; amino acid difference: 'A' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'I' in cDNA, 'F' in the mouse genome.	8
'T' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
23 bases in cDNA are not found in the mouse genome.	8
different from PKN	8
clone C74	8
'C' in cDNA is 'T' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	8
'G' in cDNA is 'T' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	8
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'T' in the human genome.	8
'G' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
'A' in cDNA is 'G' in the human genome; amino acid difference: 'E' in cDNA, 'G' in the human genome.	8
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	8
'C' in cDNA is 'G' in the human genome; amino acid difference: 'R' in cDNA, 'G' in the human genome.	8
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	8
'G' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'Q' in the human genome.	8
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'E' in the human genome.	8
'G' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'L' in the human genome.	8
'T' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome.	8
'C' in cDNA is 'G' in the human genome; amino acid difference: 'C' in cDNA, 'W' in the human genome.	8
2 bases in the human genome, CG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
polyA tail: 123 bases do not align to the human genome.	7
polyA tail: 102 bases do not align to the mouse genome.	7
2 bases in the human genome, CT, are not found in cDNA.	7
40 bases at the 5' end do not align to the mouse genome.	7
18 bases at the 3' end do not align to the human genome.	7
'T' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
33 bases at the 3' end do not align to the human genome.	7
3 bases in the mouse genome, TCT, are not found in cDNA.	7
3 bases in the mouse genome, CCC, are not found in cDNA.	7
3 bases in the mouse genome, CTT, are not found in cDNA.	7
in the mouse genome : CCC.	7
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'V' in cDNA, 'M' in the mouse genome.	7
in the mouse genome : CCA.	7
in the mouse genome : ACA.	7
in the mouse genome : CCT.	7
'C' in cDNA is 'G' in the human genome; amino acid difference: 'P' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	7
'G' in cDNA is 'T' in the human genome; amino acid difference: 'A' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
32 bases at the 5' end do not align to the mouse genome.	7
polyA tail: 99 bases do not align to the mouse genome.	7
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'H' in cDNA, 'Q' in the mouse genome.	7
4 bases in the human genome, TTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
polyA tail: 119 bases do not align to the mouse genome.	7
3 bases in the mouse genome, TCC, are not found in cDNA.	7
in the mouse genome : CAC.	7
20 bases in cDNA are not found in the mouse genome.	7
2 bases in the human genome, TA, are not found in cDNA.	7
polyA tail: 118 bases do not align to the human genome.	7
polyA tail: 13 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	7
polyA tail: 130 bases do not align to the human genome.	7
6 bases at the 3' end do not align to the mouse genome.	7
in the human genome : AAA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'L' in cDNA, 'V' in the mouse genome.	7
'G' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
18 bases in the mouse genome are not found in cDNA.	7
16 bases in cDNA are not found in the mouse genome.	7
in the mouse genome : TC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	7
10 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
polyA tail: 78 bases do not align to the mouse genome.	7
'T' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
15 bases at the 3' end do not align to the mouse genome.	7
'A' in cDNA is 'G' in the human genome; amino acid difference: 'K' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
polyA tail: 15 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	7
38 bases at the 5' end do not align to the mouse genome.	7
polyA tail: 88 bases do not align to the mouse genome.	7
'C' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'I' in the human genome.	7
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'R' in cDNA, 'G' in the mouse genome.	7
2 bases in the human genome, TC, are not found in cDNA.	7
This discrepancy does not change the protein sequence.	7
'G' in cDNA is 'C' in the human genome; amino acid difference: 'G' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
13 bases in the human genome are not found in cDNA.	7
12 bases in cDNA are not found in the human genome.	7
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'Y' in cDNA, 'N' in the mouse genome.	7
10 bases at the 3' end do not align to the human genome.	7
'C' in cDNA is 'G' in the human genome; amino acid difference: 'P' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	7
'C' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'E' in the human genome.	7
13 bases at the 3' end do not align to the human genome.	7
in the mouse genome : CT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	7
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'D' in the mouse genome.	7
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'M' in cDNA, 'L' in the mouse genome.	7
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'Q' in cDNA, 'H' in the mouse genome.	7
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	7
'T' in cDNA is 'C' in the human genome; amino acid difference: 'C' in cDNA, 'R' in the human genome.	7
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'P' in the human genome.	7
'A' in cDNA is 'C' in the human genome; amino acid difference: 'H' in cDNA, 'P' in the human genome.	7
'C' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome.	7
'T' in cDNA is 'C' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome.	7
'T' in cDNA is 'C' in the human genome; amino acid difference: 'Y' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	7
'C' in cDNA is 'T' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
'T' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	7
'A' in cDNA is 'C' in the human genome; amino acid difference: 'N' in cDNA, 'T' in the human genome.	7
'C' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	7
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'D' in cDNA, 'H' in the mouse genome.	7
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'M' in the human genome.	7
'A' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome.	7
'G' in cDNA is 'A' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	7
'G' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	7
compared to genomic DNA; may be due to the inaccuracy of the Taq DNA polymerase	7
2 bases in the human genome, GG, are not found in cDNA.	6
45 bases at the 5' end do not align to the human genome.	6
3 bases in the mouse genome, AGC, are not found in cDNA.	6
in the mouse genome : AG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	6
in the human genome : ACA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
5 bases in the human genome, TTTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
in the mouse genome : GAA.	6
3 bases in the mouse genome, GGG, are not found in cDNA.	6
polyA tail: 110 bases do not align to the mouse genome.	6
24 bases in cDNA are not found in the human genome.	6
3 bases in the human genome, GAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
polyA tail: 92 bases do not align to the mouse genome.	6
in the human genome : TG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	6
'T' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	6
'G' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	6
'G' in cDNA is 'T' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	6
'T' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	6
31 bases at the 5' end do not align to the human genome.	6
in the mouse genome : AGA.	6
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'Q' in cDNA, 'L' in the mouse genome.	6
12 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
in the mouse genome : TAT.	6
29 bases at the 5' end do not align to the human genome.	6
in the human genome : GGG.	6
in the mouse genome : AAC.	6
polyA tail: 133 bases do not align to the human genome.	6
'C' in cDNA is 'T' in the human genome; amino acid difference: 'P' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'T' in cDNA is 'C' in the human genome; amino acid difference: 'F' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
polyA tail: 117 bases do not align to the human genome.	6
polyA tail: 125 bases do not align to the human genome.	6
3 bases in the mouse genome, AAC, are not found in cDNA.	6
42 bases at the 5' end do not align to the human genome.	6
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'K' in cDNA, 'N' in the mouse genome.	6
in the mouse genome : CGT.	6
29 bases at the 5' end do not align to the mouse genome.	6
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'Y' in cDNA, 'S' in the mouse genome.	6
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'M' in the mouse genome.	6
43 bases at the 5' end do not align to the mouse genome.	6
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'L' in cDNA, 'F' in the mouse genome.	6
17 bases at the 3' end do not align to the mouse genome.	6
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
11 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
polyA tail: 117 bases do not align to the mouse genome.	6
polyA tail: 132 bases do not align to the human genome.	6
11 bases in cDNA are not found in the human genome.	6
'A' in cDNA is 'C' in the human genome; amino acid difference: 'N' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
4 bases in the human genome, TTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'A' in cDNA is 'N' in the mouse genome.	6
15 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'A' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
3 bases in the human genome, GTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
in the human genome : CCA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
polyA tail: 116 bases do not align to the human genome.	6
polyA tail: 98 bases do not align to the mouse genome.	6
in the mouse genome : TTG.	6
polyA tail: 74 bases do not align to the mouse genome.	6
'C' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'M' in the human genome.	6
polyA tail: 106 bases do not align to the mouse genome.	6
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'T' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'C' in the human genome.	6
'A' in cDNA is 'G' in the human genome; amino acid difference: 'R' in cDNA, 'G' in the human genome.	6
polyA tail: 115 bases do not align to the mouse genome.	6
3 bases in the human genome, AAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'T' in cDNA is 'G' in the human genome; amino acid difference: '*' in cDNA, 'E' in the human genome.	6
12 bases at the 3' end do not align to the human genome.	6
9 bases at the 3' end do not align to the human genome.	6
'A' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
not in genomic sequence	6
not present in the genomic sequence	6
insertion relative to genomic	6
compared to genome. This discrepency does not change protein sequence.	6
compared to genome This discrepancy does not change protein sequence.	6
in genomic sequence	6
Codon for amino acyl group that is different in RAO (GenBank Accession Number D88213)	6
compared to sequence presented in GenBank Accession number X59244	6
'T' in cDNA is 'A' in the human genome; amino acid difference: '*' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
in the human genome : CAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'D' in cDNA, 'E' in the mouse genome.	6
'A' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome.	6
in the human genome : GCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
in the human genome : GCA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
19 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
in the human genome : TGT.	6
5 bases in the human genome, AAAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
1 base in the human genome, N, is not found in cDNA.	6
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'P' in the human genome.	6
'A' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'S' in the human genome.	6
in the mouse genome : GCT.	6
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'Q' in cDNA, '*' in the mouse genome.	6
12 bases at the 3' end do not align to the mouse genome.	6
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, '*' in the mouse genome.	6
K5R-V mutant	6
compared to inbred line UCD 001 and inbred line UCD 003	6
'T' in cDNA is 'C' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	6
'G' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'G' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'I' in the human genome.	6
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'M' in cDNA, 'L' in the mouse genome.	6
'T' in cDNA is 'C' in the human genome; amino acid difference: 'W' in cDNA, 'R' in the human genome.	6
'T' in cDNA is 'C' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'C' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome.	6
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'E' in cDNA, 'V' in the mouse genome.	6
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'V' in the human genome.	6
'C' in cDNA is 'A' in the human genome; amino acid difference: 'T' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'T' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'T' in the human genome.	6
29 bases at the 3' end do not align to the human genome.	6
'C' in cDNA is 'G' in the human genome; amino acid difference: 'Q' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'D' in cDNA, 'E' in the mouse genome.	6
'C' in cDNA is 'G' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'G' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'G' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'A' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'D' in the human genome.	6
'A' in cDNA is 'C' in the human genome; amino acid difference: 'D' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	6
'G' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome.	6
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Y' in cDNA, 'S' in the human genome.	6
'C' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'R' in the human genome.	6
'G' in cDNA is 'T' in the human genome; amino acid difference: 'V' in cDNA, 'F' in the human genome.	6
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'Q' in the human genome.	6
'G' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome.	6
in the human genome : CACA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	6
'C' in cDNA is 'A' in the human genome; amino acid difference: 'T' in cDNA, 'N' in the human genome.	6
in the human genome : TCT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
3 bases in the mouse genome, AAG, are not found in cDNA.	5
6 bases in the mouse genome, TTTTTT, are not found in cDNA.	5
in the mouse genome : GCG.	5
'G' in cDNA is 'A' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
25 bases at the 3' end do not align to the mouse genome.	5
polyA tail: 139 bases do not align to the human genome.	5
18 bases in the human genome are not found in cDNA.	5
24 bases in cDNA are not found in the mouse genome.	5
24 bases at the 3' end do not align to the human genome.	5
138 bases at the 5' end do not align to the human genome.	5
'C' in cDNA is 'A' in the human genome; amino acid difference: 'T' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
53 bases at the 5' end do not align to the human genome.	5
'C' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
22 bases in cDNA are not found in the mouse genome.	5
39 bases at the 5' end do not align to the mouse genome.	5
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'T' in cDNA, 'R' in the mouse genome.	5
polyA tail: 135 bases do not align to the human genome.	5
in the human genome : CCT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
37 bases at the 5' end do not align to the mouse genome.	5
in the mouse genome : CA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	5
18 bases at the 3' end do not align to the mouse genome.	5
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
in the human genome : GTG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
14 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
polyA tail: 101 bases do not align to the mouse genome.	5
3 bases in the mouse genome, CAA, are not found in cDNA.	5
in the mouse genome : GAT.	5
in the mouse genome : TTT.	5
in the mouse genome : TGA.	5
16 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
polyA tail: 16 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	5
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'A' in cDNA, 'G' in the mouse genome.	5
7 bases in the human genome, AAAAAAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'R' in cDNA, 'S' in the mouse genome.	5
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'Q' in cDNA, 'H' in the mouse genome.	5
15 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
2 bases in the human genome, AC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
in the mouse genome : TAA.	5
3 bases in the mouse genome, ACA, are not found in cDNA.	5
polyA tail: 108 bases do not align to the mouse genome.	5
59 bases at the 5' end do not align to the human genome.	5
polyA tail: 110 bases do not align to the human genome.	5
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'N' in cDNA, 'K' in the mouse genome.	5
in the mouse genome : GTG.	5
4 bases in the mouse genome, CACA, are not found in cDNA.	5
polyA tail: 100 bases do not align to the mouse genome.	5
2 bases in the human genome, CC, are not found in cDNA.	5
64 bases at the 5' end do not align to the mouse genome.	5
11 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
polyA tail: 107 bases do not align to the mouse genome.	5
3 bases in the human genome, CCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'R' in the mouse genome.	5
27 bases in cDNA are not found in the mouse genome.	5
14 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
3 bases in the mouse genome, TGT, are not found in cDNA.	5
polyA tail: 142 bases do not align to the mouse genome.	5
polyA tail: 136 bases do not align to the mouse genome.	5
51 bases at the 5' end do not align to the mouse genome.	5
19 bases in the mouse genome are not found in cDNA.	5
polyA tail: 123 bases do not align to the mouse genome.	5
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'T' in cDNA, 'K' in the mouse genome.	5
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'C' in cDNA, 'G' in the mouse genome.	5
'C' in cDNA is 'A' in the human genome; amino acid difference: 'T' in cDNA, 'K' in the human genome.	5
37 bases at the 5' end do not align to the human genome.	5
16 bases at the 3' end do not align to the human genome.	5
'C' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
compared to sequence in GenBank Accession Number AB104738	5
in the human genome : CCA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
3 bases in the human genome, CTC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
12 bases in the human genome are not found in cDNA.	5
'T' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
28 bases at the 5' end do not align to the human genome.	5
18 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'A' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome.	5
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'F' in cDNA, 'C' in the mouse genome.	5
in the human genome : GTG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
3 bases in the human genome, AAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
3 bases in the human genome, TAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
polyA tail: 138 bases do not align to the human genome.	5
'T' in cDNA is 'A' in the mouse genome; amino acid difference: '*' in cDNA, 'K' in the mouse genome.	5
in the human genome : GAA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
11 bases at the 3' end do not align to the human genome.	5
'A' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'C' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, '*' in the human genome.	5
'C' in cDNA is 'G' in the human genome; amino acid difference: 'P' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
in the mouse genome : ACT.	5
5 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	5
4 bases in the mouse genome, AACT, are not found in cDNA.	5
in the mouse genome : TTC.	5
21 bases in the mouse genome are not found in cDNA.	5
in the mouse genome : CAT.	5
28 bases in cDNA are not found in the mouse genome.	5
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'R' in cDNA, 'T' in the mouse genome.	5
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'I' in cDNA, 'M' in the mouse genome.	5
in the mouse genome : CTA.	5
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'N' in cDNA, 'K' in the mouse genome.	5
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'E' in cDNA, 'D' in the mouse genome.	5
polyA tail: 103 bases do not align to the mouse genome.	5
polyA tail: 147 bases do not align to the mouse genome.	5
'A' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'G' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'T' in the human genome.	5
polyA tail: 127 bases do not align to the mouse genome.	5
11 bases at the 3' end do not align to the mouse genome.	5
a in citations 1 and 2; g in citation 3.; 'g' in misc_difference	5
'g' in misc_difference; a in citations 1 and 3; g in citation 2.	5
't' in misc_difference; a in citations 1 and 3; t in citation 2.	5
'T' in cDNA is 'C' in the Japanese quail cosmid DNA (Accecion No. AB259849). The amino acid not changed between cDNA and cosmid DNA	5
'C' in cDNA is 'T' in the Japanese quail cosmid DNA (Accecion No. AB259849). The amino acid not changed between cDNA and cosmid DNA	5
compared to allele sequence	5
'C' in cDNA is 'G' in the human genome; amino acid difference: 'R' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'I' in the mouse genome.	5
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'A' in cDNA, 'D' in the mouse genome.	5
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'G' in cDNA is 'A' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome.	5
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'F' in cDNA, 'V' in the mouse genome.	5
'G' in cDNA is 'C' in the human genome; amino acid difference: 'D' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'T' in cDNA is 'C' in the human genome; amino acid difference: 'W' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'T' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'I' in cDNA, 'N' in the mouse genome.	5
'T' in cDNA is 'C' in the human genome; amino acid difference: 'F' in cDNA, 'S' in the human genome.	5
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'V' in cDNA, 'E' in the mouse genome.	5
'C' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'D' in the human genome.	5
'G' in cDNA is 'A' in the human genome; amino acid difference: 'W' in cDNA, '*' in the human genome.	5
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'Q' in the human genome.	5
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'C' in the human genome.	5
36 bases at the 5' end do not align to the human genome.	5
'A' in cDNA is 'T' in the human genome; amino acid difference: 'M' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'G' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	5
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome.	5
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'H' in cDNA, 'Q' in the mouse genome.	5
'G' in cDNA is 'C' in the human genome; amino acid difference: 'G' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	5
'C' in cDNA is 'A' in the human genome; amino acid difference: 'H' in cDNA, 'N' in the human genome.	5
'A' in cDNA is 'T' in the human genome; amino acid difference: 'N' in cDNA, 'Y' in the human genome.	5
in the mouse genome : TCT.	4
4 bases in the mouse genome, GTTT, are not found in cDNA.	4
'T' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
3 bases in the human genome, GAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
in the human genome : AGC.	4
'T' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, 'D' in the human genome.	4
4 bases in the mouse genome, ATAA, are not found in cDNA.	4
'C' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'G' in cDNA is 'C' in the human genome; amino acid difference: 'D' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'G' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
in the mouse genome : GCA.	4
4 bases in the human genome, ACAC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
65 bases at the 5' end do not align to the human genome.	4
polyA tail: 142 bases do not align to the human genome.	4
in the mouse genome : TTA.	4
20 bases at the 3' end do not align to the human genome.	4
42 bases at the 5' end do not align to the mouse genome.	4
15 bases at the 3' end do not align to the human genome.	4
5 bases in the mouse genome, CCCCC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
25 bases at the 3' end do not align to the human genome.	4
polyA tail: 22 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
in the mouse genome : GGT.	4
polyA tail: 140 bases do not align to the human genome.	4
30 bases at the 5' end do not align to the mouse genome.	4
6 bases in the mouse genome, GTGTGT, are not found in cDNA.	4
3 bases in the human genome, ATA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
in the human genome : CCG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
25 bases in cDNA are not found in the mouse genome.	4
105 bases at the 5' end do not align to the mouse genome.	4
3 bases in the human genome, CTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
30 bases in cDNA are not found in the mouse genome.	4
10 bases in the mouse genome, TGTGTGTGTG, are not found in cDNA.	4
4 bases in the human genome, ATTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
in the mouse genome : CC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
in the mouse genome : GA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
18 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
in the mouse genome : GCC.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
in the mouse genome : AGC.	4
'A' in cDNA is 'T' in the human genome; amino acid difference: 'I' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
polyA tail: 152 bases do not align to the mouse genome.	4
'C' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
3 bases in the human genome, GGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
4 bases in the mouse genome, CTCT, are not found in cDNA.	4
3 bases in the mouse genome, GAT, are not found in cDNA.	4
46 bases at the 5' end do not align to the mouse genome.	4
in the human genome : GAG.	4
in the mouse genome : ATC.	4
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'W' in the mouse genome.	4
polyA tail: 106 bases do not align to the human genome.	4
4 bases in the mouse genome, GTGT, are not found in cDNA.	4
polyA tail: 111 bases do not align to the mouse genome.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: 'D' in cDNA, 'A' in the human genome.	4
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'N' in cDNA, 'H' in the mouse genome.	4
8 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'T' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'Q' in the human genome.	4
polyA tail: 136 bases do not align to the human genome.	4
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'G' in cDNA, 'C' in the mouse genome.	4
3 bases in the human genome, ATT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
26 bases at the 5' end do not align to the human genome.	4
14 bases at the 3' end do not align to the mouse genome.	4
polyA tail: 96 bases do not align to the mouse genome.	4
in the human genome : AGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
49 bases at the 5' end do not align to the human genome.	4
3 bases in the mouse genome, AGA, are not found in cDNA.	4
polyA tail: 129 bases do not align to the human genome.	4
polyA tail: 109 bases do not align to the mouse genome.	4
in the mouse genome : TCC.	4
polyA tail: 149 bases do not align to the mouse genome.	4
1 base does not align to the mouse genome.	4
polyA tail: 114 bases do not align to the mouse genome.	4
22 bases at the 3' end do not align to the mouse genome.	4
polyA tail: 17 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
'A' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
13 bases at the 3' end do not align to the mouse genome.	4
3 bases in the human genome, ACA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
3 bases in the mouse genome, ATA, are not found in cDNA.	4
17 bases at the 3' end do not align to the human genome.	4
site-directed mutagenesis	4
compared to GI:452822	4
compared to genomic sequence (version CHR1v07142002)	4
not present in genomic	4
artifact within poly A tail	4
This discrepancy does not affect the protein sequence.	4
compared to genomic DNA sequence; possible RT-PCR/cloning error	4
comapred to genome	4
attL1 base deletion	4
in the human genome : ATC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
3 bases in the human genome, GGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
in the human genome : CTG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
2 bases in the human genome, GC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
4 bases in the human genome, ATTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
in the human genome : TTT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'A' in cDNA is 'G' in the mouse genome; amino acid difference: '*' in cDNA, 'W' in the mouse genome.	4
108 bases at the 3' end do not align to the human genome.	4
2 bases in the human genome, GG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
in the human genome : CCA.	4
93 bases at the 5' end do not align to the human genome.	4
14 bases in cDNA are not found in the human genome.	4
4 bases in the human genome, AAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
12 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
in the human genome : TGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
19 bases at the 3' end do not align to the human genome.	4
30 bases at the 5' end do not align to the human genome.	4
in the human genome : CTG.	4
in the human genome : GAA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
polyA tail: 121 bases do not align to the human genome.	4
in the human genome : TCA.	4
4 bases in the human genome, TTTT, are not found in cDNA.	4
38 bases at the 5' end do not align to the human genome.	4
polyA tail: 115 bases do not align to the human genome.	4
15 bases in cDNA are not found in the human genome.	4
polyA tail: 119 bases do not align to the human genome.	4
26 bases in cDNA are not found in the human genome.	4
in the human genome : CCC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
22 bases at the 3' end do not align to the human genome.	4
differs at this position from the HeLa cell mRNA, GenBank Accession Number U12424	4
compared to GenBank Accession Number M68221	4
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'K' in cDNA, 'T' in the mouse genome.	4
2 bases in the mouse genome, AA, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
in the mouse genome : TT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
11 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
10 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
in the mouse genome : AT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	4
4 bases in the mouse genome, TTAC, are not found in cDNA.	4
'T' in cDNA is 'C' in the mouse genome; amino acid difference: '*' in cDNA, 'R' in the mouse genome.	4
due to degenerate PCR primer	4
K3R-V mutant	4
compared to sequence in GenBank Accession Number X67052	4
'C' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'M' in cDNA, 'I' in the mouse genome.	4
'T' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'T' in cDNA is 'G' in the human genome; amino acid difference: 'M' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'S' in the mouse genome.	4
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'S' in cDNA, 'C' in the mouse genome.	4
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'A' in cDNA, 'E' in the mouse genome.	4
'T' in cDNA is 'G' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'A' in cDNA is 'G' in the human genome; amino acid difference: 'M' in cDNA, 'V' in the human genome.	4
'G' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'G' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'Y' in cDNA, 'C' in the mouse genome.	4
'G' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome.	4
'C' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'T' in the human genome.	4
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'L' in cDNA, 'R' in the mouse genome.	4
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'D' in cDNA, 'Y' in the mouse genome.	4
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'S' in cDNA, 'R' in the mouse genome.	4
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'Y' in the mouse genome.	4
'C' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'D' in the human genome.	4
'T' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'T' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'E' in the human genome.	4
'T' in cDNA is 'G' in the human genome; amino acid difference: 'W' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'H' in cDNA, 'Q' in the mouse genome.	4
'C' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome.	4
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'H' in the mouse genome.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome.	4
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'H' in the human genome.	4
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'M' in the human genome.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'L' in the human genome.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: 'I' in cDNA, 'L' in the human genome.	4
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'F' in cDNA, 'L' in the mouse genome.	4
'C' in cDNA is 'T' in the human genome; amino acid difference: 'H' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'C' in cDNA is 'T' in genome; Differences found between this sequence and the human genome (build 34) are described in misc_difference features below	4
'T' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'G' in cDNA is 'A' in the human genome; amino acid difference: 'C' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
'T' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome.	4
in the human genome : TAC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	4
in the human genome : CAG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	4
3 bases in the mouse genome, CCT, are not found in cDNA.	3
3 bases in the mouse genome, AAT, are not found in cDNA.	3
in the mouse genome : ACG.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'L' in the human genome.	3
4 bases in the human genome, TCAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'K' in cDNA, 'N' in the mouse genome.	3
3 bases in the human genome, CTC, are not found in cDNA.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
14 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
41 bases at the 5' end do not align to the mouse genome.	3
287 bases at the 5' end do not align to the human genome.	3
19 bases at the 3' end do not align to the mouse genome.	3
in the human genome : CAC.	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'I' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : CTT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
17 bases in cDNA are not found in the mouse genome.	3
68 bases at the 5' end do not align to the mouse genome.	3
31 bases in cDNA are not found in the mouse genome.	3
74 bases do not align to the human genome.	3
2 bases in the human genome, TC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the mouse genome : ACGT.	3
in the mouse genome : GGGC.	3
5 bases do not align to the mouse genome.	3
19 bases in cDNA are not found in the human genome.	3
'G' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'T' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'G' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : CC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : AGGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'A' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : TA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'T' in cDNA is 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'A' in cDNA is 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'C' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : GGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : GC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : TAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'C' in cDNA is 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'A' in cDNA is 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
'T' in cDNA is 'C' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
in the human genome : CA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
379 bases at the 3' end do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below and these differences were also compared to chimpanzee genomic seqeunces available as of 09/15/2004 00:00:00	3
6 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
'A' in cDNA is 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases in the mouse genome, ATT, are not found in cDNA.	3
5 bases in the mouse genome, GGGGG, are not found in cDNA.	3
41 bases at the 5' end do not align to the human genome.	3
40 bases at the 5' end do not align to the human genome.	3
23 bases at the 3' end do not align to the mouse genome.	3
in the human genome : ACC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
94 bases at the 5' end do not align to the human genome.	3
81 bases at the 5' end do not align to the human genome.	3
in the human genome : GCG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
47 bases at the 5' end do not align to the mouse genome.	3
4 bases in the human genome, TTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
3 bases in the mouse genome, TTG, are not found in cDNA.	3
90 bases at the 5' end do not align to the mouse genome.	3
in the mouse genome : AAT.	3
48 bases at the 5' end do not align to the mouse genome.	3
3 bases in the mouse genome, ACC, are not found in cDNA.	3
4 bases in the human genome, CACA, are not found in cDNA.	3
polyA tail: 28 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
30 bases at the 3' end do not align to the mouse genome.	3
7 bases in the mouse genome, TCCCCGC, are not found in cDNA.	3
66 bases at the 5' end do not align to the human genome.	3
75 bases at the 5' end do not align to the mouse genome.	3
45 bases at the 5' end do not align to the mouse genome.	3
26 bases at the 3' end do not align to the mouse genome.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'N' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
polyA tail: 145 bases do not align to the human genome.	3
polyA tail: 141 bases do not align to the human genome.	3
623 bases at the 5' end do not align to the human genome.	3
3 bases in the human genome, AGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
111 bases at the 5' end do not align to the human genome.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases in the human genome, CTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : CAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the human genome : GAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : ATG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
358 bases at the 3' end do not align to the human genome.	3
3 bases in the human genome, GGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'C' in cDNA, 'G' in the human genome.	3
polyA tail: 143 bases do not align to the mouse genome.	3
18 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
4 bases in the mouse genome, TTTG, are not found in cDNA.	3
in the human genome : CAT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
polyA tail: 113 bases do not align to the mouse genome.	3
polyA tail: 158 bases do not align to the mouse genome.	3
10 bases in the human genome, TTTTTTTTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases in the mouse genome, GCT, are not found in cDNA.	3
5 bases in the mouse genome, AAAAA, are not found in cDNA.	3
3 bases in the mouse genome, TGC, are not found in cDNA.	3
19 bases in the human genome are not found in cDNA.	3
in the mouse genome : AAA.	3
60 bases at the 5' end do not align to the human genome.	3
in the human genome : AGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
polyA tail: 124 bases do not align to the human genome.	3
in the human genome : ATT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
254 bases at the 5' end do not align to the human genome.	3
17 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the human genome : CTT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the human genome : ATG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : GAC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : TTC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
polyA tail: 120 bases do not align to the mouse genome.	3
polyA tail: 180 bases do not align to the mouse genome.	3
polyA tail: 126 bases do not align to the mouse genome.	3
polyA tail: 19 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
polyA tail: 140 bases do not align to the mouse genome.	3
in the mouse genome : AGG.	3
3 bases in the human genome, ACA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
polyA tail: 156 bases do not align to the mouse genome.	3
8 bases in the mouse genome, GTGTGTGT, are not found in cDNA.	3
3 bases in the human genome, AAA, are not found in cDNA.	3
polyA tail: 112 bases do not align to the mouse genome.	3
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'M' in cDNA, 'I' in the mouse genome.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'V' in the human genome.	3
3 bases in the mouse genome, TGA, are not found in cDNA.	3
16 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : TCT.	3
in the human genome : GCT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
16 bases at the 3' end do not align to the mouse genome.	3
3 bases in the human genome, CAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
177 bases at the 5' end do not align to the human genome.	3
in the human genome : AGG.	3
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'Q' in cDNA, 'H' in the mouse genome.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'C' in the human genome.	3
in the mouse genome : AAAG.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
3 bases in the mouse genome, AGG, are not found in cDNA.	3
4 bases in the human genome, AGAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
found in genomic sequence	3
compared to sequence from clone DS08018 and from Champagne, et al	3
1 of 8 PCR clones had G at this posn.	3
compared to genomic sequence resulting in a stop codon in the cDNA	3
compared to genomic sequence resulting in an amino acid sequence difference (version CHR1v07142002)	3
compared to BAC F28N24	3
insertion relative to genomic sequence	3
compared to genome; this does not affect the original amino acid sequence	3
this base change does not affect the amino acid sequence	3
attL2 base change	3
Beta vulgaris TK81-O mitochondrial genome	3
affects amino acid	3
omission of alternatively spliced putative intron	3
includes putative intron sequence	3
nucleotide difference from the genomic sequence, GenBank Accession number U18056	3
mRNA differs from genomic sequence in GenBank Accession Number U18056	3
noted in clone A5-2; generated by primer used in differential display	3
compared with Homo sapiens p73L	3
compared to CUL2 sequence presented in GenBank Accession Number U83410	3
compared to Homo sapiens aldehyde dehydrogenase 9 encoded by GenBank Accession Number U34252	3
relative to sequence in Genbank Accession Number AF233334	3
compared to genomic chromosome 19 sequence	3
50 bases at the 3' end do not align to the human genome.	3
3 bases in the human genome, CAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : AGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases in the human genome, CCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
polyA tail: 144 bases do not align to the human genome.	3
'C' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases do not align to the human genome.	3
18 bases in cDNA are not found in the human genome.	3
polyA tail: 143 bases do not align to the human genome.	3
in the human genome : TTT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the human genome : AGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
11 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
in the human genome : GAG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
47 bases at the 5' end do not align to the human genome.	3
'A' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
23 bases at the 3' end do not align to the human genome.	3
3 bases in the human genome, TAA, are not found in cDNA.	3
in the human genome : CCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
4 bases in the human genome, CTTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the human genome : TTTT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases in the human genome, GAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
4 bases in the human genome, CTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : AAA.	3
3 bases in the human genome, GTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
polyA tail: 124 bases do not align to the mouse genome.	3
13 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
19 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'H' in cDNA, 'L' in the mouse genome.	3
3 bases in the human genome, TGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
6 bases in the human genome, GTGTGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
in the human genome : CTC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
3 bases in the human genome, AGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
14 bases do not align to the human genome.	3
3 bases in the human genome, AGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
16 bases in the human genome are not found in cDNA.	3
3 bases in the human genome, ACT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
4 bases in the human genome, AAAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
73 bases at the 5' end do not align to the human genome.	3
23 bases do not align to the human genome.	3
20 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
4 bases in the human genome, AAGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
4 bases in the human genome, AGGG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'N' in the human genome.	3
'A' in cDNA is 'C' in the human genome; amino acid difference: 'N' in cDNA, 'H' in the human genome.	3
'C' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'T' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
34 bases at the 3' end do not align to the human genome.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, '*' in the human genome.	3
in the human genome : TCA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : AGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
differences originate from the use of a VkappaI-related primer to amplify this sequence	3
sequence difference T/-	3
compared to Rattus norvegicus neu oncogene sequence presented in GenBank Accession Number X03362	3
only present in some clones; possible splice variant	3
compared to AK032446	3
2 bases in the mouse genome, TT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
polyA tail: 12 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
3 bases in the mouse genome, GAA, are not found in cDNA.	3
3 bases in the mouse genome, CGT, are not found in cDNA.	3
135 bases at the 5' end do not align to the mouse genome.	3
15 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
3 bases in the mouse genome, ATC, are not found in cDNA.	3
36 bases in cDNA are not found in the mouse genome.	3
52 bases at the 5' end do not align to the mouse genome.	3
3 bases in the mouse genome, CAG, are not found in cDNA.	3
polyA tail: 67 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
polyA tail: 157 bases do not align to the mouse genome.	3
in the mouse genome : GTTT.	3
polyA tail: 145 bases do not align to the mouse genome.	3
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, '*' in the mouse genome.	3
4 bases in the mouse genome, GAGA, are not found in cDNA.	3
65 bases at the 3' end do not align to the mouse genome.	3
polyA tail: 122 bases do not align to the mouse genome.	3
in the mouse genome : CGAC.	3
A in clone 2	3
silent mutation introduced to create EcoRV site	3
't' in misc_difference; c in citations 1 and 2; t in citation 3.	3
't' in misc_difference; c in citations 1 and 3; t in citation 2.	3
g in citations 1 and 2; a in citation 3.; 'a' in misc_difference	3
'a' in misc_difference; g in citations 1 and 3; a in citation 2.	3
'c' in misc_difference; c in citations 2 and 3.	3
'c' in misc_difference; t in citations 1 and 3; c in citation 2.	3
additional nucleotide	3
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'A' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
'A' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'V' in cDNA, 'D' in the mouse genome.	3
'C' in cDNA is 'G' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Y' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'G' in cDNA is 'A' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'R' in the mouse genome.	3
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'N' in cDNA, 'I' in the mouse genome.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'L' in the human genome.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'C' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
in the human genome : CGG.	3
6 bases in the mouse genome, TCTTCT, are not found in cDNA.	3
9 bases in the mouse genome, ACGCTGGCT, are not found in cDNA.	3
in the mouse genome : TGCC.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'A' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'H' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
3 bases in the mouse genome, CTA, are not found in cDNA.	3
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'H' in cDNA, 'P' in the mouse genome.	3
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'H' in cDNA, 'D' in the mouse genome.	3
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'R' in cDNA, 'S' in the mouse genome.	3
9 bases in the human genome, GTGGAGCCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'V' in cDNA, 'L' in the human genome.	3
'A' in cDNA is 'C' in the human genome; amino acid difference: 'N' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'D' in cDNA, 'H' in the human genome.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'S' in the human genome.	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'Y' in cDNA, 'N' in the human genome.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'N' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'M' in cDNA, 'I' in the human genome.	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'H' in the human genome.	3
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'G' in cDNA, 'W' in the mouse genome.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome.	3
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'Q' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'N' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'Y' in cDNA, 'D' in the mouse genome.	3
'C' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'F' in the human genome.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'C' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'M' in the mouse genome.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'C' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'G' in cDNA is 'A' in the human genome; amino acid difference: 'W' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'C' in cDNA is 'G' in the human genome; amino acid difference: 'C' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'A' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'W' in cDNA, 'G' in the human genome.	3
'C' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'L' in the human genome.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome.	3
4 bases in the human genome, GCAC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
10 bases in the human genome, AAAAAAAGGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'V' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'W' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
compared to NM_115529.1	3
'A' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'T' in cDNA is 'A' in the mouse genome; amino acid difference: '*' in cDNA, 'R' in the mouse genome.	3
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'C' in the mouse genome.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'G' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
3 bases in the human genome, CAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'A' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome.	3
'C' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome.	3
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'D' in cDNA, 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'M' in cDNA, 'K' in the human genome.	3
'C' in cDNA is 'A' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome.	3
'C' in cDNA is 'G' in the human genome; amino acid difference: 'P' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	3
'A' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'A' in the human genome.	3
'T' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome.	3
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome.	3
'G' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	3
compared to NM_125520.4; silent mutation	3
compared to NM_117578.2	3
9 bases in the human genome, TGAGGGGTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, TTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
75 bases at the 5' end do not align to the human genome.	2
in the human genome : ATG.	2
123 bases do not align to the human genome.	2
8 bases in the mouse genome, TTTTTTTT, are not found in cDNA.	2
polyA tail: 20 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
741 bases at the 5' end do not align to the human genome.	2
7 bases do not align to the human genome.	2
104 bases at the 5' end do not align to the mouse genome.	2
431 bases at the 5' end do not align to the human genome.	2
3 bases in the human genome, TAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : TGA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
4 bases in the mouse genome, GAGT, are not found in cDNA.	2
in the mouse genome : CCAA.	2
3 bases in the human genome, AAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : GAC.	2
in the human genome : GCT.	2
6 bases in the human genome, AAAAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
168 bases at the 5' end do not align to the human genome.	2
460 bases at the 5' end do not align to the human genome.	2
15 bases do not align to the human genome.	2
116 bases at the 3' end do not align to the human genome.	2
in the mouse genome : AAGA.	2
in the mouse genome : TGAGC.	2
114 bases at the 5' end do not align to the human genome.	2
in the mouse genome : AGAG.	2
345 bases at the 3' end do not align to the human genome.	2
4 bases in the human genome, AAAA, are not found in cDNA.	2
772 bases at the 3' end do not align to the human genome.	2
37 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
9 bases in the mouse genome, TCAATGAGC, are not found in cDNA.	2
138 bases at the 3' end do not align to the mouse genome.	2
289 bases at the 3' end do not align to the mouse genome.	2
in the human genome : GTT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the mouse genome : AAG.	2
21 bases in cDNA are not found in the mouse genome.	2
102 bases at the 5' end do not align to the mouse genome.	2
in the mouse genome : GGGG.	2
2 bases in the mouse genome, CT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
4 bases in the mouse genome, TGTA, are not found in cDNA.	2
11 bases do not align to the mouse genome.	2
6 bases in the mouse genome, GGTCCA, are not found in cDNA.	2
6 bases in the mouse genome, GCAGCC, are not found in cDNA.	2
41 bases at the 3' end do not align to the mouse genome.	2
4 bases in the mouse genome, TTTC, are not found in cDNA.	2
4 bases in the mouse genome, GCAG, are not found in cDNA.	2
285 bases at the 5' end do not align to the mouse genome.	2
4 bases in the human genome, TATG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, CAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the mouse genome : GAC.	2
11 bases do not align to the human genome.	2
in the human genome : GGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
71 bases at the 5' end do not align to the human genome.	2
4 bases in the mouse genome, ATTG, are not found in cDNA.	2
345 bases at the 3' end do not align to the mouse genome.	2
4 bases in the mouse genome, GGAA, are not found in cDNA.	2
5 bases in the human genome, GGGGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
106 bases at the 3' end do not align to the human genome.	2
3 bases in the mouse genome, CAC, are not found in cDNA.	2
7 bases in the mouse genome, TTTTTTT, are not found in cDNA.	2
in the mouse genome : CG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
4 bases in the mouse genome, TATA, are not found in cDNA.	2
in the mouse genome : TA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
4 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
in the mouse genome : GTT.	2
13 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
98 bases at the 3' end do not align to the human genome.	2
6 bases in the human genome, ATATAT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : CTGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
18 bases do not align to the mouse genome.	2
4 bases in the mouse genome, ACTC, are not found in cDNA.	2
3 bases in the human genome, ACA, are not found in cDNA.	2
4 bases in the human genome, CCCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
6 bases in the human genome, CTCTCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the mouse genome : GAAT.	2
16 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
3 bases in the mouse genome, TTT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
88 bases at the 3' end do not align to the mouse genome.	2
447 bases at the 3' end do not align to the mouse genome.	2
4 bases in the mouse genome, ACCC, are not found in cDNA.	2
476 bases at the 3' end do not align to the mouse genome.	2
3 bases in the human genome, TCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
222 bases at the 3' end do not align to the human genome.	2
6 bases in the human genome, CACACA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : ATA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
159 bases at the 3' end do not align to the human genome.	2
35 bases at the 3' end do not align to the human genome.	2
17 bases do not align to the human genome.	2
4 bases in the human genome, GAGA, are not found in cDNA.	2
51 bases at the 5' end do not align to the human genome.	2
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'C' in cDNA, 'S' in the mouse genome.	2
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'F' in cDNA, 'L' in the mouse genome.	2
83 bases at the 5' end do not align to the mouse genome.	2
in the mouse genome : CTG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'A' in cDNA, 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'P' in cDNA, 'L' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'M' in cDNA, 'L' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
127 bases at the 5' end do not align to the mouse genome.	2
polyA tail: 148 bases do not align to the mouse genome.	2
'C' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
534 bases at the 5' end do not align to the mouse genome.	2
382 bases at the 5' end do not align to the mouse genome.	2
in the mouse genome : GGA.	2
80 bases at the 5' end do not align to the mouse genome.	2
3 bases in the mouse genome, GGC, are not found in cDNA.	2
68 bases at the 3' end do not align to the mouse genome.	2
273 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
52 bases do not align to the human genome.	2
3 bases in the human genome, GGC, are not found in cDNA.	2
5 bases in the human genome, TTTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the mouse genome : AAAAAAA.	2
4 bases in the mouse genome, TAAA, are not found in cDNA.	2
in the human genome : TGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
3 bases in the human genome, TTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the mouse genome, TTC, are not found in cDNA.	2
49 bases at the 5' end do not align to the mouse genome.	2
in the human genome : CTT.	2
in the human genome : TCC.	2
5 bases in the mouse genome, GTTTT, are not found in cDNA.	2
4 bases in the mouse genome, CCCC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
17 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'C' in the human genome.	2
'C' in cDNA is 'A' in the human genome; amino acid difference: 'P' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
200 bases at the 5' end do not align to the human genome.	2
156 bases at the 5' end do not align to the human genome.	2
4 bases in the human genome, AAAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
6 bases in the human genome, TGTGTG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
338 bases at the 5' end do not align to the human genome.	2
in the human genome : CCTT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
18 bases do not align to the human genome.	2
92 bases at the 5' end do not align to the human genome.	2
21 bases do not align to the human genome.	2
250 bases at the 3' end do not align to the mouse genome.	2
142 bases at the 3' end do not align to the mouse genome.	2
31 bases at the 3' end do not align to the mouse genome.	2
57 bases at the 5' end do not align to the mouse genome.	2
4 bases in the mouse genome, CCTA, are not found in cDNA.	2
3 bases in the mouse genome, CTC, are not found in cDNA.	2
2 bases in the human genome, CG, are not found in cDNA.	2
4 bases in the human genome, AGAC, are not found in cDNA.	2
19 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
3 bases in the human genome, GGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
8 bases in the human genome, ACACACAC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
4 bases in the human genome, AGTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
103 bases at the 3' end do not align to the human genome.	2
polyA tail: 151 bases do not align to the human genome.	2
737 bases at the 3' end do not align to the human genome.	2
69 bases at the 5' end do not align to the human genome.	2
25 bases in cDNA are not found in the human genome.	2
in the mouse genome : GTA.	2
4 bases in the human genome, GTTT, are not found in cDNA.	2
'C' in cDNA is 'N' in the mouse genome.	2
2 bases in the mouse genome, CN, are not found in cDNA.	2
in the mouse genome : NNNNNNNN.	2
'G' in cDNA is 'N' in the mouse genome.	2
382 bases at the 5' end do not align to the human genome.	2
in the human genome : GGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : ACA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : CGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, CTG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
91 bases at the 5' end do not align to the mouse genome.	2
6 bases in the human genome, TCTTTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
may be result of A-to-I editing	2
polyA tail: 170 bases do not align to the mouse genome.	2
in the mouse genome : GTGA.	2
polyA tail: 193 bases do not align to the mouse genome.	2
polyA tail: 187 bases do not align to the mouse genome.	2
polyA tail: 183 bases do not align to the mouse genome.	2
polyA tail: 190 bases do not align to the mouse genome.	2
4 bases in the mouse genome, GACA, are not found in cDNA.	2
28 bases at the 3' end do not align to the mouse genome.	2
3 bases in the human genome, GTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
117 bases at the 5' end do not align to the human genome.	2
243 bases at the 5' end do not align to the mouse genome.	2
5 bases in the mouse genome, GAGAA, are not found in cDNA.	2
695 bases at the 5' end do not align to the human genome.	2
151 bases at the 5' end do not align to the human genome.	2
polyA tail: 25 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'V' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
3 bases in the human genome, GCC, are not found in cDNA.	2
437 bases at the 5' end do not align to the human genome.	2
105 bases at the 5' end do not align to the human genome.	2
423 bases at the 5' end do not align to the human genome.	2
not encoded in the genome; added during processing	2
582 bases at the 3' end do not align to the human genome.	2
55 bases in cDNA are not found in the mouse genome.	2
732 bases at the 3' end do not align to the human genome.	2
'T' in cDNA is 'C' in the human genome; amino acid difference: 'S' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
300 bases at the 5' end do not align to the human genome.	2
4 bases in the human genome, AACA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
362 bases at the 5' end do not align to the human genome.	2
369 bases at the 5' end do not align to the human genome.	2
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'I' in cDNA, 'K' in the mouse genome.	2
6 bases in the mouse genome, TGTGTG, are not found in cDNA.	2
3 bases in the mouse genome, AGT, are not found in cDNA.	2
polyA tail: 153 bases do not align to the human genome.	2
67 bases at the 3' end do not align to the mouse genome.	2
4 bases in the human genome, CTCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
polyA tail: 169 bases do not align to the human genome.	2
263 bases at the 3' end do not align to the human genome.	2
290 bases at the 5' end do not align to the human genome.	2
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'C' in cDNA, 'W' in the mouse genome.	2
172 bases at the 5' end do not align to the human genome.	2
in the human genome : CTG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'Y' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
results in premature stop codon	2
alternative exon	2
sequence differs in another cDNA clone	2
sequence differs in other cDNA and genomic clones	2
found in the original cDNA clone; results in a mutation of the stop codon to an arginine and a 47 amino acid residue increase in protein length; other cDNAs and genomic sequence contained t at this location	2
region missing in unidentified clone	2
in unidentified cDNA clone; corresponds to transmembrane domain IV segments 1-2 and to exon 30 in Homo sapiens Cav2.1	2
compared to genome project sequence derived from cosmid T15D6 presented in GenBank Accession Number Z83125	2
potential polymorphism	2
compared to GI:452811	2
compared to NM_001009341	2
This sequence contains c for t replacement at position 16 introduced by a synthetic oligo during amplification of gammaC mRNA.	2
see [3]	2
1 of 8 PCR clones had T at this posn.	2
artifact within polyA tail	2
compared to genomic sequence resulting in a stop codon	2
compared to genome; This replacement is a silent mutation. It does not affect the original protein translation.	2
conflict with GenBank Accession Number AF300972 (OsDREB1B); C verified in all three ESTs and from gDNA PCR product	2
compared to genome. This base change does not affect the original amino acid sequence	2
Compared to genome, this discrepancy does not change protein sequence.	2
results in a serine to phenylalanine substitution	2
results in a phenylalanine to leucine substitution	2
results in a tyrosine to histidine substitution	2
includes putative intron sequence in 3' UTR	2
includes putative intron sequence in coding region; adds 34 amino acids to ethylene control element	2
clone pTRP59	2
clone pTRP47	2
clone pTRP14	2
clone pTRP39	2
clone pTRP33	2
nucleotide difference from the genomic sequence, GenBank Accession number U18055	2
compare to genomic sequence	2
compared to sequence deposited in GenBank Accession Number AB009053	2
compared to genomic sequence, NM_180782.1 and NM_123531.2	2
compared to genomic sequence and NM_102204.1	2
compared to genomic sequence, NM_180687.1, NM_180686.1 and NM_115421.3	2
insertion results in truncated protein compared to the product encoded by GenBank Accession Number AF047338	2
polymorphism or PCR-induced mutation	2
compared to mRNA sequence presented in GenBank Accession Number U22055	2
intron 7	2
523 bases at the 3' end do not align to the human genome.	2
21 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : TTC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
17 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
161 bases at the 3' end do not align to the human genome.	2
1 base does not align to the human genome.	2
15 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
4 bases in the human genome, GCTG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
8 bases in the human genome, TTCCCTCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
5 bases in the human genome, TTCTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
70 bases at the 5' end do not align to the human genome.	2
3 bases in the human genome, CGA, are not found in cDNA.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: '*' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
6 bases in the human genome, GCAGCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
3 bases in the human genome, ATT, are not found in cDNA.	2
77 bases at the 3' end do not align to the human genome.	2
4 bases in the human genome, CACA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
37 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
132 bases at the 5' end do not align to the human genome.	2
in the human genome : TGCT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : ATCT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
173 bases at the 5' end do not align to the human genome.	2
150 bases at the 5' end do not align to the human genome.	2
78 bases at the 3' end do not align to the human genome.	2
in the human genome : GGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
443 bases at the 5' end do not align to the human genome.	2
in the human genome : TAGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : CGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : AAGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : TCCCCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
106 bases do not align to the human genome.	2
polyA tail: 154 bases do not align to the human genome.	2
4 bases in the human genome, GCGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
48 bases at the 5' end do not align to the human genome.	2
in the human genome : GGA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, TCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
85 bases at the 5' end do not align to the human genome.	2
112 bases at the 5' end do not align to the human genome.	2
140 bases at the 5' end do not align to the human genome.	2
polyA tail: 9 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
518 bases at the 5' end do not align to the human genome.	2
4 bases in the human genome, ACTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, GGG, are not found in cDNA.	2
3 bases in the human genome, TGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
78 bases at the 5' end do not align to the human genome.	2
179 bases at the 3' end do not align to the mouse genome.	2
240 bases at the 5' end do not align to the human genome.	2
157 bases at the 5' end do not align to the human genome.	2
in the human genome : TCCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'A' in cDNA is 'G' in the human genome; amino acid difference: 'E' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
3 bases in the human genome, AGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
60 bases at the 3' end do not align to the mouse genome.	2
175 bases at the 3' end do not align to the human genome.	2
10 bases in the human genome, CACCCACCAC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
6 bases in the human genome, TACTTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
30 bases in cDNA are not found in the human genome.	2
in the human genome : CTA.	2
3 bases in the human genome, GCT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
126 bases in cDNA are not found in the human genome.	2
29 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
3 bases in the human genome, GCA, are not found in cDNA.	2
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'I' in cDNA, 'L' in the mouse genome.	2
polyA tail: 127 bases do not align to the human genome.	2
in the human genome : CTC.	2
70 bases at the 3' end do not align to the human genome.	2
4 bases in the human genome, AGAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : CGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : CAA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
polyA tail: 146 bases do not align to the human genome.	2
135 bases at the 5' end do not align to the human genome.	2
5 bases in the human genome, CTTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
91 bases at the 5' end do not align to the human genome.	2
39 bases at the 5' end do not align to the human genome.	2
106 bases at the 5' end do not align to the human genome.	2
3 bases in the human genome, CTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
6 bases in the human genome, ACACAC, are not found in cDNA.	2
440 bases at the 5' end do not align to the human genome.	2
in the human genome : GTA.	2
in the human genome : CCCA.	2
in the human genome : GTGC.	2
9 bases in the human genome, CTATGCCTG, are not found in cDNA.	2
59 bases at the 3' end do not align to the human genome.	2
16 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
8 bases in the human genome, GAGAGAGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
6 bases in the human genome, AAAAAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : ACT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : TTA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : TAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
301 bases at the 5' end do not align to the human genome.	2
4 bases in the human genome, AATT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
72 bases at the 5' end do not align to the human genome.	2
233 bases at the 5' end do not align to the human genome.	2
20 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, GTT, are not found in cDNA.	2
4 bases in the human genome, TTGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
polyA tail: 147 bases do not align to the human genome.	2
86 bases at the 5' end do not align to the human genome.	2
in the human genome : TAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, TGC, are not found in cDNA.	2
5 bases in the human genome, AAATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
162 bases at the 5' end do not align to the mouse genome.	2
6 bases in the human genome, TTTTTT, are not found in cDNA.	2
9 bases in the human genome, TTTTTTTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
20 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
198 bases at the 3' end do not align to the human genome.	2
in the human genome : TTG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
104 bases at the 5' end do not align to the human genome.	2
18 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
255 bases at the 5' end do not align to the human genome.	2
4 bases in the human genome, AACT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
172 bases at the 3' end do not align to the human genome.	2
6 bases in the human genome, GTATAT, are not found in cDNA.	2
6 bases in the human genome, CTTTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the human genome : GAT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'G' in cDNA is 'C' in the mouse genome; amino acid difference: '*' in cDNA, 'S' in the mouse genome.	2
in the human genome : CAA.	2
3 bases in the human genome, GCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
119 bases at the 3' end do not align to the human genome.	2
in the human genome : TGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
311 bases at the 3' end do not align to the human genome.	2
4 bases in the human genome, AATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
189 bases at the 5' end do not align to the human genome.	2
227 bases at the 5' end do not align to the human genome.	2
9 bases in the mouse genome, CGCGGAAGC, are not found in cDNA.	2
in the human genome : TAT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
4 bases in the human genome, ATAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
4 bases in the human genome, CCCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: '*' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
6 bases at the 3' end do not align to the human genome.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'W' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
4 bases in the human genome, AAGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: '*' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
conflicts with sequence data reported by the other authors	2
aberrant sequence compared to NM_000546	2
45 base deletion compared to sequence from non-cancerous tissue	2
clone difference	2
splice variant	2
site of 164 bp deletion relative to splice variant 4C-791, see GenBank Accession Number U66346	2
null allele: HLA-DRB4*0201N; 11 bp deletion when compared to wild type	2
absent in the alternative mRNAs presented in GenBank Accession Numbers U60884 and U68485	2
sequence difference -/G	2
compared to sequence presented in GenBank Accession Number X05899	2
RefSeq XM_217569.2	2
compared to ELAV-like neuronal protein-1 mRNA in GenBank Accession Number AY035380	2
compared to NM_011490; probably due to erroneous incorporation of nucleotides by Taq Polymerase	2
compared to XM_346344	2
77 bases at the 5' end do not align to the mouse genome.	2
5 bases in the mouse genome, CTTAG, are not found in cDNA.	2
10 bases in the mouse genome, GAATGCCAGT, are not found in cDNA.	2
373 bases at the 5' end do not align to the mouse genome.	2
4 bases in the mouse genome, TACA, are not found in cDNA.	2
184 bases at the 5' end do not align to the mouse genome.	2
164 bases at the 5' end do not align to the mouse genome.	2
in the mouse genome : AC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
4 bases in the mouse genome, AGAC, are not found in cDNA.	2
138 bases at the 5' end do not align to the mouse genome.	2
9 bases in the mouse genome, GCTAGGCAC, are not found in cDNA.	2
4 bases in the mouse genome, CAAA, are not found in cDNA.	2
in the mouse genome : CTC.	2
4 bases in the mouse genome, GTAT, are not found in cDNA.	2
19 bases in cDNA are not found in the mouse genome.	2
in the mouse genome : GAG.	2
3 bases in the mouse genome, GCA, are not found in cDNA.	2
1 base at the 5' end does not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
71 bases at the 5' end do not align to the mouse genome.	2
28 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
152 bases at the 5' end do not align to the mouse genome.	2
90 bases in cDNA are not found in the mouse genome.	2
polyA tail: 121 bases do not align to the mouse genome.	2
374 bases at the 5' end do not align to the mouse genome.	2
59 bases at the 5' end do not align to the mouse genome.	2
58 bases at the 5' end do not align to the mouse genome.	2
polyA tail: 160 bases do not align to the mouse genome.	2
in the mouse genome : ATT.	2
in the mouse genome : CAGC.	2
in the mouse genome : CGG.	2
polyA tail: 154 bases do not align to the mouse genome.	2
4 bases in the mouse genome, TGTG, are not found in cDNA.	2
888 bases at the 5' end do not align to the mouse genome.	2
52 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
61 bases at the 5' end do not align to the mouse genome.	2
in the mouse genome : CTGG.	2
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'W' in cDNA, '*' in the mouse genome.	2
polyA tail: 182 bases do not align to the mouse genome.	2
polyA tail: 189 bases do not align to the mouse genome.	2
polyA tail: 168 bases do not align to the mouse genome.	2
polyA tail: 159 bases do not align to the mouse genome.	2
11 bases in the mouse genome are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
4 bases in the mouse genome, AAAA, are not found in cDNA.	2
7 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
13 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
32 bases in cDNA are not found in the mouse genome.	2
5 bases in the mouse genome, TTGTT, are not found in cDNA.	2
3 bases in the mouse genome, ATG, are not found in cDNA.	2
in the mouse genome : TGTG.	2
41 bases do not align to the mouse genome.	2
55 bases at the 5' end do not align to the mouse genome.	2
3 bases in the mouse genome, GCC, are not found in cDNA.	2
5 bases in the mouse genome, AATTT, are not found in cDNA.	2
2 bases do not align to the mouse genome.	2
in the mouse genome : CAA.	2
4 bases in the mouse genome, ACAC, are not found in cDNA.	2
4 bases in the mouse genome, AGTG, are not found in cDNA.	2
4 bases in the mouse genome, AAAC, are not found in cDNA.	2
polyA tail: 125 bases do not align to the mouse genome.	2
in the mouse genome : CCGAA.	2
4 bases in the mouse genome, AAGT, are not found in cDNA.	2
in the mouse genome : TCA.	2
78 bases at the 3' end do not align to the mouse genome.	2
10 bases at the 3' end do not align to the mouse genome.	2
7 bases in the mouse genome, ACTCAGA, are not found in cDNA.	2
in the mouse genome : CATC.	2
in the mouse genome : CGC.	2
4 bases in the mouse genome, GGCC, are not found in cDNA.	2
compared to NM_008173	2
compared to genomic sequence; presumed cloning error	2
S259/262-A mutant	2
T in clone 2	2
C in clone 2	2
silent change to create SpeI restriction site	2
compared to the sequence found in GenBank Accession Number M62321	2
silent mutation introduced to create NaeI site	2
t in citations 1 and 2; c in citation 3.; 'c' in misc_difference	2
a in citations 1 and 3; g in citation 2.; 'g' in misc_difference	2
c in citations 2 and 3.; 'c' in misc_difference	2
t in citations 1 and 3; a in citation 2.; 'a' in misc_difference	2
c in citations 1 and 3; g in citation 2.; 'g' in misc_difference	2
t in citations 2 and 3.; 't' in misc_difference	2
'g' in misc_difference; t in citations 1 and 3; g in citation 2.	2
g in clone TB4-2	2
compared to sequence with GenBank Accession Number AF176086	2
4 bases in the human genome, TCTC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
6 bases in the mouse genome, ACACAC, are not found in cDNA.	2
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'A' in cDNA, 'S' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'D' in cDNA, 'V' in the human genome.	2
in the mouse genome : NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
33 bases in cDNA are not found in the mouse genome.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'M' in the mouse genome.	2
3 bases in the human genome, GCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'D' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'C' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, '*' in the human genome.	2
polyA tail: 128 bases do not align to the mouse genome.	2
95 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the mouse genome, TAA, are not found in cDNA.	2
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'A' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'R' in cDNA, 'K' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
9 bases in the mouse genome, CTACAGACA, are not found in cDNA.	2
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'K' in cDNA, 'M' in the mouse genome.	2
82 bases at the 5' end do not align to the mouse genome.	2
6 bases in the mouse genome, TTTATT, are not found in cDNA.	2
8 bases in the mouse genome, TTCCCCCC, are not found in cDNA.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'C' in cDNA, 'F' in the human genome.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'H' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'T' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'R' in the human genome.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'W' in cDNA, 'C' in the human genome.	2
'G' in cDNA is 'C' in the human genome; amino acid difference: 'G' in cDNA, 'R' in the human genome.	2
296 bases at the 3' end do not align to the mouse genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'H' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
5 bases in the mouse genome, GGACT, are not found in cDNA.	2
3 bases in the human genome, CTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'M' in cDNA, 'L' in the human genome.	2
'G' in cDNA is 'C' in the human genome; amino acid difference: 'A' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
44 bases at the 5' end do not align to the human genome.	2
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'R' in the mouse genome.	2
32 bases at the 3' end do not align to the human genome.	2
4 bases in the human genome, TATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
223 bases do not align to the human genome.	2
'C' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : TTCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : ACTCA.	2
in the human genome : TGTT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Y' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome.	2
596 bases at the 5' end do not align to the human genome.	2
3 bases in the human genome, TGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
4 bases in the human genome, CCCC, are not found in cDNA.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'W' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'K' in cDNA, 'N' in the mouse genome.	2
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'S' in cDNA, 'I' in the mouse genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'I' in cDNA, 'F' in the human genome.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'M' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
in the mouse genome : GTGT.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'H' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
compared to sequence in NM_01123092.1	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'W' in the human genome.	2
203 bases at the 5' end do not align to the mouse genome.	2
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'H' in cDNA, 'Q' in the mouse genome.	2
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'I' in the mouse genome.	2
368 bases at the 5' end do not align to the mouse genome.	2
98 bases at the 3' end do not align to the mouse genome.	2
polyA tail: 23 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'G' in cDNA is 'C' in the human genome; amino acid difference: 'W' in cDNA, 'C' in the human genome.	2
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'R' in cDNA, 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'C' in cDNA, 'R' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'N' in cDNA, 'T' in the mouse genome.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'Q' in cDNA, 'P' in the mouse genome.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'C' in cDNA is 'A' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
8 bases in the human genome, TATATATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
1 base in cDNA is not found in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome.	2
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'P' in cDNA, 'H' in the mouse genome.	2
polyA tail: 33 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'W' in cDNA, 'R' in the human genome.	2
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'C' in cDNA, 'F' in the mouse genome.	2
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'W' in cDNA, 'C' in the mouse genome.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
in the human genome : AAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'A' in cDNA is 'T' in the human genome; no amino acid change. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'C' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'G' in cDNA is 'A' in the human genome; amino acid difference: 'G' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'G' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, '*' in the human genome.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'W' in the human genome.	2
compared to NM_122155.1	2
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'R' in the mouse genome.	2
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'K' in cDNA, '*' in the mouse genome.	2
in the mouse genome : CCCA.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'N' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
3 bases in the human genome, ACG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'V' in the human genome.	2
4 bases in the mouse genome, ATGA, are not found in cDNA.	2
6 bases in the mouse genome, GGCGGC, are not found in cDNA.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'A' in cDNA, 'G' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'G' in cDNA is 'A' in genome; Differences found between this sequence and the human genome (build 34) are described in misc_difference features below	2
2 bases in genome, AA, are not found in cDNA; Differences found between this sequence and the human genome (build 34) are described in misc_difference features below	2
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'V' in cDNA, 'I' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'T' in cDNA, 'I' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'Y' in cDNA, '*' in the human genome.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'W' in cDNA, 'L' in the human genome.	2
'C' in cDNA is 'A' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'K' in cDNA, 'R' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'G' in cDNA is 'C' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'N' in cDNA, 'S' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	2
6 bases in the human genome, ACTCCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'R' in the human genome.	2
'G' in cDNA is 'T' in the human genome; amino acid difference: 'V' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
24 bases at the 3' end do not align to the mouse genome.	2
29 bases at the 3' end do not align to the mouse genome.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'C' in cDNA is 'G' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'C' in cDNA is 'A' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	2
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome.	2
5 bases in the human genome, TCCCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'I' in cDNA, 'N' in the human genome.	2
'T' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome.	2
367 bases at the 5' end do not align to the mouse genome.	2
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'I' in the human genome.	2
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'I' in the human genome.	2
in the mouse genome : TCG.	1
in the human genome : GTT.	1
1966 bases at the 5' end do not align to the human genome.	1
5 bases in the mouse genome, TTTTA, are not found in cDNA.	1
422 bases at the 3' end do not align to the human genome.	1
299 bases at the 3' end do not align to the human genome.	1
325 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 21 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
180 bases at the 3' end do not align to the mouse genome.	1
114 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
2 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
268 bases at the 5' end do not align to the human genome.	1
1373 bases at the 5' end do not align to the human genome.	1
730 bases at the 3' end do not align to the human genome.	1
56 bases at the 5' end do not align to the human genome.	1
3 bases in the mouse genome, GGA, are not found in cDNA.	1
503 bases at the 5' end do not align to the human genome.	1
in the human genome : NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
polyA tail: 26 bases do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
3 bases in the human genome, CCG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
314 bases at the 5' end do not align to the human genome.	1
273 bases at the 3' end do not align to the human genome.	1
618 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, GGTTAT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
201 bases at the 3' end do not align to the human genome.	1
polyA tail: 133 bases do not align to the mouse genome.	1
in the human genome : CTGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the mouse genome : TGATC.	1
644 bases at the 5' end do not align to the human genome.	1
584 bases at the 3' end do not align to the human genome.	1
673 bases do not align to the human genome.	1
696 bases at the 5' end do not align to the human genome.	1
in the human genome : GGT.	1
in the mouse genome : AAAA.	1
9 bases in the mouse genome, CAACAAAAA, are not found in cDNA.	1
42 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : CGT.	1
390 bases at the 3' end do not align to the human genome.	1
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'Y' in cDNA, '*' in the mouse genome.	1
24 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
62 bases at the 3' end do not align to the human genome.	1
1004 bases do not align to the mouse genome.	1
5 bases in the mouse genome, AGGAC, are not found in cDNA.	1
140 bases at the 3' end do not align to the mouse genome.	1
4 bases in the human genome, GGCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
10 bases in the human genome, CCCCCCCCGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
767 bases at the 3' end do not align to the human genome.	1
1005 bases at the 5' end do not align to the human genome.	1
810 bases at the 5' end do not align to the human genome.	1
14 bases in the human genome are not found in cDNA.	1
4 bases in the human genome, TGTG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the mouse genome, CAGA, are not found in cDNA.	1
105 bases in cDNA are not found in the human genome.	1
100 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, AAGG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
38 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the mouse genome, TACCCAAG, are not found in cDNA.	1
8 bases in the human genome, TGTTTGTT, are not found in cDNA.	1
424 bases at the 5' end do not align to the human genome.	1
9 bases in the human genome, AAAAAAAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
546 bases at the 3' end do not align to the human genome.	1
8 bases in the human genome, GCAGTTAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
6 bases in the human genome, GGCGGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
623 bases at the 3' end do not align to the human genome.	1
25 bases do not align to the mouse genome.	1
1150 bases at the 3' end do not align to the human genome.	1
39 bases at the 3' end do not align to the mouse genome.	1
375 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
329 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, AAGTTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
1554 bases at the 3' end do not align to the human genome.	1
485 bases at the 5' end do not align to the human genome.	1
366 bases at the 5' end do not align to the human genome.	1
210 bases at the 5' end do not align to the human genome.	1
196 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, AATA, are not found in cDNA.	1
99 bases at the 3' end do not align to the mouse genome.	1
in the mouse genome : ATG.	1
9 bases in the mouse genome, CACTTAGAG, are not found in cDNA.	1
59 bases at the 3' end do not align to the mouse genome.	1
48 bases at the 3' end do not align to the mouse genome.	1
10 bases in the mouse genome, GGCTGCAAAG, are not found in cDNA.	1
5 bases in the mouse genome, ATTTT, are not found in cDNA.	1
6 bases in the mouse genome, AGTGCC, are not found in cDNA.	1
9 bases in the mouse genome, CGCTGTGGC, are not found in cDNA.	1
90 bases at the 3' end do not align to the mouse genome.	1
160 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
968 bases at the 3' end do not align to the human genome.	1
6 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : ATT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, GGGGG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
951 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, CCAAA, are not found in cDNA.	1
315 bases at the 3' end do not align to the mouse genome.	1
in the human genome : TTTC.	1
8 bases in the mouse genome, CAGTCTAG, are not found in cDNA.	1
6 bases in the human genome, TTATTA, are not found in cDNA.	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'S' in cDNA, 'C' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'P' in cDNA, 'S' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the human genome : CCC.	1
861 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
275 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
7 bases in the mouse genome, TCATTAC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
19 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, TCA, are not found in cDNA.	1
253 bases at the 3' end do not align to the human genome.	1
in the human genome : GTCAT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
62 bases at the 5' end do not align to the human genome.	1
40 bases do not align to the mouse genome.	1
896 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
267 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
871 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
274 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
131 bases do not align to the mouse genome.	1
5 bases in the human genome, ACAGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
270 bases at the 3' end do not align to the human genome.	1
716 bases at the 3' end do not align to the human genome.	1
in the human genome : GCCCCCAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
10 bases in the mouse genome, CCCCACCCCA, are not found in cDNA.	1
in the mouse genome : CCAAGTGTT.	1
in the mouse genome : GTGTACATA.	1
5 bases in the mouse genome, TAGCC, are not found in cDNA.	1
33 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, CCT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
62 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
114 bases at the 3' end do not align to the mouse genome.	1
4 bases in the human genome, AGAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
120 bases in cDNA are not found in the mouse genome.	1
polyA tail: 161 bases do not align to the human genome.	1
473 bases at the 3' end do not align to the mouse genome.	1
485 bases at the 3' end do not align to the human genome.	1
in the human genome : AAC.	1
10 bases in cDNA are not found in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
'T' in cDNA is 'C' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
polyA tail: 31 bases do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
7 bases in the mouse genome, GTCCTGC, are not found in cDNA.	1
3 bases in the mouse genome, GTG, are not found in cDNA.	1
410 bases at the 3' end do not align to the mouse genome.	1
3 bases do not align to the mouse genome.	1
6 bases in the mouse genome, TTGTTT, are not found in cDNA.	1
5 bases in the mouse genome, ACAAG, are not found in cDNA.	1
10 bases in the mouse genome, ATATATATAT, are not found in cDNA.	1
in the human genome : TGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 131 bases do not align to the human genome.	1
7 bases in the mouse genome, AAAGAGG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
659 bases at the 5' end do not align to the human genome.	1
14 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
40 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
8 bases in the mouse genome, CTTTTTTT, are not found in cDNA.	1
25 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GGGGG.	1
3 bases in the human genome, TTA, are not found in cDNA.	1
5 bases in the mouse genome, TAGAG, are not found in cDNA.	1
163 bases at the 3' end do not align to the mouse genome.	1
147 bases at the 5' end do not align to the mouse genome.	1
209 bases at the 5' end do not align to the mouse genome.	1
10 bases in the mouse genome, CACTGCACTG, are not found in cDNA.	1
895 bases at the 5' end do not align to the human genome.	1
110 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, GGTA, are not found in cDNA.	1
7 bases in the mouse genome, CTCCCCC, are not found in cDNA.	1
279 bases at the 3' end do not align to the mouse genome.	1
86 bases at the 3' end do not align to the human genome.	1
35 bases at the 3' end do not align to the mouse genome.	1
9 bases in the mouse genome, TGATGATGA, are not found in cDNA.	1
500 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, AGAG, are not found in cDNA.	1
97 bases at the 5' end do not align to the mouse genome.	1
815 bases at the 3' end do not align to the human genome.	1
4 bases in the mouse genome, TGTT, are not found in cDNA.	1
4 bases in the human genome, GCAT, are not found in cDNA.	1
63 bases at the 5' end do not align to the human genome.	1
231 bases at the 3' end do not align to the human genome.	1
in the mouse genome : GGTTTGT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
69 bases at the 3' end do not align to the mouse genome.	1
10 bases in the mouse genome, AAAACAAAAC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
9 bases in the mouse genome, TTTAGTCTT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 36 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
210 bases at the 5' end do not align to the mouse genome.	1
729 bases at the 5' end do not align to the human genome.	1
4 bases in the mouse genome, CCTG, are not found in cDNA.	1
4 bases in the mouse genome, ATTT, are not found in cDNA.	1
10 bases in the mouse genome, GAAAAAAAAA, are not found in cDNA.	1
357 bases at the 3' end do not align to the human genome.	1
in the mouse genome : GGAT.	1
in the mouse genome : GTC.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'D' in cDNA, 'A' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
1768 bases at the 3' end do not align to the human genome.	1
776 bases at the 3' end do not align to the human genome.	1
in the human genome : CCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
85 bases in cDNA are not found in the mouse genome.	1
4 bases in the mouse genome, TCTT, are not found in cDNA.	1
9 bases in the mouse genome, AACAACAAC, are not found in cDNA.	1
76 bases at the 3' end do not align to the mouse genome.	1
in the human genome : GTA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
36 bases at the 3' end do not align to the mouse genome.	1
in the human genome : GATGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
515 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, TAATT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
8 bases in the mouse genome, GCTGCCAG, are not found in cDNA.	1
in the human genome : CAT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the mouse genome : AGACA.	1
739 bases at the 5' end do not align to the human genome.	1
908 bases at the 3' end do not align to the mouse genome.	1
7 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
2 bases in the mouse genome, GG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'A' in cDNA, 'P' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
169 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
232 bases at the 5' end do not align to the human genome.	1
4 bases in the mouse genome, ACCT, are not found in cDNA.	1
807 bases at the 3' end do not align to the human genome.	1
154 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, AAAT, are not found in cDNA.	1
48 bases in cDNA are not found in the mouse genome.	1
136 bases do not align to the mouse genome.	1
in the mouse genome : AACAG.	1
in the mouse genome : CAAG.	1
in the mouse genome : CTCA.	1
in the mouse genome : ACAAA.	1
in the mouse genome : AGCAAG.	1
'C' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
199 bases at the 5' end do not align to the human genome.	1
225 bases at the 5' end do not align to the human genome.	1
191 bases at the 3' end do not align to the mouse genome.	1
119 bases do not align to the mouse genome.	1
4 bases in the human genome, GCTG, are not found in cDNA.	1
29 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, CAAGGA, are not found in cDNA.	1
7 bases in the mouse genome, GCGGAGG, are not found in cDNA.	1
8 bases in the mouse genome, CTTGACAA, are not found in cDNA.	1
6 bases in the mouse genome, ACAGCG, are not found in cDNA.	1
5 bases in the mouse genome, TGGGG, are not found in cDNA.	1
4 bases in the mouse genome, GAGG, are not found in cDNA.	1
895 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : ACC.	1
in the mouse genome : GGAC.	1
212 bases at the 3' end do not align to the mouse genome.	1
in the human genome : TGCC.	1
in the human genome : CTACT.	1
in the human genome : ACAC.	1
in the human genome : ACA.	1
661 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, AGC, are not found in cDNA.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the mouse genome : NNN.	1
173 bases at the 3' end do not align to the mouse genome.	1
157 bases at the 3' end do not align to the human genome.	1
577 bases at the 3' end do not align to the human genome.	1
132 bases at the 5' end do not align to the mouse genome.	1
3 bases in the human genome, GAC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
169 bases at the 5' end do not align to the human genome.	1
in the human genome : GGGT.	1
68 bases at the 5' end do not align to the human genome.	1
in the mouse genome : TTAT.	1
4 bases in the mouse genome, GCAT, are not found in cDNA.	1
3 bases in the human genome, TAT, are not found in cDNA.	1
821 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
513 bases at the 5' end do not align to the human genome.	1
1052 bases at the 5' end do not align to the human genome.	1
534 bases at the 3' end do not align to the human genome.	1
407 bases at the 5' end do not align to the human genome.	1
16 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
7 bases in the human genome, GCATCCA, are not found in cDNA.	1
104 bases at the 3' end do not align to the mouse genome.	1
in the human genome : GTAGTAAT.	1
1599 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, ATG, are not found in cDNA.	1
10 bases in the mouse genome, CGTGTGTGTG, are not found in cDNA.	1
8 bases in the human genome, CCCTTCCT, are not found in cDNA.	1
581 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, GCT, are not found in cDNA.	1
6 bases in the human genome, GTCTGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
52 bases at the 3' end do not align to the mouse genome.	1
5 bases in the human genome, CTTTT, are not found in cDNA.	1
54 bases in cDNA are not found in the human genome.	1
942 bases at the 5' end do not align to the human genome.	1
65 bases do not align to the human genome.	1
137 bases do not align to the human genome.	1
7 bases in the human genome, TGGCCTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the mouse genome : TAG.	1
in the mouse genome : AAAAT.	1
5 bases in the mouse genome, GGTTT, are not found in cDNA.	1
464 bases at the 3' end do not align to the human genome.	1
6 bases in the mouse genome, CCAGCT, are not found in cDNA.	1
61 bases at the 5' end do not align to the human genome.	1
267 bases at the 3' end do not align to the human genome.	1
662 bases at the 3' end do not align to the human genome.	1
72 bases at the 3' end do not align to the human genome.	1
1049 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, AGAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
121 bases at the 3' end do not align to the mouse genome.	1
10 bases in the mouse genome, GGCATGTATG, are not found in cDNA.	1
849 bases at the 5' end do not align to the human genome.	1
5 bases in the mouse genome, AATTA, are not found in cDNA.	1
255 bases at the 3' end do not align to the mouse genome.	1
397 bases at the 5' end do not align to the mouse genome.	1
625 bases at the 5' end do not align to the human genome.	1
9 bases in the human genome, AAGAATTAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TGTG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
570 bases at the 5' end do not align to the human genome.	1
9 bases in the human genome, CTTTTCTAA, are not found in cDNA.	1
519 bases at the 5' end do not align to the human genome.	1
in the mouse genome : ACCA.	1
79 bases at the 5' end do not align to the human genome.	1
10 bases in the human genome, GACTATAAGC, are not found in cDNA.	1
4 bases in the mouse genome, ATGG, are not found in cDNA.	1
4 bases in the mouse genome, ACCC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 64 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
960 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, GAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
165 bases at the 5' end do not align to the human genome.	1
536 bases at the 5' end do not align to the mouse genome.	1
3 bases in the human genome, CGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3023 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
439 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
146 bases at the 5' end do not align to the mouse genome.	1
10 bases in the mouse genome, GTTTTGTTTT, are not found in cDNA.	1
67 bases at the 5' end do not align to the mouse genome.	1
785 bases at the 5' end do not align to the human genome.	1
1132 bases at the 5' end do not align to the human genome.	1
1121 bases at the 3' end do not align to the human genome.	1
353 bases at the 5' end do not align to the human genome.	1
525 bases at the 5' end do not align to the mouse genome.	1
7 bases in the mouse genome, TAAAAAA, are not found in cDNA.	1
1318 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, TGGG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TGATGGGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
321 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, TGCCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
369 bases at the 3' end do not align to the human genome.	1
60 bases in cDNA are not found in the human genome.	1
5 bases in the human genome, CCTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the mouse genome, CGATT, are not found in cDNA.	1
in the mouse genome : GACT.	1
15 bases do not align to the mouse genome.	1
537 bases at the 3' end do not align to the mouse genome.	1
831 bases at the 5' end do not align to the mouse genome.	1
9 bases in the mouse genome, CCAACCAGA, are not found in cDNA.	1
9 bases in the mouse genome, AAAAAAAAA, are not found in cDNA.	1
polyA tail: 205 bases do not align to the human genome.	1
17 bases do not align to the mouse genome.	1
in the human genome : CCT.	1
7 bases in the mouse genome, ACCCCAG, are not found in cDNA.	1
20 bases at the 3' end do not align to the mouse genome.	1
8 bases in the mouse genome, TGTGTGTG, are not found in cDNA.	1
8 bases in the mouse genome, AAGCATTT, are not found in cDNA.	1
557 bases at the 5' end do not align to the human genome.	1
702 bases at the 3' end do not align to the human genome.	1
207 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
11 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
274 bases at the 5' end do not align to the mouse genome.	1
316 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, GTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : CACA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
142 bases do not align to the human genome.	1
in the human genome : TGAT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
261 bases at the 5' end do not align to the human genome.	1
6 bases in the mouse genome, GTGCAT, are not found in cDNA.	1
4 bases in the human genome, AGCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
81 bases at the 5' end do not align to the mouse genome.	1
6 bases in the human genome, GCGGCG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
707 bases at the 5' end do not align to the human genome.	1
9 bases in the mouse genome, ACAACAGCA, are not found in cDNA.	1
polyA tail: 199 bases do not align to the mouse genome.	1
6 bases in the human genome, GGGGCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
1069 bases at the 3' end do not align to the human genome.	1
111 bases at the 5' end do not align to the mouse genome.	1
199 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, GTCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
5 bases in the human genome, AAGTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
699 bases at the 5' end do not align to the human genome.	1
in the human genome : TAAGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 179 bases do not align to the mouse genome.	1
654 bases at the 3' end do not align to the human genome.	1
4 bases in the mouse genome, TTCA, are not found in cDNA.	1
4 bases in the mouse genome, ACAT, are not found in cDNA.	1
841 bases at the 5' end do not align to the human genome.	1
4 bases in the mouse genome, ATGC, are not found in cDNA.	1
72 bases at the 5' end do not align to the mouse genome.	1
1368 bases at the 5' end do not align to the human genome.	1
82 bases at the 3' end do not align to the mouse genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome.	1
383 bases do not align to the mouse genome.	1
polyA tail: 155 bases do not align to the mouse genome.	1
71 bases at the 3' end do not align to the human genome.	1
in the mouse genome : TTTT.	1
2425 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
30 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
328 bases at the 5' end do not align to the human genome.	1
7 bases in the human genome, AAAACCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
1975 bases at the 5' end do not align to the mouse genome.	1
384 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, GCCACA, are not found in cDNA.	1
4 bases in the mouse genome, TGAT, are not found in cDNA.	1
in the human genome : GTGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TAGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'M' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the mouse genome, GCGC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
8 bases in the mouse genome, GCGCACAC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, TCTC, are not found in cDNA.	1
polyA tail: 116 bases do not align to the mouse genome.	1
4 bases in the mouse genome, GCTG, are not found in cDNA.	1
8 bases in the human genome, ACTGGAAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the mouse genome, TCAG, are not found in cDNA.	1
7 bases in the mouse genome, GGGACCA, are not found in cDNA.	1
4 bases in the mouse genome, CCGC, are not found in cDNA.	1
5 bases in the mouse genome, CTCTA, are not found in cDNA.	1
in the mouse genome : AGGAAA.	1
401 bases at the 5' end do not align to the human genome.	1
304 bases at the 5' end do not align to the mouse genome.	1
653 bases at the 5' end do not align to the human genome.	1
polyA tail: 150 bases do not align to the mouse genome.	1
811 bases at the 3' end do not align to the human genome.	1
560 bases at the 3' end do not align to the human genome.	1
5 bases in the human genome, TCCTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, GATACCTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
198 bases at the 5' end do not align to the mouse genome.	1
624 bases at the 5' end do not align to the human genome.	1
346 bases at the 3' end do not align to the human genome.	1
920 bases at the 3' end do not align to the human genome.	1
54 bases at the 5' end do not align to the human genome.	1
8 bases in the human genome, TTTTTTTT, are not found in cDNA.	1
874 bases at the 3' end do not align to the human genome.	1
951 bases at the 3' end do not align to the human genome.	1
2483 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 78 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
12 bp deletion im major mRNA species	1
334 bases at the 3' end do not align to the mouse genome.	1
341 bases at the 5' end do not align to the human genome.	1
in the human genome : CGCC.	1
359 bases at the 5' end do not align to the human genome.	1
981 bases at the 3' end do not align to the human genome.	1
in the human genome : TGTC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, ATG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
737 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
373 bases do not align to the mouse genome.	1
335 bases at the 5' end do not align to the human genome.	1
457 bases at the 5' end do not align to the human genome.	1
182 bases at the 5' end do not align to the human genome.	1
889 bases at the 3' end do not align to the human genome.	1
445 bases at the 5' end do not align to the human genome.	1
365 bases at the 5' end do not align to the human genome.	1
307 bases at the 5' end do not align to the human genome.	1
565 bases at the 5' end do not align to the human genome.	1
426 bases at the 5' end do not align to the human genome.	1
238 bases at the 5' end do not align to the human genome.	1
69 bases do not align to the human genome.	1
112 bases do not align to the human genome.	1
in the human genome : GGA.	1
381 bases at the 5' end do not align to the human genome.	1
457 bases at the 3' end do not align to the human genome.	1
414 bases at the 5' end do not align to the human genome.	1
453 bases at the 5' end do not align to the human genome.	1
1434 bases at the 5' end do not align to the human genome.	1
3 bases in the mouse genome, TGG, are not found in cDNA.	1
4 bases in the mouse genome, TGAC, are not found in cDNA.	1
149 bases at the 3' end do not align to the human genome.	1
896 bases at the 5' end do not align to the human genome.	1
1589 bases at the 5' end do not align to the human genome.	1
67 bases in cDNA are not found in the mouse genome.	1
5 bases in the mouse genome, ACGCA, are not found in cDNA.	1
50 bases in cDNA are not found in the mouse genome.	1
1446 bases at the 3' end do not align to the human genome.	1
1416 bases at the 5' end do not align to the human genome.	1
102 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
5 bases in the mouse genome, TGCAT, are not found in cDNA.	1
in the mouse genome : CGCG.	1
3 bases in the mouse genome, CGC, are not found in cDNA.	1
7 bases in the mouse genome, GATGGGA, are not found in cDNA.	1
7 bases in the mouse genome, TGACTCA, are not found in cDNA.	1
199 bases at the 5' end do not align to the mouse genome.	1
741 bases at the 3' end do not align to the human genome.	1
145 bases in cDNA are not found in the mouse genome.	1
467 bases at the 5' end do not align to the mouse genome.	1
633 bases at the 5' end do not align to the mouse genome.	1
1399 bases at the 5' end do not align to the human genome.	1
458 bases at the 3' end do not align to the human genome.	1
637 bases at the 5' end do not align to the mouse genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, AACT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, CCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
322 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, TCCC, are not found in cDNA.	1
4 bases in the human genome, ACAC, are not found in cDNA.	1
4 bases in the human genome, TTAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
420 bases at the 3' end do not align to the human genome.	1
322 bases at the 3' end do not align to the human genome.	1
6 bases do not align to the mouse genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome.	1
'A' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
Nucleotide 1492 is T or C	1
results in Gly to Arg substitution	1
2 bp deletion; results in frameshift	1
change (insertion) observed in genomic DNA	1
insertion; L28766	1
L28766; pBluescript vector insert in Chun et al.	1
D1 in MAD-20 mRNA	1
D2 in MAD-20 mRNA	1
sequence of trans-spliced leader SL2; mRNA may be spliced to either SL1 or SL2	1
in PCR clone N27L, which creates a codon for a helix-breaking proline in a conserved alpha helix; wild-type genomic sequence also has a T in this position, and is confirmed by cDNA from C. Desplan, et. al.	1
Alternative splicing (putative) These 15 bases were absent in 4 of the cDNA clones	1
alternative splicing (putative) 33 base insert present in two of the cDNA clones	1
deleted in G3-85 stock	1
deleted in G3-81 stock	1
this A is missing in clone cm18e7, but present in other cDNAs and in the genomic clone	1
GenBank Accession Number M33156 has A	1
results in valine to alanine substitution	1
deletion of 249 bp contained in Drosophila melanogaster Dap160-1 isoform in GenBank Accession Number AF053957	1
missing exon 6 as compared to alternatively spliced mig-5 mRNA with GenBank Accession Number AF063244	1
compared to genomic sequence; aspartic acid to glutamic acid change	1
compared to Strongylocentrotus purpuratus myosin VI encoded by GenBank Accession Numbers AF248485 and AF248487	1
not present in the lin-9B alternatively spliced form	1
PCR induced	1
results in amino acid change to phenyalanine	1
results in amino acid change to serine	1
results in amino acid change to arginine	1
results in amino acid change to alanine	1
results in amino acid change to asparagine	1
missing in unidentified clone; results in absence of transmembrane domain segment 4	1
missing in unidentified clone; results in loss of transmembrane domain IV segment 4 helix	1
compared to unidentified cDNA clone	1
unidentified cDNA clone was variant with a deleted domain IV, segments I-2; region corresponds to exon30 in Homo sapiens Cav2.1 and exon 17 in Drosophila Cav2	1
in unidentified cDNA clone; results in deletion of Val	1
a couple of variants have insertions at this location due to alternative splicing; corresponds to exon between exons 24 and 25 of Homo sapiens Cav2.1	1
results in Thr->Ala	1
results in Asn->Ser	1
results in Asn->Thr	1
location of optional insertion; corresponds to site between exons 19 and 20 of Homo sapiens CANCA1i	1
results in Lys->Arg	1
location of optional insertion; correpsonds to site between exons 25 and 25 of Homo sapiens CANCA1i	1
location of optional insertion	1
results in Asp->Gly	1
results in Phe->Ser	1
results in Thr->Ile	1
location of optional exon corresponding to a region encompassed by exon 6 in Homo sapiens Cav beta-1 and between exons 5 and 7 (cg6320:5,7) in Drosophila melanogaster beta subunit	1
results in Ala->Thr	1
putative alternative exon	1
results in Ile->Val	1
results in Ser->Thr	1
results in deletion of Arg	1
results in Leu->Val	1
results in Gln->His	1
alternative exon corresonding to Homo sapiens cask exon 6	1
results in Phe->Leu	1
additional nucleotides present in nonproductive splice variant	1
compared to genomic sequence of CG8784; results in isoleucine substitution in genomic sequence	1
compared to genomic sequence of CG8784; results in glycine substitution in genomic sequence	1
compared to genomic sequence of CG8784; results in threonine substitution in genomic sequence	1
compared to genomic sequence of CG8795; results in threonine substitution in genomic sequence	1
compared to genomic sequence of CG8795; results in glycine substitution in genomic sequence	1
putative polymorphism detected in RACE products with a deletion of 12nt	1
putative splice variant detected in RACE products; could be produced by an alternative splicing acceptor site in exon 5	1
destruction box putative	1
confers resistance to entomopathogenic Bacillus sphaericus	1
not found in some bruno-like isoforms	1
results in Glu to Gln substitution	1
results in Asp to Glu substitution	1
results in Arg to Phe substitution	1
possibly a PCR error	1
in wild type	1
variability may be due to mutation	1
variability may be due to mutation; results in phenylalanine to serine amino acid modification	1
different from GenBank Accession Number U14640	1
compared to the sequence of MHC class I antigen (PA14) deposited in GenBank Accession Number AF014001	1
Base substitution has occurred at this position in the sequence of GenBank Acc. S78779	1
transversion introduces premature stop codon in place of lysine codon	1
results in a glycine to glutamic acid substitution	1
inactive isoform retains intron sequence	1
cg	1
Base at 381 corrected to a. Codon 381-383 specifies Asn.	1
deletion of 33 bp at position 430, relative to similar cardiac clones.; putative	1
this region is absent in the human N-acetylglucosamine 6-sulfatase mRNA, GenBank Accession Number M23657; it encodes six consecutive prolines and one leucine within the signal peptide; a similar sequence is found in the bovine cDNA	1
clone TP2-9	1
1 of 8 PCR clones had GGC at these posns.	1
1 of 8 PCR clones had C in this posn.	1
1 of 8 PCR clones had A at this posn.	1
1 of 4 PCR clones had G at this posn.	1
1 of 4 PCR clones had G in this posn.	1
1 of 4 PCR clones has T at this posn.	1
not present in genomic seqence	1
ompared to genomic sequence	1
results in amino acid change when compared to genomic sequence	1
not in the genomic sequence	1
not present in polyA tail	1
not present in genomic sequence; results in a frameshift when compared with genomic sequence	1
compared to genomic sequence resulting in a frameshift	1
not present in genomic sequence resulting in a frameshift	1
compared to genomic sequence resulting in an amino acid change	1
compared to genomic sequences, resulting in an amino acid sequence difference	1
compared with genomic sequence resulting in an amino acid sequence difference	1
compared to genomic sequence, resulting in an amino acid sequence change	1
compared to genomic sequence resulting in an amino acid sequence change	1
not present in genomic sequence; results in frameshift when compared to genomic sequence	1
compared to genomic sequence resulting in a stop codon.	1
compared to genomic sequence resulting in the deletion of a single amino acid	1
contains a single base pair deletion (A) when compared with genomic sequence	1
compared to GI:18265369	1
compared to genomic sequence in GenBank Accession Number AY116211	1
compared to genome; this base change does not affect the original amino sequence of this clone	1
results in Gly to Glu substitution	1
results in Glu to Asp substitution	1
compared to BAC F28N4	1
compared to P1 clone MQM (AT5g23540)	1
compared to BAC clone F1N19 (AT1g64520)	1
compared to genomic sequence in GenBank Accession Number AL731610	1
conflict with GenBank Accession Number AF300972 (OsDREB1B); G verified in all three ESTs and from gDNA PCR product	1
conflict with GenBank Accession Number AF300972 (OsDREB1B); A verified in all three ESTs and from gDNA PCR product	1
deletion relative to genomic sequence	1
This discrepancy does not affect the protein seqeunce.	1
compared to genome; this base change does not affect the originial amino acid sequence	1
compared to genom	1
compared to genome. This base change does not affect the original amino acid translation	1
compared against genome; this base change does not affect the original amino acid sequence	1
multiple independent cloning experiments confirm that the genome is wrong at this location	1
compred to genome; this base change does not affect the original amino acid sequence	1
compared to genome; This discrepancy does not change protein sequence.	1
This discrepency does not change protein sequence. Compared to genome.	1
Compared to genome. This discrepancy does not change protein sequence.	1
Compared to genome. This descrepancy does not change translation.	1
results in a isoleucine to valine substitution	1
results in a serine to alanine substitution	1
results in an asparagine to threonine substitution	1
attL1 base change	1
results in an alanine to aspartic acid substitution	1
results in a phenylalanine to tyrosine substitution	1
results in a leucine to isoleucine substitution	1
results in an asparagine to lysine substitution	1
results in a proline to leucine substitution	1
results in an arginine to serine substitution	1
results in a valine to phenylalanine substitution	1
results in a cysteine to phenylalanine substitution	1
results in a tyrosine to serine substitution	1
attl1 base insertion	1
results in a lysine to arginine substitution	1
results in an alanine to threonine substitution	1
results in a proline to serine substitution	1
base change does not affect the amino acid	1
results in a nonsense mutation	1
results in a lysine to glutamine substitution	1
results in a alanine to glutamic acid substitution	1
change affects amino acid	1
deletion in linker region between ORF and attL2	1
deletion in the ribosome binding site region between the attL1 site and the ORF	1
The gene encoding this mRNA has a stretch of 13 G residues, while this cDNA clone has only 12. We believe the 13th G was lost during synthesis of the cDNA clone.; probable cloning error	1
additional G in TyrRS gene sequence relative to UBR1 5' -flanking region	1
this region is from a putative genomic clone obtained from the same cDNA library; putative	1
clone pTRP55	1
clone pTRP60	1
clone pTRP60; this clone may end at nt 1264	1
clone pTRP55; this clone may end at nt 1264	1
nucleotide difference from the genomic sequence due to mis-incorporation by PCR, GenBank Accession Number U26542	1
PCR products from the genomic DNA and the other cDNA clones all have 'c' at this site; the 't' is believed to be a cloning artifact	1
T at this position in published sequence is corrected to A in this entry	1
in some cDNA clones, there are 6 A's at this position, instead of 7. This appears to be due to an error in reverse transcription	1
mRNA differs from genomic sequence with GenBank Accession Number U18056	1
changed in the process of complete cDNA construction	1
likely has one two-base (AG) deletion between 159/160 as compared to BAC end sequence (B78134)	1
seedling dependent	1
difference compared to GenBank Accession Number AF022462; causes change of P to L (aa 140)	1
difference compared to GenBank Accession Number AF022462; causes change of T to I (aa 156)	1
difference compared to GenBank Accession Number AF022462; causes change of E to K (aa 295)	1
9 bp insertion compared to GenBank Accession Number AF022462	1
compared to Arabidopsis thaliana sequence presented in GenBank Accession Number AC005917	1
not present in the genomic DNA	1
in genomic sequence resulting in an amino acid sequence difference	1
compared to genomic sequence resulting in an amino acid sequence difference	1
not part of a predicted exon of gene F9H3.19 in sequence deposited in GenBank Accession Number AF071527	1
gene F9H3.19 in sequence deposited in GenBank Accession Number AF071527 has a predicted exon here	1
as compared to genomic sequence in GenBank Accession Number AF147091	1
cotyledons transcript	1
compared to genomic sequence and NM_103779.3	1
compared to genomic sequence and NM_180749.2	1
compared to genomic sequence, NM_100871.3 and NM_180611.1	1
compared to genomic sequence and NM_103577.1	1
compared to genomic sequence and NM_117035.2	1
compared to genomic sequence and NM_121579.3	1
compared to genomic sequence and NM_117467.2	1
compared to genomic sequence and NM_116260.2	1
compared to genomic sequence and NM_104110.2	1
compared to genomic sequence, NM_180357.2 and NM_115152.1	1
compared to genomic sequence and NM_111688.4	1
compared to genomic sequence, NM_180257.1 and NM_112361.3	1
compared to genomic sequence and NM_119578.2	1
compared to genomic sequence and NM_126136.2	1
compared to genomic sequence and NM_101407.2	1
compared to genomic sequence and NM_128851.3	1
compared to genomic sequence and NM_180572.1	1
compared to genomic sequence and NM_105278.2	1
compared to genomic sequence and NM_117243.3	1
compared to genomic sequence and NM_119297.2	1
compared to genomic sequence and NM_130314.2	1
compared to genomic sequence and NM_103752.3	1
compared to genomic sequence and NM_118729.2	1
compared to genomic sequence and NM_122499.3	1
compared to genomic sequence and NM_147929.2	1
compared to genomic sequence and NM_105804.3	1
compared to genomic sequence and NM_117778.3	1
compared to genomic sequence and NM_118834.2	1
compared to genomic sequence and NM_147850.2	1
compared to genomic sequence and NM_120823.2	1
compared to genomic sequence and NM_119676.2	1
compared to genomic sequence and NM_127981.2	1
compared to genomic sequence and NM_114690.2	1
compared to genomic sequence and NM_120660.2	1
compared to genomic sequence and NM_124486.2	1
compared to genomic sequence and NM_106150.2	1
compared to genomic sequence, NM_201664.1 and NM_126196.2	1
compared to genomic sequence and NM_120977.2	1
compared to genomic sequence and NM_111819.3	1
compared to genomic sequence and NM_121798.2	1
compared to genomic sequence and NM_115043.2	1
compared to genomic sequence and NM_113032.3	1
compared to genomic sequence and NM_119167.2	1
compared to genomic sequence and NM_129247.2	1
Possible splice variant of the delta subunit of protein phosphatase 2A. Variant contains a deletion of bp 42-359.	1
Possible splice variant of the delta subunit of protein phosphatase 2A. Variant contains a deletion of bp 264-359.	1
I80S This sequence is different from a previously reported sequence Acc# NM_002517	1
T203P	1
S211P	1
V449A	1
accidentally mutated on RT-PCR process	1
polymorphism changes amino acid to Gly	1
site of 100 bp deletion with respect to hD53 mRNA sequence deposited in GenBank Accession Number U44427; same deletion noted in clone 83289, deposited in GenBank Accession Numbers T68402 and U44429	1
difference between this sequence and sequence with GenBank Accession Number L38616	1
encodes RXXAXGK instead of the putative purine nucleotide binding motif GXXAXGK encoded by Genbank Accession Number U92538	1
contains in insertion region as compared to the sequence presented in GenBank Accession Number AF053892	1
VTI1; encodes for asparagine instead of aspartic acid	1
VTI1	1
insertion of 117 nucleotides results in a larger form of M4 protein	1
this exon is absent in the sequence in GenBank Accession Number Z69881	1
see GenBank Accession Number Z69881	1
compared to GenBank Accession Number X65488	1
causes frameshift relative to MOAT-B presented in GenBank Accession Number AF071202	1
nucleotide replacement leads to change of amino acid from Phe to Leu	1
81-bp segment missing from rao (GenBank Accession Number D88213)	1
difference between this sequence and Homo sapiens sequence presented in GenBank Accession Number U66617	1
in ras-related C3 botulinum toxin substrate rac-1	1
compared to MYH11 sequence deposited in GenBank Accession Number D10667	1
codon absent in sequences deposited in GenBank Accession Numbers X87949 and M19645	1
compared to Homo sapiens beige-like sequence presented in GenBank Accession Number M83822	1
trinucleotide insertion relative to sequence in Genbank Accession Number AF233334	1
compared to the sequence deposited in GenBank Accession Number AL050144	1
compared to Homo sapiens sequence presented in GenBank Accession Number AC007869	1
difference compared to sequence with GenBank Accession Number AF293024	1
compared to ESTs deposited in GenBank Accession Numbers AW614041, AA514376, and AW970179	1
compared to EST deposited in GenBank Accession Number AW002479	1
compared to Homo sapiens hypothetical protein FLJ11320 encoded by GenBank Accession Number AK002182	1
insertion compared to dJ402G11.7 gene deposited in GenBank Accession Number AL022328.21	1
deletion compared to sequence deposited in GenBank Accession Number AF261073	1
compared to mRNA sequence deposited in AK000468	1
missing 653 bp compared to mRNA sequence in GenBank Accession Number AY147037	1
compared to genome assembly	1
heterozygosity of cell line SK-N-MC	1
142 bases at the 5' end do not align to the human genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
85 bases at the 3' end do not align to the human genome.	1
371 bases at the 3' end do not align to the human genome.	1
87 bases at the 5' end do not align to the human genome.	1
92 bases at the 3' end do not align to the human genome.	1
in the human genome : GCA.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: '*' in cDNA, 'K' in the human genome.	1
135 bases at the 3' end do not align to the mouse genome.	1
3 bases in the human genome, AGG, are not found in cDNA.	1
4 bases in the human genome, CTTT, are not found in cDNA.	1
in the human genome : ATTT.	1
6 bases in the human genome, ACCACC, are not found in cDNA.	1
209 bases at the 3' end do not align to the human genome.	1
165 bases do not align to the human genome.	1
145 bases at the 5' end do not align to the human genome.	1
in the human genome : GGCGCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
43 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
110 bases at the 5' end do not align to the human genome.	1
90 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, TGGGGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, TTTAGCTG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
12 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TGGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
99 bases at the 5' end do not align to the human genome.	1
64 bases at the 5' end do not align to the human genome.	1
276 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, ATCT, are not found in cDNA.	1
3 bases in the human genome, TTC, are not found in cDNA.	1
379 bases at the 5' end do not align to the human genome.	1
845 bases at the 5' end do not align to the human genome.	1
in the human genome : GGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
174 bases at the 5' end do not align to the human genome.	1
8 bases in the human genome, AAAAAAAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
42 bases at the 3' end do not align to the human genome.	1
39 bases at the 3' end do not align to the human genome.	1
82 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, GCCT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
36 bases in cDNA are not found in the human genome.	1
in the human genome : ACTG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : ATT.	1
221 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, GAAAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
10 bases in the human genome, TCTCTCTCTC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
1873 bases at the 5' end do not align to the human genome.	1
531 bases at the 5' end do not align to the human genome.	1
242 bases do not align to the human genome.	1
3 bases in the human genome, GTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
154 bases at the 5' end do not align to the human genome.	1
50 bases in cDNA are not found in the human genome.	1
74 bases at the 3' end do not align to the human genome.	1
202 bases at the 3' end do not align to the human genome.	1
55 bases at the 3' end do not align to the human genome.	1
143 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, GAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
65 bases at the 3' end do not align to the human genome.	1
71 bases do not align to the human genome.	1
43 bases do not align to the human genome.	1
in the human genome : TCG.	1
43 bases in cDNA are not found in the human genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'T' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
598 bases at the 5' end do not align to the human genome.	1
167 bases at the 5' end do not align to the human genome.	1
208 bases at the 5' end do not align to the human genome.	1
in the human genome : GAAAGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : GCAGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
24 bases do not align to the human genome.	1
224 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, GTTGTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
6 bases in the human genome, ATCACT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
79 bases do not align to the human genome.	1
4 bases in the human genome, GTGT, are not found in cDNA.	1
3 bases in the human genome, TTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
76 bases at the 3' end do not align to the human genome.	1
36 bases at the 3' end do not align to the human genome.	1
325 bases at the 5' end do not align to the human genome.	1
399 bases at the 3' end do not align to the human genome.	1
138 bases at the 3' end do not align to the human genome.	1
in the human genome : TGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
339 bases at the 3' end do not align to the human genome.	1
polyA tail: 177 bases do not align to the human genome.	1
3 bases in the human genome, TCC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GCA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
50 bases at the 5' end do not align to the human genome.	1
532 bases at the 3' end do not align to the human genome.	1
5 bases in the human genome, TTTTT, are not found in cDNA.	1
1016 bases at the 5' end do not align to the human genome.	1
polyA tail: 199 bases do not align to the human genome.	1
3 bases in the human genome, TAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
polyA tail: 215 bases do not align to the human genome.	1
4 bases in the human genome, ACAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
polyA tail: 166 bases do not align to the human genome.	1
in the human genome : CAG.	1
in the human genome : TGC.	1
in the human genome : GAAT.	1
10 bases in the human genome, GGTGTGTGTG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, AAAAAAAA, are not found in cDNA.	1
144 bases in cDNA are not found in the human genome.	1
5 bases in the human genome, CCTAC, are not found in cDNA.	1
170 bases do not align to the human genome.	1
12 bases do not align to the human genome.	1
4 bases in the human genome, CTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : ACAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
7 bases in the human genome, TTTTTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GTTC.	1
1125 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
625 bases at the 3' end do not align to the mouse genome.	1
4 bases in the human genome, ATAT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
10 bases in the human genome, AGTCTCCCCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
352 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, CACACA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GAA.	1
4 bases in the human genome, TATT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, CCGCCCGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
8 bases in the human genome, ACACACAC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
241 bases at the 5' end do not align to the human genome.	1
'A' in cDNA is 'G' in the human genome; amino acid difference: '*' in cDNA, 'W' in the human genome.	1
571 bases at the 3' end do not align to the human genome.	1
40 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
256 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, TCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
7 bases in the human genome, CTTCTAC, are not found in cDNA.	1
4 bases in the human genome, CTGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
330 bases at the 5' end do not align to the human genome.	1
86 bases do not align to the human genome.	1
in the human genome : TGCCA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, CGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
11 bases in the human genome are not found in cDNA.	1
13 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
7 bases in the human genome, CTCAAAT, are not found in cDNA.	1
606 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, GGA, are not found in cDNA.	1
63 bases at the 5' end do not align to the mouse genome.	1
214 bases do not align to the human genome.	1
4 bases in the human genome, GTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CAAT, are not found in cDNA.	1
187 bases at the 5' end do not align to the human genome.	1
218 bases at the 3' end do not align to the human genome.	1
635 bases at the 5' end do not align to the human genome.	1
540 bases at the 3' end do not align to the human genome.	1
in the human genome : CTCTGT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
10 bases in the human genome, TTACACACAC, are not found in cDNA.	1
in the human genome : CCCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, GTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, ATAGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
392 bases at the 5' end do not align to the mouse genome.	1
polyA tail: 160 bases do not align to the human genome.	1
480 bases at the 3' end do not align to the human genome.	1
33 bases do not align to the human genome.	1
5 bases in the mouse genome, ACTGA, are not found in cDNA.	1
729 bases at the 3' end do not align to the human genome.	1
in the human genome : GGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, TTAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : TGA.	1
134 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, AGTAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : CAGA.	1
3 bases in the human genome, AAC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
809 bases at the 5' end do not align to the human genome.	1
439 bases at the 3' end do not align to the human genome.	1
747 bases at the 5' end do not align to the human genome.	1
877 bases at the 3' end do not align to the human genome.	1
115 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, AACTTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
1682 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, ACTC, are not found in cDNA.	1
30 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
22 bases at the 5' end do not align to the human genome.	1
161 bases at the 5' end do not align to the human genome.	1
237 bases at the 5' end do not align to the human genome.	1
1638 bases at the 5' end do not align to the human genome.	1
318 bases at the 5' end do not align to the mouse genome.	1
184 bases at the 5' end do not align to the human genome.	1
549 bases at the 5' end do not align to the human genome.	1
in the human genome : CATGG.	1
in the human genome : CTA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, CTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
536 bases at the 5' end do not align to the human genome.	1
2 bases in the human genome, NN, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
80 bases at the 5' end do not align to the human genome.	1
in the human genome : GGTG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
34 bases do not align to the human genome.	1
3 bases in the human genome, CAT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
109 bases at the 5' end do not align to the human genome.	1
in the human genome : AGGCCAGGCAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
9 bases in the human genome, TGAAGCCTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
103 bases at the 5' end do not align to the human genome.	1
in the human genome : TTT.	1
29 bases in cDNA are not found in the human genome.	1
185 bases at the 5' end do not align to the human genome.	1
in the human genome : CAGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CCAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
5 bases in the human genome, AAGAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CAAA, are not found in cDNA.	1
5 bases in the human genome, AGTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
6 bases in the human genome, AACAGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
80 bases at the 3' end do not align to the human genome.	1
43 bases at the 3' end do not align to the human genome.	1
3 bases in the human genome, CAA, are not found in cDNA.	1
4 bases in the human genome, GAGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, TTCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, GCTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
404 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, GACA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
909 bases at the 3' end do not align to the human genome.	1
6 bases in the human genome, ATTAAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
8 bases in the human genome, CACACACA, are not found in cDNA.	1
57 bases do not align to the human genome.	1
6 bases in the human genome, CCCCCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
947 bases at the 3' end do not align to the human genome.	1
894 bases at the 3' end do not align to the human genome.	1
46 bases do not align to the human genome.	1
364 bases at the 3' end do not align to the human genome.	1
6 bases in the human genome, TTTTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
194 bases at the 5' end do not align to the human genome.	1
222 bases at the 5' end do not align to the human genome.	1
78 bases do not align to the human genome.	1
24 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, TCTTT, are not found in cDNA.	1
8 bases in the human genome, CACACACA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : CTGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
32 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
17 bases in cDNA are not found in the human genome.	1
20 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : AGGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : ATC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
9 bases in the human genome, GCCCCCACC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, TTCC, are not found in cDNA.	1
4 bases in the human genome, CTCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, ATT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, GTTTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GAGGCAGGAGAA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : CACAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GGGAGGGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, TGAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, AAAAA, are not found in cDNA.	1
133 bases at the 5' end do not align to the human genome.	1
13 bases do not align to the human genome.	1
in the human genome : CGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : GGAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CAGG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, TTCCTCAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, AACC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : ACC.	1
in the human genome : TTG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, ACC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
169 bases do not align to the human genome.	1
51 bases at the 3' end do not align to the human genome.	1
1374 bases at the 3' end do not align to the human genome.	1
618 bases at the 5' end do not align to the human genome.	1
in the human genome : GACA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
7 bases in the human genome, ACTGCAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CACG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
108 bases at the 5' end do not align to the human genome.	1
polyA tail: 193 bases do not align to the human genome.	1
4 bases in the human genome, CCTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, CACC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, GTACG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, CCA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, GTTAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
5 bases in the mouse genome, TCTTG, are not found in cDNA.	1
205 bases at the 5' end do not align to the human genome.	1
1089 bases at the 3' end do not align to the human genome.	1
10 bases in the human genome, GAGAGAGAGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, ATC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
10 bases in the human genome, CATATATACA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
20 bases in the human genome are not found in cDNA.	1
5 bases in the human genome, CAAAT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
7 bases in cDNA are not found in the human genome.	1
752 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, AAAAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, TAGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
589 bases at the 5' end do not align to the human genome.	1
125 bases at the 5' end do not align to the human genome.	1
7 bases in the human genome, GGCAGCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 148 bases do not align to the human genome.	1
25 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GAGA.	1
554 bases at the 5' end do not align to the human genome.	1
23 bases in cDNA are not found in the human genome.	1
520 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, CATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 178 bases do not align to the human genome.	1
345 bases at the 5' end do not align to the human genome.	1
701 bases do not align to the human genome.	1
354 bases at the 5' end do not align to the human genome.	1
52 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
10 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
6 bases in the human genome, CACGTC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, GTGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : ACCA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, ACAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : AAC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
135 bases at the 3' end do not align to the human genome.	1
1075 bases at the 5' end do not align to the human genome.	1
90 bases at the 3' end do not align to the human genome.	1
883 bases at the 5' end do not align to the human genome.	1
182 bases at the 3' end do not align to the mouse genome.	1
130 bases at the 5' end do not align to the human genome.	1
63 bases do not align to the human genome.	1
5 bases in the human genome, AAAGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, GGG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
451 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, ACTCTC, are not found in cDNA.	1
6 bases in the human genome, TGATGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
6 bases in the human genome, AGATGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
532 bases at the 5' end do not align to the human genome.	1
361 bases at the 3' end do not align to the human genome.	1
756 bases at the 5' end do not align to the human genome.	1
in the human genome : TGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : AGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TGGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
19 bases do not align to the human genome.	1
139 bases at the 5' end do not align to the human genome.	1
in the human genome : GACAG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
9 bases in the human genome, GGTGCCAGG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
164 bases do not align to the human genome.	1
6 bases in the human genome, TCTCAC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, ATTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
1408 bases at the 5' end do not align to the human genome.	1
218 bases at the 3' end do not align to the mouse genome.	1
1140 bases at the 3' end do not align to the human genome.	1
8 bases in the mouse genome, CAAAAACA, are not found in cDNA.	1
38 bases at the 3' end do not align to the human genome.	1
polyA tail: 174 bases do not align to the human genome.	1
in the human genome : CGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
37 bases do not align to the human genome.	1
58 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
47 bases do not align to the human genome.	1
in the human genome : CTCA.	1
300 bases at the 3' end do not align to the human genome.	1
10 bases in the human genome, TTTTTTTTTT, are not found in cDNA.	1
62 bases do not align to the human genome.	1
393 bases at the 3' end do not align to the human genome.	1
52 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, ATTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
259 bases at the 3' end do not align to the human genome.	1
455 bases at the 5' end do not align to the human genome.	1
in the human genome : GCG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
437 bases at the 3' end do not align to the human genome.	1
in the mouse genome : GCAA.	1
in the mouse genome : TACCAG.	1
216 bases at the 5' end do not align to the human genome.	1
7 bases in the human genome, GAATAAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : AGAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TGTCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 176 bases do not align to the human genome.	1
in the human genome : GGAG.	1
4 bases in the human genome, TTTC, are not found in cDNA.	1
polyA tail: 13 bases do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'H' in cDNA, 'P' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
4 bases in the human genome, CTGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
515 bases at the 3' end do not align to the human genome.	1
213 bases at the 5' end do not align to the human genome.	1
182 bases at the 3' end do not align to the human genome.	1
31 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'A' in cDNA is 'N' in the human genome.	1
527 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, CACACA, are not found in cDNA.	1
5 bases in the human genome, CTTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, TAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
10 bases in the human genome, CACACACATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : ACT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
173 bases at the 3' end do not align to the human genome.	1
205 bases at the 3' end do not align to the human genome.	1
432 bases at the 5' end do not align to the human genome.	1
369 bases at the 5' end do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
polyA tail: 29 bases do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
388 bases at the 5' end do not align to the human genome.	1
in the human genome : CTAG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
88 bases at the 3' end do not align to the human genome.	1
in the human genome : GGGG.	1
270 bases at the 5' end do not align to the human genome.	1
9 bases in the human genome, TGGCGCTGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, GGGG, are not found in cDNA.	1
284 bases at the 5' end do not align to the human genome.	1
170 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, GCAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
162 bases at the 5' end do not align to the human genome.	1
468 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, TTGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, AATA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, GCACC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
6 bases in the human genome, CGCCGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
224 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, TTAG, are not found in cDNA.	1
in the human genome : ACATGC.	1
9 bases in the human genome, GAGATCGCG, are not found in cDNA.	1
206 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, CACA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
33 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CAGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CTCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, ATA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : TCC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : AAAAA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, CTTAG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
116 bases at the 5' end do not align to the human genome.	1
196 bases at the 3' end do not align to the human genome.	1
141 bases at the 5' end do not align to the human genome.	1
171 bases at the 3' end do not align to the human genome.	1
in the human genome : CATG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, TCAA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
738 bases at the 3' end do not align to the human genome.	1
294 bases at the 3' end do not align to the human genome.	1
461 bases at the 5' end do not align to the mouse genome.	1
407 bases at the 3' end do not align to the human genome.	1
441 bases at the 5' end do not align to the human genome.	1
786 bases at the 3' end do not align to the human genome.	1
21 bases in cDNA are not found in the human genome.	1
1002 bases at the 3' end do not align to the human genome.	1
129 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, CTGTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
8 bases in the human genome, TAAATAAA, are not found in cDNA.	1
192 bases at the 5' end do not align to the human genome.	1
4 bases in the human genome, ACGG, are not found in cDNA.	1
486 bases at the 3' end do not align to the human genome.	1
1271 bases at the 5' end do not align to the human genome.	1
2650 bases at the 3' end do not align to the human genome.	1
474 bases at the 5' end do not align to the human genome.	1
in the human genome : CCCAACTC.	1
in the human genome : GCC.	1
926 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, AACA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
774 bases at the 3' end do not align to the human genome.	1
305 bases do not align to the human genome.	1
219 bases at the 3' end do not align to the human genome.	1
9 bases in the human genome, AACTGGCGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
6 bases in the human genome, CCCGGC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, ACTT, are not found in cDNA.	1
197 bases at the 5' end do not align to the human genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: '*' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
22 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
678 bases at the 3' end do not align to the human genome.	1
4 bases in the human genome, TGTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 162 bases do not align to the human genome.	1
122 bases at the 5' end do not align to the human genome.	1
7 bases in the human genome, TTTTTTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
212 bases at the 5' end do not align to the human genome.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the human genome, AGGG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
229 bases at the 5' end do not align to the human genome.	1
77 bases at the 5' end do not align to the human genome.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: '*' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, ATGCT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
611 bases at the 3' end do not align to the human genome.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: '*' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : ATA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TCG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
97 bases at the 5' end do not align to the human genome.	1
14 bases at the 3' end do not align to the human genome.	1
in the human genome : AAGT.	1
in the human genome : CTGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, TCT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GTCA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, CAC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
Variant contains a insertion of 33bp	1
Variant contains a insertion of 30bp	1
Variant contains a deletion of 102bp	1
The 198th nucleotide 'G' is 'C' in clone pTID1 (acc#D21092). Probably 'C' is an artifact during cDNA cloning.	1
The 3rd nucleotide 'C' is 'G' in clone pTID7 (acc#D21091). The 'C' could be an artifact during cDNA cloning into GC-tail of pCD2 vector.	1
The 198th nucleotide is 'G' in clone pTID7 (acc#21091) and 'C' in clone pTID1 (acc#D21092). Probably 'C' is an artifact during cDNA cloning.	1
conflicts with sequence data reported by other authors	1
Additional sequence of 3'-untranslated region (bp735-1156) in human calpastatin mRNA that was not described in citation #2.	1
as compared to the human genome; results in arginine to serine substitution	1
results in alanine to threonine substitution	1
compared to NM_001011553.1	1
2 of 8 PCR product of the 3' untranslated region showed nucleotides 2716-2718 missing.	1
the first 14 bases in [2] do not match those of B5/589 clone 44; G00-127-929	1
insertion; G00-127-929	1
'Asp in translation in B5/589 Clone 44 vs. Val in Ref.2.'; a in B5/589 clone44 vs. t in [2].; G00-127-929	1
GCG in B5/589 clone 44 vs. CGC in [2].; G00-127-929	1
sequence diverges in several cDNA clones	1
1 clone	1
human sequence lacks 43 bp; putative	1
two base insertion not found in other gene family members	1
possible reverse transcriptase error; putative	1
this sequence has been corrected for primer-encoded differences (in comparison to most VkappaIIIa-related sequences) carried by the AG21 scFv Vkappa	1
insertion/deletion polymorphism	1
g is deleted	1
insert g	1
This variation causes the amino acid change from Glu to Asp	1
variants contain a deletion of 33 nucleotides at position 430; splice variant	1
deletion in subtype (pWICS41) and (pWICS38)...a; G00-125-210	1
deletion in subtype (pWICS38)...b; G00-125-210	1
insertion site of this sequence, which is alternatively spliced into a small portion of mer transcripts	1
exon 5 from a previously sequenced receptor mRNA, which is spliced out from between nt 898/899 in the current sequence	1
this sequence extends the Wee1 Hu mRNA sequence, GenBank Accession Number X62048, on the 5' end. The CDS is also extended by 214 codons on N-terminal end	1
hNR3-2	1
hNR3-3	1
differs from isoform alpha by one bp substitution at position 234	1
differs from isoform alpha by one bp substitution at position 633	1
3 bp (aag) internal deletion in the CDS with respect to the parental human dlk, GenBank Accession Number Z12172	1
RKCAG132	1
extra 145 bp in 3' region compared to clone AT1, GenBank Accession Number U18759	1
differs from clone AT1, GenBank Accession Number U18759	1
'tag' insert clone SRp40-1; possible alternative 3' splice site	1
GenBank Accession Number G07320	1
alternate 5' UTR; differs from the 5'UTR of HeLa cell mRNA, GenBank Accession Number U12424	1
this region is deleted in EST clone 83289, GenBank Accession Number T68402 but is present in EST clone 116783, GenBank Accession Number T89899	1
this region is deleted in EST clone 83289, GenBank Accession Number T68402	1
compared with GenBank Accessions U34994	1
a single base deletion compared to mouse PP2 gene coding sequence.	1
164 bp deletion in splice variants 4C-delta54 and 4C-delta109, see GenBank Accession Numbers U66348 and U66349	1
166 bp deletion in splice variant 4C-delta109, see GenBank Accession Number U66349	1
sequence of 181 bp intron 1 relative to splice variant 4C-791, see GenBank Accession Number U66346	1
sequence of 358 bp intron 2 relative to splice variant 4C-791, see GenBank Accession Number U66346	1
sequence of 262 bp intron 3 relative to splice variant 4C-791, see GenBank Accession Number U66346	1
alternative 5' end relative to splice variant 4C-791, see GenBank Accession Number U66346	1
site of 166 bp deletion relative to splice variant 4C-791, see GenBank Accession Number U66346	1
appears in the alternative mRNA presented in GenBank Accession Number U68485	1
occurs in human tyrosyl-tRNA synthetase in GenBank Accession Number U40714, which has an altered reading frame downstream of this insertion	1
A region of 96 base pairs which encodes a 32 amino acid span similar to Alu-derived amino acid sequences was found in two of three clones	1
sequence difference C/G	1
sequence difference G/C	1
sequence difference G/-	1
sequence difference C/-	1
sequence difference TG/GT, resulting amino acid substitution L/R	1
sequence difference G/C, resulting amino acid substitution A/P	1
cDNA has 46 bp deletion	1
A (cDNA) to T (genomic)	1
first cysteine	1
second cysteine	1
sequence difference T/A, resulting amino acid substitution I/N	1
This sequence was replaced by above one in the clone named V3b.	1
This sequence was deleted in the clone named V3c	1
this mutation results in a cysteine-tyrosine substitution, this causes loss of a disulfide linkage and most probably disrupts folding of the light chain	1
site of alternatively spliced 51 nt exon missing in this mRNA	1
At nucleotide position 259, an A was sequenced in the cDNA clone, whereas a G is present in the murine genomic clone (GenBank Accession Number AF036582) and in the human sequence (GenBank Accession Number L41919). This base substitution led to the amino acid N in the murine genomic and the human sequence and to the amino acid S in the cDNA sequence.	1
missing in p90rsk sequence deposited in GenBank Accession Number M28489	1
deleted region in P2X4 mRNA deposited in GenBank Accession Number AF089752	1
insertion site in P2X4 mRNA deposited in GenBank Accession Number AF089751	1
dominant-negative mutation; blocks LPS signal transduction; encodes histidine rather than wild type proline	1
due to degeneracy in forward primer; would result in Ile to Val change	1
compared to GenBank Accession Number D16432	1
compared to Mus musculus transcription termination factor 1 encoded by GenBank Accession Number X83974	1
compared to GenBank Accession Number AF142329; generates amino acid change from asparagine to aspartic acid; probable PCR error during cDNA library construction; not present in C57BL genomic sequence	1
additional sequence present in Rattus norvegicus APOBEC-1 complementation factor long isoform encoded by GenBank Accession Number AY028945	1
results in glycine substitution	1
results in phenylalanine substitution	1
compared to the sequence found in GenBank Accession Number X56182	1
75 bp insertion found in 2/4 clones of strain C57BL6 and 4/4 clones of plasmacytoma BPC4 contain MUSTGFBR brain isoform	1
compared to Rattus norvegicus APOBEC-1 complementation factor short isoform encoded by GenBank Accession Number AF290984	1
3' target site duplication	1
compared to mouse assembly mm5	1
compared to GenBank Accession Number AY820183	1
compared to GenBank Accession Number AY820182	1
5 bases in the mouse genome, TTTGT, are not found in cDNA.	1
19 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
10 bases in the mouse genome, CTGAATGAAT, are not found in cDNA.	1
40 bases at the 3' end do not align to the mouse genome.	1
39 bases do not align to the mouse genome.	1
4 bases in the mouse genome, GATC, are not found in cDNA.	1
6 bases in the mouse genome, AAAGTC, are not found in cDNA.	1
4 bases in the mouse genome, ATCT, are not found in cDNA.	1
6 bases in the mouse genome, GAGGAG, are not found in cDNA.	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: '*' in cDNA, 'C' in the mouse genome.	1
in the mouse genome : AAGG.	1
2 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, TTTTC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, TTTTTT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 40 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, GAC, are not found in cDNA.	1
5 bases in the mouse genome, TGCCC, are not found in cDNA.	1
256 bases at the 3' end do not align to the mouse genome.	1
330 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
2 bases in the mouse genome, AG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : ATCT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
1 base does not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : TCA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, TCTTT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
10 bases in the mouse genome, GTGTGTGTGT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GCAGG.	1
5 bases in the mouse genome, GAAAA, are not found in cDNA.	1
6 bases in the mouse genome, GAGTGA, are not found in cDNA.	1
5 bases in the mouse genome, CCCTC, are not found in cDNA.	1
10 bases in the mouse genome, GCAGGGGCTT, are not found in cDNA.	1
1685 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, CAAAAT, are not found in cDNA.	1
46 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, TCCCT, are not found in cDNA.	1
451 bases at the 5' end do not align to the mouse genome.	1
287 bases at the 3' end do not align to the mouse genome.	1
76 bases at the 5' end do not align to the mouse genome.	1
8 bases in the mouse genome, CACACACA, are not found in cDNA.	1
4 bases in the mouse genome, CCCT, are not found in cDNA.	1
in the mouse genome : GAAA.	1
169 bases at the 5' end do not align to the mouse genome.	1
10 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
38 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 38 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : TGC.	1
569 bases at the 5' end do not align to the mouse genome.	1
in the mouse genome : TCTGT.	1
22 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
17 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 47 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, GGAAG, are not found in cDNA.	1
3 bases in the mouse genome, TAG, are not found in cDNA.	1
103 bases at the 5' end do not align to the mouse genome.	1
99 bases at the 5' end do not align to the mouse genome.	1
122 bases do not align to the mouse genome.	1
in the mouse genome : AAAT.	1
8 bases in the mouse genome, CCCTGGAC, are not found in cDNA.	1
4 bases in the human genome, TTTA, are not found in cDNA.	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: '*' in cDNA, 'L' in the mouse genome.	1
6 bases in the mouse genome, CCTCGG, are not found in cDNA.	1
50 bases at the 5' end do not align to the mouse genome.	1
48 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
13 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
246 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, ATTA, are not found in cDNA.	1
polyA tail: 73 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
102 bases do not align to the mouse genome.	1
polyA tail: 24 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, CTCTCT, are not found in cDNA.	1
in the mouse genome : GAGA.	1
115 bases at the 3' end do not align to the mouse genome.	1
7 bases in the mouse genome, CAAGTAG, are not found in cDNA.	1
10 bases in the mouse genome, ACGCGCGCGC, are not found in cDNA.	1
106 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, CTAG, are not found in cDNA.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the mouse genome, CCCCCCCC, are not found in cDNA.	1
in the mouse genome : AAGGTCA.	1
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'D' in cDNA, 'A' in the mouse genome.	1
in the mouse genome : ACTG.	1
polyA tail: 60 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
50 bases at the 3' end do not align to the mouse genome.	1
9 bases do not align to the mouse genome.	1
74 bases do not align to the mouse genome.	1
75 bases at the 3' end do not align to the mouse genome.	1
602 bases at the 5' end do not align to the mouse genome.	1
8 bases in the mouse genome, CTTCTTTC, are not found in cDNA.	1
6 bases in the human genome, GTGCGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the mouse genome, AATT, are not found in cDNA.	1
5 bases in the mouse genome, CAGGA, are not found in cDNA.	1
116 bases in cDNA are not found in the mouse genome.	1
9 bases in the mouse genome, GAGTACTTT, are not found in cDNA.	1
7 bases in the mouse genome, TCCTCTC, are not found in cDNA.	1
6 bases in the mouse genome, GTGGAC, are not found in cDNA.	1
in the mouse genome : GATT.	1
93 bases at the 3' end do not align to the mouse genome.	1
5 bases in the mouse genome, GCCCC, are not found in cDNA.	1
in the mouse genome : ACCCCACCCCC.	1
424 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
8 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
353 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : TGAT.	1
124 bases at the 3' end do not align to the mouse genome.	1
286 bases at the 3' end do not align to the mouse genome.	1
5 bases in the mouse genome, TTCTC, are not found in cDNA.	1
in the mouse genome : GAGC.	1
in the mouse genome : TCAT.	1
in the mouse genome : GATG.	1
7 bases in the mouse genome, TGAGTTC, are not found in cDNA.	1
4 bases in the mouse genome, GGGG, are not found in cDNA.	1
8 bases in the mouse genome, TTGTTTAG, are not found in cDNA.	1
10 bases in the mouse genome, CTCACTGCTA, are not found in cDNA.	1
in the mouse genome : ATGC.	1
16 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
453 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the human genome, AGTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
257 bases at the 5' end do not align to the mouse genome.	1
277 bases at the 3' end do not align to the mouse genome.	1
175 bases at the 3' end do not align to the mouse genome.	1
843 bases at the 5' end do not align to the mouse genome.	1
28 bases do not align to the mouse genome.	1
6 bases in the mouse genome, AAAAGA, are not found in cDNA.	1
3 bases in the mouse genome, GTC, are not found in cDNA.	1
4 bases in the mouse genome, CACG, are not found in cDNA.	1
4 bases in the mouse genome, AAAG, are not found in cDNA.	1
440 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, AACAAA, are not found in cDNA.	1
6 bases in the mouse genome, ACTCCC, are not found in cDNA.	1
164 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 6 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
10 bases in the mouse genome, GTGTGTGTGT, are not found in cDNA.	1
5 bases in the mouse genome, TCCTC, are not found in cDNA.	1
3 bases in the mouse genome, TTA, are not found in cDNA.	1
20 bases in the mouse genome are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 58 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
117 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, CCTC, are not found in cDNA.	1
59 bases in cDNA are not found in the mouse genome.	1
in the mouse genome : AGA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
355 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
134 bases at the 5' end do not align to the mouse genome.	1
85 bases at the 3' end do not align to the mouse genome.	1
in the mouse genome : AGGG.	1
in the mouse genome : AGCA.	1
183 bases in cDNA are not found in the mouse genome.	1
10 bases in the mouse genome, AGCCTCTTCC, are not found in cDNA.	1
polyA tail: 184 bases do not align to the mouse genome.	1
9 bases in the mouse genome, ACATACAAG, are not found in cDNA.	1
polyA tail: 163 bases do not align to the mouse genome.	1
polyA tail: 161 bases do not align to the mouse genome.	1
polyA tail: 192 bases do not align to the mouse genome.	1
polyA tail: 139 bases do not align to the mouse genome.	1
polyA tail: 196 bases do not align to the mouse genome.	1
polyA tail: 197 bases do not align to the mouse genome.	1
polyA tail: 204 bases do not align to the mouse genome.	1
polyA tail: 164 bases do not align to the mouse genome.	1
595 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : AGT.	1
8 bases in the mouse genome, CAGATGGA, are not found in cDNA.	1
polyA tail: 50 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
26 bases in cDNA are not found in the mouse genome.	1
polyA tail: 31 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
2308 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 11 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
246 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the mouse genome, AGATGT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, AAA, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
21 bases in the mouse genome are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
93 bases at the 5' end do not align to the mouse genome.	1
6 bases in the mouse genome, TAAATA, are not found in cDNA.	1
polyA tail: 134 bases do not align to the mouse genome.	1
6 bases in the mouse genome, ATTATT, are not found in cDNA.	1
9 bases in the mouse genome, ATTATACCC, are not found in cDNA.	1
4 bases in the mouse genome, CTAA, are not found in cDNA.	1
207 bases at the 5' end do not align to the mouse genome.	1
7 bases in the mouse genome, CTCTTTA, are not found in cDNA.	1
28 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
22 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, TTC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
18 bases in the mouse genome are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
10 bases in the mouse genome, GGCATGTATG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 27 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GGGAAGA.	1
in the mouse genome : TGGGC.	1
931 bases at the 3' end do not align to the mouse genome.	1
134 bases in cDNA are not found in the mouse genome.	1
145 bases do not align to the mouse genome.	1
in the mouse genome : CGTG.	1
223 bases at the 3' end do not align to the mouse genome.	1
polyA tail: 41 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, CCCCC, are not found in cDNA.	1
1665 bases at the 5' end do not align to the mouse genome.	1
395 bases at the 3' end do not align to the mouse genome.	1
286 bases at the 3' end do not align to the human genome.	1
101 bases do not align to the mouse genome.	1
4 bases in the mouse genome, GCTC, are not found in cDNA.	1
232 bases at the 3' end do not align to the mouse genome.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'L' in cDNA, '*' in the mouse genome.	1
'A' in cDNA is 'C' in the mouse genome; amino acid difference: '*' in cDNA, 'C' in the mouse genome.	1
7 bases in the mouse genome, GTTCTCT, are not found in cDNA.	1
169 bases in cDNA are not found in the mouse genome.	1
148 bases at the 5' end do not align to the mouse genome.	1
8 bases in the mouse genome, TGCTCTCT, are not found in cDNA.	1
70 bases at the 5' end do not align to the mouse genome.	1
8 bases in the mouse genome, TTTCTCTT, are not found in cDNA.	1
251 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, GAAC, are not found in cDNA.	1
89 bases at the 3' end do not align to the mouse genome.	1
5 bases in the mouse genome, GATCT, are not found in cDNA.	1
699 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
152 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : TAC.	1
4 bases in the mouse genome, GGAT, are not found in cDNA.	1
in the mouse genome : TAAG.	1
235 bases do not align to the mouse genome.	1
333 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, GTGG, are not found in cDNA.	1
58 bases in cDNA are not found in the mouse genome.	1
3 bases in the mouse genome, ACT, are not found in cDNA.	1
143 bases do not align to the mouse genome.	1
in the mouse genome : TTAA.	1
in the mouse genome : TGGGCCA.	1
9 bases in the mouse genome, CCCACCCCT, are not found in cDNA.	1
in the mouse genome : CCTCC.	1
in the mouse genome : GAAGA.	1
610 bases at the 3' end do not align to the mouse genome.	1
7 bases in the mouse genome, ACAGACC, are not found in cDNA.	1
66 bases in cDNA are not found in the mouse genome.	1
40 bases in cDNA are not found in the mouse genome.	1
130 bases in cDNA are not found in the mouse genome.	1
52 bases do not align to the mouse genome.	1
620 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, TGAG, are not found in cDNA.	1
polyA tail: 206 bases do not align to the mouse genome.	1
108 bases at the 3' end do not align to the mouse genome.	1
46 bases in cDNA are not found in the mouse genome.	1
6 bases in the mouse genome, GCAGAG, are not found in cDNA.	1
294 bases at the 3' end do not align to the mouse genome.	1
44 bases in cDNA are not found in the mouse genome.	1
10 bases in the mouse genome, AGGTCTGCCT, are not found in cDNA.	1
in the mouse genome : AGAA.	1
6 bases in the mouse genome, TTGGTC, are not found in cDNA.	1
7 bases in the mouse genome, AAGTGCT, are not found in cDNA.	1
278 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, TCAT, are not found in cDNA.	1
5 bases in the mouse genome, ATTCT, are not found in cDNA.	1
350 bases at the 5' end do not align to the mouse genome.	1
367 bases at the 3' end do not align to the mouse genome.	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: '*' in cDNA, 'L' in the mouse genome.	1
42 bases do not align to the mouse genome.	1
56 bases do not align to the mouse genome.	1
112 bases in cDNA are not found in the mouse genome.	1
96 bases at the 5' end do not align to the mouse genome.	1
295 bases at the 3' end do not align to the mouse genome.	1
45 bases in cDNA are not found in the mouse genome.	1
77 bases in cDNA are not found in the mouse genome.	1
in the mouse genome : CATT.	1
136 bases at the 3' end do not align to the mouse genome.	1
222 bases at the 5' end do not align to the mouse genome.	1
5 bases in the mouse genome, CCAGG, are not found in cDNA.	1
polyA tail: 26 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
7 bases in the mouse genome, GTTTTTT, are not found in cDNA.	1
193 bases do not align to the mouse genome.	1
in the mouse genome : ATA.	1
in the mouse genome : GGGA.	1
in the mouse genome : GCTT.	1
in the mouse genome : CTTTG.	1
in the mouse genome : GGTT.	1
667 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
271 bases at the 5' end do not align to the mouse genome.	1
6 bases in the mouse genome, TATATA, are not found in cDNA.	1
255 bases at the 5' end do not align to the mouse genome.	1
in the mouse genome : GAGG.	1
in the mouse genome : CCGCC.	1
54 bases in cDNA are not found in the mouse genome.	1
4 bases in the mouse genome, TTTA, are not found in cDNA.	1
7 bases in the mouse genome, AGCCTCC, are not found in cDNA.	1
142 bases in cDNA are not found in the mouse genome.	1
239 bases at the 5' end do not align to the mouse genome.	1
6 bases in the mouse genome, GAAGAA, are not found in cDNA.	1
151 bases at the 5' end do not align to the mouse genome.	1
52 bases in cDNA are not found in the mouse genome.	1
160 bases in cDNA are not found in the mouse genome.	1
283 bases at the 5' end do not align to the mouse genome.	1
266 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, TGCC, are not found in cDNA.	1
140 bases do not align to the mouse genome.	1
19 bases do not align to the mouse genome.	1
185 bases do not align to the mouse genome.	1
7 bases in the mouse genome, TTAGAAC, are not found in cDNA.	1
3 bases in the mouse genome, TAT, are not found in cDNA.	1
in the mouse genome : CTGC.	1
in the mouse genome : CGGG.	1
283 bases do not align to the mouse genome.	1
5 bases in the mouse genome, CTTCT, are not found in cDNA.	1
10 bases in the mouse genome, GAAACCGCTC, are not found in cDNA.	1
1873 bases at the 3' end do not align to the mouse genome.	1
158 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, GACT, are not found in cDNA.	1
6 bases in the mouse genome, AAGGTG, are not found in cDNA.	1
in the mouse genome : TTCCC.	1
309 bases at the 5' end do not align to the mouse genome.	1
497 bases at the 5' end do not align to the mouse genome.	1
6 bases in the mouse genome, ATATAT, are not found in cDNA.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: '*' in cDNA, 'G' in the mouse genome.	1
510 bases at the 5' end do not align to the mouse genome.	1
in the mouse genome : TCCAT.	1
6 bases in the mouse genome, CCTCCC, are not found in cDNA.	1
580 bases at the 3' end do not align to the mouse genome.	1
2434 bases at the 3' end do not align to the mouse genome.	1
polyA tail: 132 bases do not align to the mouse genome.	1
polyA tail: 188 bases do not align to the mouse genome.	1
polyA tail: 198 bases do not align to the mouse genome.	1
polyA tail: 185 bases do not align to the mouse genome.	1
polyA tail: 201 bases do not align to the mouse genome.	1
274 bases at the 3' end do not align to the mouse genome.	1
in the mouse genome : CGTT.	1
94 bases at the 3' end do not align to the mouse genome.	1
8 bases in the mouse genome, GTTTGTTT, are not found in cDNA.	1
63 bases at the 3' end do not align to the mouse genome.	1
118 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, AGCT, are not found in cDNA.	1
13 bases do not align to the mouse genome.	1
404 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, TGGG, are not found in cDNA.	1
in the mouse genome : GAGT.	1
in the mouse genome : GGATAC.	1
21 bases at the 3' end do not align to the mouse genome.	1
6 bases in the mouse genome, CCGCCC, are not found in cDNA.	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, '*' in the mouse genome.	1
deleted	1
FVB/N mouse genomic DNA mouse ETFR-1 cDNA clone, pmETFR-1-9	1
mouse ETFR-1 cDNA clone, pmETFR-1-16	1
compared to NM_008173; CAG expansion; eight additional CAG triplets	1
sequence difference between two clones	1
splicing variation within a clone	1
sequence insertion within a clone	1
105 base pair deletion in clone PKI1.1	1
found in clone PKI7.1	1
Aside from wobble changes, this catalytic domain sequence has one codon change when compared to c-yes; putative	1
approximately 15% of cellular mRNAs contain this insert	1
sequence not present in L21711	1
extra C not present in L21711	1
gg in short clone lambda-mLRP-B20	1
deletion in variant clones	1
45 bp deletion occurs at position 430, relative to other clones	1
different from other clones (e.g. mov74).	1
Region from bp 346-429 is different in this clone than in other clones (e.g. HIT38).	1
deletion of 57 bp	1
deletion; cag	1
Alternate (aaa) sequence found in a shorter, 1.2KB cDNA clone ('4-...; 'aaa' in misc_difference	1
six bp insertion as compared to 'class A' calcium channel	1
5' sequence difference in clone No.3 (GenBank Accession Number U09417)	1
12 bp addition unique to RIP14beta	1
extends 5' sequence compared to Genbank Accession Number D15069; NCBI gi: 440379	1
PCC4 library cDNA clones contained 39 bases of putative partial intronic sequence; RT-PCR products from a murine myeloid precursor cell line did not contain this insert	1
differs from X53585 sequence (Rat kidney mRNA for hsp60); corresponds with bp 1065	1
differs from X53585 sequence (Rat kidney mRNA for hsp60); corresponds with bp 1356	1
differs from X53585 sequence (Rat kidney mRNA for hsp60); corresponds with bp 1531	1
D249-V mutant	1
K251-V mutant	1
P264-G mutant	1
D271-V mutant	1
G in clone 2	1
homeobox	1
CDR3	1
The sequence at this point differed between the two isolated clones; one had a C, while the other was an A, but this makes no diffence in the coded amino acid at this point.	1
compared to source sequence	1
synthetic site directed mutation to convert wild type valine to a methionine	1
inserted by site directed mutagenesis to fuse EGFP in frame with CFTR	1
wild type t changed to c in omr1-5; silent site-directed mutagenesis mutation which results in no amino acid change	1
wild type c changed to t in omr1-5; site-directed mutagenesis transition results in arginine in wild type changed to cysteine in omr1-5	1
wild type a changed to c in omr1-7; site-directed mutagenesis transversion results in glutamic acid in wild type changed to alanine in omr1-7	1
wild type a changed to t in omr1-8; site-directed mutagenesis transversion results in histidine in wild type changed to leucine in omr1-8	1
L49F	1
C82S	1
P144L	1
S145N	1
C161R	1
P169L	1
engineered silent mutations to a natural Esp3I site	1
engineered silent mutations in A/B fragment junction	1
engineered silent mutation in D/E fragment junction	1
engineered silent mutations to natural Esp31 site	1
engineered untranslated mutation adjacent to F/G fragment junction	1
engineered untranslated mutation in F/G fragment junction	1
untranslated change; present in pMH54	1
engineered silent mutations incorporated from pMH54 create AvrII site	1
engineered silent mutations incorporated from pMH54; remove a HindIII site near end of S ORF, create an AseI site	1
engineered untranslated change in pMH54 to introduce SbfI site 11 bp downstream of S gene	1
results in threonine to isoleucine substitution; incorporated from pMH54	1
potential glycosylation site eliminated by changing Asn to Gln	1
in clones CL15-2 and CL37-14; results in a premature stop codon to Trp amino acid translation	1
'' in misc_difference; Nucleotide is not present in citations 2 and 3.	1
'' in misc_difference; Nucleotide is not present in citation 2.	1
t in citation 1 and 2; c in citation 3.; 'c' in misc_difference	1
'at' in misc_difference; ta in citations 1 and 3; at in citation 2.	1
cg in citations 1, 2, and 3; correct CVB3-20 sequence is gc.; 'cg' in misc_difference	1
c in citations 1 and 2; t in citation 3.; 't' in misc_difference	1
c in citations 1 and 3; a in citation 2.; 'a' in misc_difference	1
a in citations 2 and 3.; 'a' in misc_difference	1
t in citations 1 and 3; at in citation 2.; 'at' in misc_difference	1
Nucleotide not present in citation 2.; '' in misc_difference	1
tct in citations 1 and 3; ctc in citation 2.; 'ctc' in misc_difference	1
'g' in misc_difference; g in citations 2 and 3.	1
g in citations 1 and 3; a in citation 2.; 'a' in misc_difference	1
g in citations 1 and 3; c in citation 2.; 'c' in misc_difference	1
't' in misc_difference; g in citations 1 and 3; t in citation 2.	1
't' in misc_difference; t in citations 2 and 3.	1
'a' in misc_difference; t in citations 1 and 3; a in citation 2.	1
'ag' in misc_difference; gt in citations 1 and 3; ag in citation 2.	1
'c' in misc_difference; t in citations 1 and 2; c in citation 3.	1
'cc' in misc_difference; tt in citations 1 and 3; cc in citation 2.	1
'' in misc_difference; t in citations 1 and 3; nucleotide not present in citation2.	1
'ac' in misc_difference; tt in citations 1 and 3; ac in citation 2.	1
'gg' in misc_difference; g in citations 1 and 2; gg in citation 3.	1
Four single base changes at 2593 (C to T), 2643 (deletion), 2771 (T to A) and 2775 (T to A) between this sequence and that of ref (1) are sufficient to permit transcripts of the former to systemically infect its host.	1
gnl\|Pfam\|pfam01820 Dala_Dala_ligas, D-ala D-ala ligase. D-alanine--D-alanine ligase enzymes (EC:6.3.2.4)domain	1
'G' in cDNA is 'C' in the Japanese quail cosmid DNA (Accecion No. AB259849). The amino acid not changed between cDNA and cosmid DNA	1
'A' in cDNA is 'C' in the Japanese quail cosmid DNA (Accecion No. AB259849). The amino acid not changed between cDNA and cosmid DNA	1
'G' in cDNA is 'A' in the Japanese quail cosmid DNA (Accecion No. AB259849). The amino acid not changed between cDNA and cosmid DNA	1
'T' in cDNA is 'A' in the Japanese quail cosmid DNA (Accecion No. AB259849). The amino acid not changed between cDNA and cosmid DNA	1
'C' in cDNA is 'T' in the Japanese quail cosmid DNA (Accecion No. AB259848). The amino acid differed 'Ala' in cDNA to 'Val' in cosmid DNA	1
'G' in cDNA is 'T' in the Japanese quail cosmid DNA (Accecion No. AB259848). The amino acid not changed between cDNA and cosmid DNA	1
'C' in cDNA is 'T' in the Japanese quail cosmid DNA (Accecion No. AB259848). The amino acid not changed between cDNA and cosmid DNA	1
'A' in cDNA is 'G' in the Japanese quail cosmid DNA (Accecion No. AB259848). The amino acid not changed between cDNA and cosmid DNA	1
'C' in cDNA is 'T' in the Japanese quail cosmid DNA (Accecion No. AB259848).The amino acid not changed between cDNA and cosmid DNA	1
'A' in cDNA is 'G' in the Japanese quail cosmid DNA (Accecion No. AB259848).The amino acid not changed between cDNA and cosmid DNA	1
'G' in cDNA is 'A' in the Japanese quail cosmid DNA (Accecion No. AB259847). The amino acid not changed between cDNA and cosmid DNA	1
'T' in cDNA is 'G' in the Japanese quail cosmid DNA (Accecion No. AB259847). The amino acid differed 'Asn' in cDNA to 'Lys' in cosmid DNA	1
'A' in cDNA is 'G' in the Japanese quail cosmid DNA (Accecion No. AB259847). The amino acid not changed between cDNA and cosmid DNA	1
'C' in cDNA is 'T' in the Japanese quail cosmid DNA (Accecion No. AB259847). The amino acid not changed between cDNA and cosmid DNA	1
Amino acid substitution from Asp to Glu	1
Amino acid substitution from Glu to Arg	1
Amino acid substitution from Thr to Ala	1
Amino acid substitution from Ala to Thr	1
Amino acid substitution from Leu to Ile	1
Amino acid substitution from Asn to Ser	1
chemically induced mutation	1
This sequence is missing in clone phrpA2-11 presumablybecause of alternative splicing.; '' in misc_difference	1
Tc1-like transposase with a 350 bp deletion	1
alternative C3 transcript has these bases deleted	1
used in the splice variant found in clones pBr3A and pBr64A; alternative exon encodes the transmembrane segment IIIS2; rare in the basilar papilla, abundant in the brain; see GenBank Accession Number AF027603	1
used in the splice variant found in clone pBr64B; alternative exon encodes the transmembrane segment IVS3; see GenBank Accession Number AF027604	1
used in splice variant found in clone pSE48/154-1; additional exon with 12 bases between nucleotides 5923 and 5924, which results in a premature stop codon	1
nucleotide sequence is absent in another XCENP-E cDNA	1
lamina associated protein 2-beta; LAP2; apparent deletion of single nucleotide relative to Genbank Accession Numbers AF048815 and AF048817 is located at a predicted exon-exon boundary and may therefore reflect an alternative splicing event	1
putative signal peptide; encodes unique 5' protein compared to the product encoded by GenBank Accession Number D13154	1
alternatively spliced	1
compared to allele sequence; results in aspartic acid to valine substitution	1
alanine to valine substitution compared to hemoglobin: Protein Research Foundation Accession Number 223744	1
encodes isoleucine in sequence deposited in GenBank Accession Number AY044336	1
compared to sequence deposited in GenBank Accession Number AY044336	1
alternative codon	1
possibly caused by random priming; results in lysine to glutamic acid substitution	1
possibly caused by random priming	1
may result in splice variant	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'C' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
84 bases at the 3' end do not align to the human genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
57 bases at the 5' end do not align to the human genome.	1
36 bases do not align to the human genome.	1
130 bases do not align to the human genome.	1
377 bases at the 5' end do not align to the mouse genome.	1
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'Y' in cDNA, 'H' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, TGT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
5 bases in the mouse genome, ATGCG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
537 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'K' in cDNA, '*' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
141 bases at the 3' end do not align to the human genome.	1
6 bases in the mouse genome, AAGGTC, are not found in cDNA.	1
10 bases in the mouse genome, TTGATGTACC, are not found in cDNA.	1
44 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
597 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, ACT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, TGCG, are not found in cDNA.	1
4 bases in the human genome, AACA, are not found in cDNA.	1
4 bases in the human genome, CTTA, are not found in cDNA.	1
5 bases in the human genome, CTCTC, are not found in cDNA.	1
8 bases in the human genome, TTTTTTTT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
6 bases in the human genome, TGCTGG, are not found in cDNA.	1
10 bases in the mouse genome, GGCTTTGGAC, are not found in cDNA.	1
in the human genome : TGAGC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
271 bases at the 3' end do not align to the mouse genome.	1
20 bases in cDNA are not found in the human genome.	1
280 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
polyA tail: 71 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : TTCGG.	1
12 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'K' in cDNA, 'E' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'A' in cDNA, 'V' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'D' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'D' in cDNA, 'N' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
12 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
17 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
6 bases in the human genome, CTGATA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, GTG, are not found in cDNA.	1
5 bases in the human genome, TTGTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'I' in cDNA, 'R' in the mouse genome.	1
polyA tail: 169 bases do not align to the mouse genome.	1
polyA tail: 155 bases do not align to the human genome.	1
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'W' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'V' in cDNA, 'L' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'V' in cDNA, 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : ATGTG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the human genome, GAA, are not found in cDNA.	1
207 bases at the 3' end do not align to the human genome.	1
5 bases in the mouse genome, CTCTG, are not found in cDNA.	1
6 bases in the mouse genome, TAGCAA, are not found in cDNA.	1
7 bases in the mouse genome, TTCATGA, are not found in cDNA.	1
4 bases in the mouse genome, CACC, are not found in cDNA.	1
6 bases in the human genome, ATCATT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
302 bases at the 5' end do not align to the human genome.	1
82 bases do not align to the human genome.	1
in the human genome : TTTCCT.	1
in the human genome : TTGCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, CAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
259 bases at the 5' end do not align to the human genome.	1
8 bases in the human genome, TGTTTGTT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
120 bases at the 5' end do not align to the human genome.	1
6 bases in the human genome, CTTTCT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, CAGGCCGC, are not found in cDNA.	1
562 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
241 bases do not align to the mouse genome.	1
3 bases in the human genome, GCC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
865 bases at the 5' end do not align to the human genome.	1
92 bases at the 5' end do not align to the mouse genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'W' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
Region absent in other clone from same library; no loss of function.	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'R' in cDNA, 'S' in the mouse genome.	1
3 bases in the human genome, GTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
154 bases do not align to the human genome.	1
101 bases at the 5' end do not align to the mouse genome.	1
379 bases at the 3' end do not align to the mouse genome.	1
mutation in attL2 site	1
mutation in linker at the 5' end of the ORF	1
4 bases in the human genome, ATTA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'K' in cDNA, 'N' in the mouse genome.	1
8 bases in the mouse genome, TCTAGTTT, are not found in cDNA.	1
121 bases at the 5' end do not align to the mouse genome.	1
'A' in cDNA is 'G' in the human genome; amino acid difference: 'I' in cDNA, 'M' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
6 bases in the human genome, GCTCCA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the mouse genome : CCTCA.	1
'A' in cDNA is 'C' in the mouse genome; amino acid difference: '*' in cDNA, 'S' in the mouse genome.	1
3 bases in the mouse genome, CGG, are not found in cDNA.	1
6 bases in the mouse genome, CACACA, are not found in cDNA.	1
'G' in cDNA is 'T' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'G' in cDNA, 'E' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
934 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, CTGG, are not found in cDNA.	1
'T' in cDNA is 'C' in the human genome; amino acid difference: 'I' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'L' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
339 bases at the 5' end do not align to the human genome.	1
polyA tail: 204 bases do not align to the human genome.	1
'C' in cDNA is 'G' in the human genome; amino acid difference: 'Q' in cDNA, 'E' in the human genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'S' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'Q' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the mouse genome, TCGCCCGC, are not found in cDNA.	1
391 bases at the 3' end do not align to the human genome.	1
6 bases in the mouse genome, TTTTTA, are not found in cDNA.	1
6 bases in the human genome, GCAGCA, are not found in cDNA.	1
79 bases at the 3' end do not align to the human genome.	1
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'F' in cDNA, 'S' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'E' in cDNA, 'G' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'D' in cDNA, 'E' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'T' in cDNA, 'N' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'H' in cDNA, 'N' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
7 bases in the mouse genome, TGGGAAG, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, ATAA, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
684 bases at the 3' end do not align to the mouse genome.	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'Y' in cDNA, '*' in the mouse genome.	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'L' in cDNA, 'F' in the mouse genome.	1
in the mouse genome : CAGT.	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'Q' in cDNA, 'H' in the mouse genome.	1
340 bases at the 3' end do not align to the mouse genome.	1
compared to Homo sapiens ITGA5; results in asn to asp	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'I' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the mouse genome, CACATGAA, are not found in cDNA.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'I' in cDNA, 'K' in the human genome.	1
'G' in cDNA is 'C' in the human genome; amino acid difference: '*' in cDNA, 'Y' in the human genome.	1
3 bases in the human genome, AAG, are not found in cDNA.	1
polyA tail: 137 bases do not align to the mouse genome.	1
in the mouse genome : ATTC.	1
in the human genome : TAA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GGAGA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : CAA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GGGA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'C' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TTTC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : TTTCT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the mouse genome : CTCC.	1
8 bases in the mouse genome, GCAGGGCA, are not found in cDNA.	1
10 bases in the mouse genome, TCACACACAC, are not found in cDNA.	1
'A' in cDNA is 'G' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
15 bases in cDNA are not found in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
3 bases in cDNA are not found in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
4 bases in the human genome, CAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
269 bases do not align to the human genome.	1
in the human genome : CGTG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
185 bases at the 3' end do not align to the mouse genome.	1
246 bases at the 3' end do not align to the human genome.	1
7 bases in the human genome, TTTAAGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
740 bases at the 5' end do not align to the human genome.	1
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'I' in cDNA, 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
1438 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
624 bases at the 5' end do not align to the mouse genome.	1
408 bases at the 5' end do not align to the human genome.	1
8 bases in the human genome, GCGAGATC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
126 bases in cDNA are not found in the mouse genome.	1
polyA tail: 177 bases do not align to the mouse genome.	1
624 bases at the 3' end do not align to the mouse genome.	1
polyA tail: 135 bases do not align to the mouse genome.	1
478 bases at the 3' end do not align to the mouse genome.	1
820 bases at the 5' end do not align to the human genome.	1
141 bases do not align to the human genome.	1
132 bases do not align to the human genome.	1
in the human genome : CTTGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
157 bases do not align to the mouse genome.	1
in the mouse genome : GGCG.	1
1497 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
18 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
10 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
95 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
1064 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, GATA, are not found in cDNA.	1
5 bases in the mouse genome, TGGGT, are not found in cDNA.	1
4 bases in the mouse genome, ACAG, are not found in cDNA.	1
9 bases in the mouse genome, GAAACACTT, are not found in cDNA.	1
5 bases in the mouse genome, GAGTA, are not found in cDNA.	1
6 bases in the human genome, TCTTGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : ACTC.	1
9 bases in the mouse genome, TTTTTTTTT, are not found in cDNA.	1
313 bases in cDNA are not found in the mouse genome.	1
391 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, ATCT, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
833 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, CGA, are not found in cDNA.	1
in the human genome : GCTG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : AGAGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : AAGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
6 bases in the human genome, CGCGGG, are not found in cDNA.	1
254 bases at the 3' end do not align to the mouse genome.	1
17 bases in the mouse genome are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, TGGA, are not found in cDNA.	1
223 bases at the 5' end do not align to the mouse genome.	1
10 bases in the mouse genome, CTGGTTTTGT, are not found in cDNA.	1
417 bases at the 5' end do not align to the mouse genome.	1
863 bases at the 3' end do not align to the mouse genome.	1
1928 bases at the 5' end do not align to the mouse genome.	1
317 bases at the 5' end do not align to the mouse genome.	1
214 bases at the 5' end do not align to the human genome.	1
'T' in cDNA is 'C' in the human genome; amino acid difference: 'V' in cDNA, 'A' in the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
polyA tail: 11 bases do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
1268 bases at the 3' end do not align to the human genome.	1
101 bases at the 5' end do not align to the human genome.	1
in the human genome : GCAT. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : CCTGCCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
329 bases at the 3' end do not align to the human genome.	1
364 bases at the 5' end do not align to the human genome.	1
217 bases at the 3' end do not align to the human genome.	1
97 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
181 bases do not align to the mouse genome.	1
in the mouse genome : CTTT.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'I' in cDNA, 'S' in the mouse genome.	1
17 bases in the human genome are not found in cDNA.	1
379 bases at the 5' end do not align to the mouse genome.	1
126 bases do not align to the mouse genome.	1
in the mouse genome : TGAAA.	1
in the mouse genome : CCTT.	1
1546 bases at the 5' end do not align to the mouse genome.	1
136 bases in cDNA are not found in the human genome.	1
in the human genome : GGGC.	1
391 bases at the 5' end do not align to the human genome.	1
polyA tail: 137 bases do not align to the human genome.	1
1062 bases at the 5' end do not align to the mouse genome.	1
2172 bases at the 5' end do not align to the mouse genome.	1
333 bases at the 5' end do not align to the human genome.	1
in the human genome : GGA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
35 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the mouse genome, GCGA, are not found in cDNA.	1
9 bases in the mouse genome, CCCTCCCCG, are not found in cDNA.	1
496 bases at the 3' end do not align to the mouse genome.	1
5 bases in the mouse genome, CATGT, are not found in cDNA.	1
6 bases in the mouse genome, CTTTGC, are not found in cDNA.	1
156 bases at the 5' end do not align to the mouse genome.	1
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'G' in cDNA, 'D' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'T' in the mouse genome; amino acid difference: 'S' in cDNA, 'L' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'G' in the mouse genome; amino acid difference: '*' in cDNA, 'W' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
160 bases at the 5' end do not align to the mouse genome.	1
10 bases in the mouse genome, TTTTTTTTTT, are not found in cDNA.	1
771 bases at the 5' end do not align to the mouse genome.	1
297 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, TATC, are not found in cDNA.	1
617 bases at the 3' end do not align to the mouse genome.	1
719 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
2657 bases at the 3' end do not align to the human genome.	1
88 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
694 bases at the 3' end do not align to the human genome.	1
712 bases at the 3' end do not align to the human genome.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'E' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
311 bases at the 5' end do not align to the human genome.	1
613 bases at the 5' end do not align to the mouse genome.	1
4 bases in the mouse genome, TCCT, are not found in cDNA.	1
6 bases in the human genome, CTTTGT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
527 bases at the 5' end do not align to the mouse genome.	1
2201 bases at the 3' end do not align to the mouse genome.	1
145 bases at the 5' end do not align to the mouse genome.	1
762 bases at the 3' end do not align to the human genome.	1
428 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, TACT, are not found in cDNA.	1
1189 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, ATAAT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
794 bases at the 3' end do not align to the human genome.	1
228 bases at the 5' end do not align to the human genome.	1
258 bases at the 5' end do not align to the mouse genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
464 bases at the 5' end do not align to the mouse genome.	1
613 bases at the 5' end do not align to the human genome.	1
342 bases at the 5' end do not align to the mouse genome.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'K' in cDNA, 'I' in the mouse genome.	1
474 bases at the 3' end do not align to the mouse genome.	1
'A' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, 'C' in the human genome.	1
4 bases in the human genome, GCCC, are not found in cDNA.	1
1748 bases at the 3' end do not align to the human genome.	1
1544 bases do not align to the human genome.	1
10 bases in the human genome, CCACTGAGGG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
21 bases in the human genome are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
8 bases in the human genome, ATAAATAA, are not found in cDNA.	1
8 bases in the human genome, ATGGTGCT, are not found in cDNA.	1
113 bases at the 5' end do not align to the human genome.	1
171 bases at the 5' end do not align to the human genome.	1
1128 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
4 bases in the human genome, GATT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
996 bases at the 5' end do not align to the human genome.	1
1172 bases at the 5' end do not align to the human genome.	1
5 bases in the human genome, TTTAT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
292 bases at the 5' end do not align to the human genome.	1
330 bases at the 5' end do not align to the mouse genome.	1
2956 bases at the 3' end do not align to the human genome.	1
120 bases at the 3' end do not align to the human genome.	1
45 bases do not align to the mouse genome.	1
160 bases do not align to the mouse genome.	1
425 bases at the 5' end do not align to the mouse genome.	1
920 bases at the 3' end do not align to the mouse genome.	1
300 bases do not align to the human genome.	1
8 bases in the mouse genome, ATATACTG, are not found in cDNA.	1
5 bases in the mouse genome, TGTTT, are not found in cDNA.	1
287 bases at the 5' end do not align to the mouse genome.	1
3 bases in the human genome, CGG, are not found in cDNA.	1
186 bases at the 3' end do not align to the human genome.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
polyA tail: 19 bases do not align to the human genome; Differences found between this sequence and the human reference genome (build 35) are described in misc_difference features below	1
8 bases in the mouse genome, GGGAAGAC, are not found in cDNA.	1
725 bases at the 5' end do not align to the human genome.	1
571 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
29 bases do not align to the mouse genome.	1
31 bases in cDNA are not found in the human genome.	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'S' in the mouse genome.	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'E' in cDNA, '*' in the mouse genome.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'W' in cDNA, 'G' in the mouse genome.	1
4 bases in the human genome, GGGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
9 bases in the human genome, GGCGGCGGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the mouse genome, GTAG, are not found in cDNA.	1
5 bases in the human genome, AACTT, are not found in cDNA.	1
4 bases in the human genome, GCCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
29 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the mouse genome : ATGA.	1
'T' in cDNA is 'C' in the human genome; amino acid difference: 'C' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the mouse genome, ACTA, are not found in cDNA.	1
in the human genome : TTCT.	1
494 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GGAG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : ACC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
73 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
8 bases in the human genome, TGTGTGTG, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'T' in cDNA is 'C' in the human genome; amino acid difference: 'F' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'L' in cDNA, 'W' in the mouse genome.	1
4 bases in the mouse genome, TTCG, are not found in cDNA.	1
70 bases do not align to the mouse genome.	1
in the mouse genome : GACC.	1
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'F' in cDNA, 'L' in the mouse genome.	1
9 bases in the human genome, TTTTTTTTT, are not found in cDNA.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'Y' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
24 bases do not align to the mouse genome.	1
4 bases in the mouse genome, CTCA, are not found in cDNA.	1
89 bases in cDNA are not found in the mouse genome.	1
3 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
31 bases in cDNA are not found in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the human genome, TCC, are not found in cDNA.	1
114 bases at the 5' end do not align to the mouse genome.	1
446 bases at the 3' end do not align to the mouse genome.	1
in genomic DNA	1
in the human genome : AGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, CTCT, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
22 bases in cDNA are not found in the human genome.	1
'T' in cDNA is 'C' in the human genome; amino acid difference: 'M' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
88 bases at the 5' end do not align to the mouse genome.	1
5 bases in the mouse genome, AGAGT, are not found in cDNA.	1
5 bases in the mouse genome, TGTAA, are not found in cDNA.	1
4 bases in the mouse genome, GGTT, are not found in cDNA.	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'L' in cDNA, 'F' in the mouse genome.	1
3 bases in the human genome, TGC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
8 bases in the human genome, GAAAGAAA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
8 bases in the human genome, GTGTGTGT, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
4 bases in the human genome, GTCG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'I' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
9 bases in the human genome, AAGAAGAAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the mouse genome : ATCG.	1
3 bases in the human genome, GGA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'G' in cDNA is 'C' in the human genome; amino acid difference: 'W' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
7 bases in the human genome, AAAAAAA, are not found in cDNA.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'V' in cDNA, 'F' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
44 bases in cDNA are not found in the human genome.	1
8 bases in the human genome, ACTTTTTC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
641 bases at the 3' end do not align to the human genome.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Y' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
compared to other densin sequences	1
compared to other densin sequences; results in term to Gln substitution	1
compared to other densin sequences; results in Arg to Cys substitution	1
compared to other densin sequences; results in Arg to Lys substitution	1
compared to other densin sequences; results in Thr to Met substitution	1
compared to NM_112032.1	1
Tyr158Cys	1
290 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GGC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
79 bases at the 5' end do not align to the mouse genome.	1
7 bases in the mouse genome, CAGAGCT, are not found in cDNA.	1
353 bases at the 5' end do not align to the mouse genome.	1
94 bases at the 5' end do not align to the mouse genome.	1
357 bases at the 5' end do not align to the mouse genome.	1
4 bases in the human genome, TGAT, are not found in cDNA.	1
polyA tail: 77 bases do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
7 bases in the mouse genome, TGTGGCA, are not found in cDNA.	1
176 bases at the 5' end do not align to the human genome.	1
polyA tail: 78 bases do not align to the genome; Differences found between this sequence and the human genome (build 34) are described in misc_difference features below	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'A' in cDNA, 'D' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
2 bases in the mouse genome, TA, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
825 bases at the 3' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'M' in the human genome.	1
10 bases in the mouse genome, CGTGCGTGTG, are not found in cDNA.	1
polyA tail: 173 bases do not align to the mouse genome.	1
polyA tail: 149 bases do not align to the human genome.	1
135 bases in cDNA are not found in the mouse genome.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'C' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the mouse genome, GGCA, are not found in cDNA.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, '*' in the human genome.	1
240 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'M' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'V' in cDNA, 'A' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'G' in the mouse genome; amino acid difference: 'H' in cDNA, 'R' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the human genome : ATCG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
225 bases at the 5' end do not align to the mouse genome.	1
polyA tail: 167 bases do not align to the mouse genome.	1
14 bases do not align to the mouse genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'L' in cDNA, 'I' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
4 bases in the mouse genome, CCCC, are not found in cDNA.	1
96 bases do not align to the mouse genome.	1
'T' in cDNA is 'G' in the mouse genome; amino acid difference: 'Y' in cDNA, '*' in the mouse genome.	1
'G' in cDNA is 'C' in the human genome; amino acid difference: 'R' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
47 bases at the 3' end do not align to the human genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'A' in cDNA, 'E' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
200 bases in cDNA are not found in the mouse genome.	1
35 bases in cDNA are not found in the mouse genome.	1
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'W' in cDNA, 'R' in the mouse genome.	1
polyA tail: 151 bases do not align to the mouse genome.	1
1194 bases at the 3' end do not align to the mouse genome.	1
268 bases do not align to the mouse genome.	1
443 bases do not align to the mouse genome.	1
194 bases do not align to the mouse genome.	1
224 bases do not align to the mouse genome.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'T' in cDNA, 'P' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the mouse genome, GCG, are not found in cDNA.	1
20 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
456 bases at the 5' end do not align to the mouse genome.	1
6 bases in the mouse genome, TGCAAG, are not found in cDNA.	1
6 bases in the mouse genome, AGGAGG, are not found in cDNA.	1
98 bases in cDNA are not found in the human genome.	1
3 bases in the human genome, CCC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
5 bases in the human genome, AAATA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
54 bases at the 3' end do not align to the human genome.	1
416 bases at the 5' end do not align to the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'C' in the mouse genome; amino acid difference: 'I' in cDNA, 'L' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'V' in cDNA, 'L' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'S' in cDNA, 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'G' in cDNA, 'V' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : CAC; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
3 bases in the mouse genome, AAC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : CAT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'T' in the mouse genome; no amino acid change; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'L' in cDNA, 'H' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'T' in cDNA is 'C' in the mouse genome; amino acid difference: 'S' in cDNA, 'P' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'Q' in cDNA, 'E' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'V' in cDNA, 'F' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'T' in cDNA, 'S' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'A' in the mouse genome; amino acid difference: 'M' in cDNA, 'I' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'D' in cDNA, 'E' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : GCT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'E' in cDNA, 'D' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : CGT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'C' in cDNA is 'A' in the mouse genome; amino acid difference: 'P' in cDNA, 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : AAAG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : CTT; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'Y' in cDNA, 'F' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'G' in cDNA is 'C' in the mouse genome; amino acid difference: 'S' in cDNA, 'T' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'F' in cDNA, 'I' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'T' in the mouse genome; amino acid difference: 'T' in cDNA, 'S' in the mouse genome; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
in the mouse genome : TGG; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
28 bases in cDNA are not found in the human genome.	1
5 bases in the human genome, TATTA, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'K' in cDNA, 'T' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, CGC, are not found in cDNA.	1
in the mouse genome : ACACAC.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'D' in cDNA, 'E' in the human genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'C' in the human genome; amino acid difference: 'W' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
205 bases do not align to the mouse genome.	1
in the mouse genome : CTGGA.	1
'C' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'S' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'M' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
3 bases in the human genome, ATC, are not found in cDNA. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
319 bases do not align to the human genome.	1
10 bases do not align to the human genome.	1
4 bases in the human genome, TCTC, are not found in cDNA.	1
27 bases at the 3' end do not align to the mouse genome.	1
6 bases in the mouse genome, ACGCAC, are not found in cDNA.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
18 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'W' in cDNA, 'L' in the mouse genome.	1
2 bases in the mouse genome, GC, are not found in cDNA; Differences found between this sequence and the mouse C57BL/6J genome (build 33) are described in misc_difference features below	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'D' in cDNA, 'V' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
360 bases at the 5' end do not align to the mouse genome.	1
339 bases at the 3' end do not align to the mouse genome.	1
4 bases in the mouse genome, GAAA, are not found in cDNA.	1
445 bases at the 5' end do not align to the mouse genome.	1
34 bases at the 3' end do not align to the mouse genome.	1
in the human genome : TAT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
393 bases at the 5' end do not align to the mouse genome.	1
'T' in cDNA is 'A' in the mouse genome; amino acid difference: 'M' in cDNA, 'K' in the mouse genome.	1
in the mouse genome : GATA.	1
in the mouse genome : TACCT.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome.	1
437 bases at the 5' end do not align to the mouse genome.	1
in the human genome : CACA.	1
in the human genome : TAC.	1
553 bases at the 5' end do not align to the human genome.	1
in the human genome : CTA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'G' in cDNA is 'A' in the human genome; amino acid difference: 'C' in cDNA, 'Y' in the human genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'N' in cDNA, 'K' in the human genome.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'M' in cDNA, 'R' in the human genome.	1
23 bases in cDNA are not found in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'I' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
346 bases at the 5' end do not align to the mouse genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'W' in cDNA, 'C' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : AGTT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
405 bases at the 5' end do not align to the mouse genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'F' in cDNA, 'L' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
polyA tail: 28 bases do not align to the genome; Differences found between this sequence and the human genome (build 34) are described in misc_difference features below	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'G' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GGGGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
7 bases in the human genome, TCCCCCC, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
455 bases at the 5' end do not align to the mouse genome.	1
polyA tail: 144 bases do not align to the mouse genome.	1
'G' in cDNA is 'C' in the human genome; amino acid difference: 'C' in cDNA, 'S' in the human genome.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'V' in cDNA, 'D' in the human genome.	1
in the human genome : ACACCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
3 bases in the human genome, TGA, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : TCC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
polyA tail: 171 bases do not align to the human genome.	1
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'W' in the human genome.	1
3 bases in the human genome, CCG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : CCAC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'L' in cDNA, 'F' in the human genome.	1
polyA tail: 159 bases do not align to the human genome.	1
in the human genome : GCTGT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'Y' in cDNA, '*' in the human genome.	1
in the human genome : TCT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'C' in cDNA is 'G' in the human genome; amino acid difference: 'S' in cDNA, 'W' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : ACAC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : TGG. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GGCA.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'H' in cDNA, 'Q' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : ACACA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : GGGG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : TACA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : GGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'S' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
in the human genome : AAG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
in the human genome : CAGC. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'W' in the human genome.	1
in the human genome : ATT. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'G' in cDNA is 'T' in the human genome; amino acid difference: 'R' in cDNA, 'S' in the human genome.	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'L' in cDNA, 'F' in the mouse genome.	1
388 bases at the 5' end do not align to the mouse genome.	1
354 bases at the 5' end do not align to the mouse genome.	1
366 bases at the 5' end do not align to the mouse genome.	1
polyA tail: 181 bases do not align to the human genome.	1
'C' in cDNA is 'A' in the human genome; amino acid difference: 'C' in cDNA, '*' in the human genome.	1
'G' in cDNA is 'T' in the mouse genome; amino acid difference: 'R' in cDNA, 'L' in the mouse genome.	1
'T' in cDNA is 'G' in the human genome; amino acid difference: 'Y' in cDNA, '*' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
387 bases at the 5' end do not align to the mouse genome.	1
'T' in cDNA is 'A' in the human genome; amino acid difference: 'I' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
386 bases at the 5' end do not align to the mouse genome.	1
'A' in cDNA is 'C' in the human genome; amino acid difference: 'Q' in cDNA, 'H' in the human genome.	1
in the human genome : ATTG. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'C' in cDNA is 'G' in the human genome; amino acid difference: 'H' in cDNA, 'D' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'C' in cDNA is 'G' in the human genome; amino acid difference: 'T' in cDNA, 'R' in the human genome. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
'A' in cDNA is 'T' in the human genome; amino acid difference: 'K' in cDNA, 'N' in the human genome. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1
'C' in cDNA is 'G' in the mouse genome; amino acid difference: 'S' in cDNA, 'W' in the mouse genome.	1
6 bases in the human genome, AGAGAG, are not found in cDNA. The chimpanzee genome agrees with the cDNA sequence, suggesting that this difference is unlikely to be due to an artifact.	1
compared to NM_123467.2; silent mutation	1
15 bp deletion compared to NM_124558.1	1
15 bp deletion compared to NM_125330.1	1
compared to NM_100105.1	1
This substitution causes an amino acid substitution from Lys to Glu.; compared to NM_100235.3; mutation	1
99 bp deletion compared to NM_100626.2	1
compared to NM_100735.3	1
compared to NM_100983.4	1
compared to NM_102852.2	1
compared to NM_103658.2; silent mutation	1
108 bp deletion compared to NM_105473.1	1
compared to NM_129298.2; silent mutation	1
compared to NM_129862.2; silent mutation	1
compared to NM_114966.2; silent mutation	1
79 bp deletion and 85 bp insertion compared to NM_115228.1	1
compared to NM_115511.1	1
compared to NM_115574.2; silent mutation	1
compared to NM_116384.3; silent mutation	1
silent mutation	1
44 bp deletion compared to NM_117578.2	1
34 bp insertion and 94 bp deletion compared to NM_117578.2	1
42 bp deletion and 207 bp insertion compared to NM_117578.2	1
This substitution causes an amino acid substitution from Lys to Arg.; compared to NM_117682.2; mutation	1
compared to NM_118003.2; silent mutation	1
compared to NM_119113.3; silent mutation	1
compared to NM_120594.1; silent mutation	1
221 bases at the 5' end do not align to the mouse genome.	1
147 bases at the 3' end do not align to the mouse genome.	1
in the human genome : AGCAC. The chimpanzee genome agrees with the human genomic sequence and not the cDNA.	1