Information

Transcript ID: ENST00000269080.6
Genome: hg38
Position: chr17:68,867,292-68,955,351
Strand: -
CDS length: 4,746
Amino acid length: 1,582
Gene symbol: ABCA8
Gene type: protein-coding
Gene description: ATP binding cassette subfamily A member 8
Gene Entrez Gene ID: 10351

Variants

Display target variant

MGeND data only All data

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Target data	:	MGeND data only
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Variant name	Gene	AA change	CDS	Japanese frequency	TogoVar	MGeND				Genome	ClinVar			CIViC evidence	DisGeNET entry	COSMIC occurrence	Prediction
Variant name	Gene	AA change	CDS	Japanese frequency	TogoVar	Entry	Origin	Type	Annotation	Genome	Entry	Origin	Annotation	CIViC evidence	DisGeNET entry	COSMIC occurrence	Prediction

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Target data	:	MGeND data only
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Name	MGeND				Type	Genome	Size	Chromosome	Start	Stop	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry
Name	Entry	Origin	Type	Annotation	Type	Genome	Size	Chromosome	Start	Stop	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry

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Target data	:	MGeND data only
Category	:
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Name	MGeND				Type	Genome	Gene symbol	Chromosome	Genomic start	Genomic stop	Strand	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry
Name	Entry	Origin	Type	Annotation	Type	Genome	Gene symbol	Chromosome	Genomic start	Genomic stop	Strand	Ref	Alt	ClinVar	Origin	Entry	CIViC evidence	DisGeNET entry

Exon

Exon number	Start	Stop
38	68,867,292	68,868,183
37	68,868,301	68,868,356
36	68,869,700	68,869,779
35	68,875,260	68,875,400
34	68,875,614	68,875,733
33	68,876,460	68,876,554
32	68,876,628	68,876,703
31	68,877,519	68,877,679
30	68,881,120	68,881,211
29	68,881,863	68,881,980
28	68,882,599	68,882,719
27	68,883,791	68,883,882
26	68,884,331	68,884,396
25	68,885,196	68,885,315
24	68,887,017	68,887,130
23	68,887,336	68,887,506
22	68,891,489	68,891,596
21	68,894,173	68,894,310
20	68,894,880	68,895,013
19	68,902,713	68,902,879
18	68,903,301	68,903,499
17	68,906,044	68,906,163
16	68,907,740	68,907,879
15	68,917,361	68,917,451
14	68,918,047	68,918,185
13	68,919,301	68,919,476
12	68,921,382	68,921,492
11	68,922,242	68,922,300
10	68,924,701	68,924,869
9	68,927,916	68,928,063
8	68,929,049	68,929,234
7	68,929,561	68,929,702
6	68,932,288	68,932,514
5	68,933,168	68,933,271
4	68,936,951	68,937,115
3	68,940,758	68,940,962
2	68,941,939	68,942,039
1	68,955,219	68,955,351

CDS

Exon number	Type	Start	Stop
38	CDS	68,868,085	68,868,183
37	CDS	68,868,301	68,868,356
36	CDS	68,869,700	68,869,779
35	CDS	68,875,260	68,875,400
34	CDS	68,875,614	68,875,733
33	CDS	68,876,460	68,876,554
32	CDS	68,876,628	68,876,703
31	CDS	68,877,519	68,877,679
30	CDS	68,881,120	68,881,211
29	CDS	68,881,863	68,881,980
28	CDS	68,882,599	68,882,719
27	CDS	68,883,791	68,883,882
26	CDS	68,884,331	68,884,396
25	CDS	68,885,196	68,885,315
24	CDS	68,887,017	68,887,130
23	CDS	68,887,336	68,887,506
22	CDS	68,891,489	68,891,596
21	CDS	68,894,173	68,894,310
20	CDS	68,894,880	68,895,013
19	CDS	68,902,713	68,902,879
18	CDS	68,903,301	68,903,499
17	CDS	68,906,044	68,906,163
16	CDS	68,907,740	68,907,879
15	CDS	68,917,361	68,917,451
14	CDS	68,918,047	68,918,185
13	CDS	68,919,301	68,919,476
12	CDS	68,921,382	68,921,492
11	CDS	68,922,242	68,922,300
10	CDS	68,924,701	68,924,869
9	CDS	68,927,916	68,928,063
8	CDS	68,929,049	68,929,234
7	CDS	68,929,561	68,929,702
6	CDS	68,932,288	68,932,514
5	CDS	68,933,168	68,933,271
4	CDS	68,936,951	68,937,115
3	CDS	68,940,758	68,940,962
2	CDS	68,941,939	68,942,034

Other genome

Genome	Chromosome	Start	End	Links
hg19	chr17	66,863,433	66,951,492	Link

CDS sequence

ATGAGGAAGAGAAAGATCAGTGTGTGTCAACAAACTTGGGCCTTATTATGCAAGAACTTTCTTAAAAAATGGAGAATGAAAAGAGAGTCCTTAATGGAATGGCTGAATTCATTGCTCCTACTACTTTGTTTGTATATATATCCTCATAGTCATCAAGTAAATGATTTTTCTTCACTGCTTACCATGGACCTGGGACGGGTAGATACATTTAATGAATCCAGATTTTCTGTTGTATACACACCTGTCACCAACACGACCCAACAGATAATGAATAAAGTAGCCTCTACTCCCTTCCTGGCAGGTAAAGAGGTCTTGGGACTGCCAGATGAGGAAAGTATTAAAGAATTCACAGCAAATTATCCTGAAGAAATAGTAAGAGTCACCTTTACTAATACATACTCATATCATTTGAAGTTCTTGCTAGGACATGGAATGCCAGCAAAGAAGGAGCACAAGGACCATACAGCTCATTGTTATGAAACAAATGAAGATGTTTACTGTGAAGTTTCAGTATTTTGGAAGGAAGGTTTTGTGGCTCTTCAAGCTGCCATTAATGCTGCTATTATAGAAATCACAACAAATCACTCAGTGATGGAGGAGCTGATGTCAGTTACTGGAAAAAATATGAAGATGCATTCCTTCATTGGTCAATCAGGAGTTATAACTGATTTGTACCTTTTTTCCTGCATTATTTCATTTTCCTCATTCATTTACTATGCATCTGTTAATGTCACAAGAGAGAGGAAAAGGATGAAGGCCTTGATGACAATGATGGGTCTTCGGGATTCAGCGTTCTGGCTCTCCTGGGGTTTGCTCTATGCTGGTTTCATCTTCATTATGGCCCTTTTCTTGGCACTTGTTATAAGATCTACCCAGTTTATCATTTTGTCTGGCTTCATGGTAGTCTTCAGCCTCTTTCTCCTGTATGGATTATCTTTGGTAGCTTTGGCTTTCTTAATGAGCATCTTGGTAAAGAAATCTTTCCTCACCGGCCTGGTCGTGTTCCTCCTCACTGTCTTTTGGGGGTGTCTGGGGTTCACATCACTGTACAGACACCTTCCTGCATCCTTGGAGTGGATTTTAAGCTTGCTTAGTCCCTTTGCCTTCATGCTTGGAATGGCCCAGCTTTTACACTTGGACTATGATTTGAATTCTAATGCATTTCCTCATCCATCGGACGGCTCAAATCTCATTGTAGCAACAAATTTCATGTTGGCATTTGACACTTGCCTCTATCTGGCATTGGCGATTTACTTTGAAAAAATTTTGCCAAATGAATATGGACATCGACGTCCACCTTTGTTTTTCCTGAAGTCCTCATTTTGGTCTCAAACACAAAAGACTGATCACGTGGCCCTTGAAGATGAAATGGATGCCGATCCTTCATTTCATGACTCTTTTGAACAAGCGCCTCCAGAATTCCAAGGGAAAGAAGCCATCAGAATCAGAAATGTTACAAAAGAATATAAAGGAAAGCCTGATAAAATAGAAGCCTTGAAAGATCTGGTATTTGACATTTACGAAGGCCAAATCACTGCAATACTTGGTCACAGTGGAGCTGGAAAGTCAACACTGCTAAACATTCTTAGTGGGTTGTCTGTTCCCACCAAAGGTTCAGTCACCATCTATAACAATAAGCTTTCAGAAATGGCTGACCTAGAAAATCTCAGCAAGCTGACCGGAGTTTGTCCACAATCCAATGTGCAATTTGACTTCCTCACTGTAAGAGAAAACCTCAGACTCTTTGCTAAAATAAAAGGGATTCTGCCACAAGAAGTGGATAAAGAGATTTTCCTGTTGGATGAACCAACTGCTGGATTGGATCCCTTTTCAAGACACCAAGTATGGAACCTTCTGAAAGAACGCAAAACAGACCGCGTGATCCTCTTCAGTACCCAGTTCATGGATGAGGCCGACATCCTGGCGGACAGGAAAGTATTTCTCTCCCAAGGGAAGCTAAAGTGCGCGGGCTCTTCTTTGTTTCTAAAGAAGAAATGGGGGATTGGATATCACTTAAGCTTGCAGTTAAATGAAATATGTGTTGAGGAAAACATAACATCACTTGTTAAACAGCACATCCCTGATGCCAAATTATCAGCCAAAAGCGAAGGAAAACTTATTTATACATTACCCTTAGAAAGAACAAATAAATTTCCAGAACTTTACAAGGATCTTGATAGCTATCCTGACCTAGGAATTGAGAATTATGGTGTTTCCATGACAACTTTGAATGAAGTATTCCTGAAGCTAGAAGGAAAATCTACAATTAATGAATCGGACATTGCTATTTTGGGAGAAGTACAAGCGGAAAAAGCTGACGACACTGAAAGGCTTGTTGAGATGGAACAAGTCCTCTCTTCACTTAACAAGATGAGAAAGACAATAGGTGGTGTGGCTCTCTGGCGACAGCAAATCTGCGCAATTGCAAGGGTTCGCTTGTTAAAGTTAAAGCATGAAAGAAAAGCTCTTTTAGCACTGCTATTAATTCTAATGGCTGGATTTTGCCCTCTTCTTGTGGAGTATACCATGGTGAAAATATATCAAAACAGTTACACCTGGGAACTTTCTCCTCATTTGTATTTCCTTGCTCCTGGACAACAACCACATGACCCTCTCACTCAACTACTGATCATCAATAAAACAGGGGCAAGCATTGATGACTTTATACAGTCTGTGGAGCACCAGAACATAGCTTTAGAAGTGGATGCATTTGGAACTAGAAATGGCACAGATGACCCATCTTATAATGGAGCCATCACAGTGTGTTGTAATGAAAAGAATTACAGCTTTTCGTTAGCATGCAATGCCAAAAGATTGAATTGCTTCCCAGTTCTTATGGACATTGTTAGTAATGGGCTACTTGGAATGGTTAAACCATCAGTACATATCCGAACTGAAAGAAGTACATTTTTGGAGAATGGACAGGACAATCCAATCGGATTCCTGGCATATATCATGTTCTGGCTGGTTTTAACATCGAGTTGCCCACCTTACATTGCCATGAGCAGCATCGATGATTATAAGAACAGAGCTCGGTCCCAGCTACGGATTTCCGGACTCTCCCCTTCTGCTTACTGGTTTGGGCAGGCGCTGGTGGATGTTTCCCTGTACTTCTTGGTCTTCGTTTTTATATATTTAATGAGCTACATTTCAAACTTCGAAGACATGCTACTTACAATAATTCATATTATTCAAATCCCATGTGCTGTTGGTTATTCCTTTTCCCTCATCTTCATGACATACGTGATTTCCTTCATCTTTCGCAAGGGGAGAAAAAATAGTGGCATTTGGTCATTTTGTTTCTATGTTGTCACTGTATTCTCTGTGGCTGGATTTGCGTTCAGTATCTTCGAAAGTGATATTCCATTTATCTTCACTTTTTTAATACCACCTGCCACAATGATTGGCTGTTTGTTCTTATCTTCTCATCTTCTCTTTTCTTCTCTCTTTTCTGAAGAACGAATGGATGTACAGCCATTTCTGGTATTCCTAATTCCTTTCCTTCATTTTATCATTTTTCTTTTTACTCTTCGATGTCTGGAATGGAAGTTTGGAAAGAAATCAATGAGAAAGGATCCTTTCTTTAGAATTTCTCCAAGAAGTAGTGATGTGTGTCAAAATCCAGAAGAACCAGAAGGAGAGGATGAAGATGTTCAGATGGAAAGAGTGAGAACAGCAAATGCCTTGAATTCTACTAATTTTGATGAGAAGCCAGTCATCATTGCCAGCTGTCTACGCAAGGAGTATGCAGGGAAGAGGAAAGGCTGTTTTTCCAAGAGGAAGAATAAGATAGCCACGAGAAATGTCTCCTTCTGTGTTAGAAAAGGTGAAGTTTTAGGATTATTAGGACACAATGGAGCTGGTAAAAGCACATCCATTAAGGTGATAACTGGAGACACAAAACCAACTGCTGGACAAGTGCTACTGAAAGGGAGCGGTGGAGGGGATGCCCTGGAGTTCCTGGGGTACTGCCCTCAGGAGAACGCGCTGTGGCCCAACCTGACAGTGAGGCAGCACCTGGAGGTGTACGCCGCCGTGAAAGGGCTGAGGAAAGGGGATGCTGAGGTTGCCATCACACGGTTAGTGGATGCGCTCAAGCTGCAGGACCAGCTGAAGTCTCCCGTGAAGACCTTGTCAGAGGGAATAAAGAGAAAGCTGTGCTTTGTCCTGAGCATACTGGGGAACCCGTCAGTGGTGCTTCTGGATGAGCCGTCGACCGGGATGGACCCCGAGGGGCAGCAGCAAATGTGGCAGGCCATCCGGGCCACCTTTAGAAACACGGAAAGGGGTGCCCTCCTAACCACCCACTACATGGCAGAGGCTGAGGCCGTGTGTGACCGAGTGGCCATCATGGTATCTGGGAGGTTGAGATGTATCGGTTCCATCCAACACCTGAAAAGCAAATTTGGCAAAGATTACCTGCTGGAGATGAAGGTGAAGAACCTGGCACAAGTGGAGCCCCTCCATGCAGAGATCCTGAGGCTTTTCCCCCAGGCTGCTCGGCAGGAAAGGTACTCCTCTCTGATGGTTTATAAGTTGCCAGTGGAAGATGTGCAACCTTTAGCCCAAGCTTTCTTCAAATTAGAGAAGGTTAAACAGAGCTTTGACCTAGAGGAGTACAGCCTCTCACAGTCTACCCTGGAGCAGGTTTTCCTGGAGCTCTCCAAGGAGCAGGAGCTGGGTGATTTTGAGGAGGATTTTGATCCCTCAGTGAAGTGGAAGCTCCTCCCCCAGGAAGAGCCTTAA

Amino sequence

MRKRKISVCQQTWALLCKNFLKKWRMKRESLMEWLNSLLLLLCLYIYPHSHQVNDFSSLLTMDLGRVDTFNESRFSVVYTPVTNTTQQIMNKVASTPFLAGKEVLGLPDEESIKEFTANYPEEIVRVTFTNTYSYHLKFLLGHGMPAKKEHKDHTAHCYETNEDVYCEVSVFWKEGFVALQAAINAAIIEITTNHSVMEELMSVTGKNMKMHSFIGQSGVITDLYLFSCIISFSSFIYYASVNVTRERKRMKALMTMMGLRDSAFWLSWGLLYAGFIFIMALFLALVIRSTQFIILSGFMVVFSLFLLYGLSLVALAFLMSILVKKSFLTGLVVFLLTVFWGCLGFTSLYRHLPASLEWILSLLSPFAFMLGMAQLLHLDYDLNSNAFPHPSDGSNLIVATNFMLAFDTCLYLALAIYFEKILPNEYGHRRPPLFFLKSSFWSQTQKTDHVALEDEMDADPSFHDSFEQAPPEFQGKEAIRIRNVTKEYKGKPDKIEALKDLVFDIYEGQITAILGHSGAGKSTLLNILSGLSVPTKGSVTIYNNKLSEMADLENLSKLTGVCPQSNVQFDFLTVRENLRLFAKIKGILPQEVDKEIFLLDEPTAGLDPFSRHQVWNLLKERKTDRVILFSTQFMDEADILADRKVFLSQGKLKCAGSSLFLKKKWGIGYHLSLQLNEICVEENITSLVKQHIPDAKLSAKSEGKLIYTLPLERTNKFPELYKDLDSYPDLGIENYGVSMTTLNEVFLKLEGKSTINESDIAILGEVQAEKADDTERLVEMEQVLSSLNKMRKTIGGVALWRQQICAIARVRLLKLKHERKALLALLLILMAGFCPLLVEYTMVKIYQNSYTWELSPHLYFLAPGQQPHDPLTQLLIINKTGASIDDFIQSVEHQNIALEVDAFGTRNGTDDPSYNGAITVCCNEKNYSFSLACNAKRLNCFPVLMDIVSNGLLGMVKPSVHIRTERSTFLENGQDNPIGFLAYIMFWLVLTSSCPPYIAMSSIDDYKNRARSQLRISGLSPSAYWFGQALVDVSLYFLVFVFIYLMSYISNFEDMLLTIIHIIQIPCAVGYSFSLIFMTYVISFIFRKGRKNSGIWSFCFYVVTVFSVAGFAFSIFESDIPFIFTFLIPPATMIGCLFLSSHLLFSSLFSEERMDVQPFLVFLIPFLHFIIFLFTLRCLEWKFGKKSMRKDPFFRISPRSSDVCQNPEEPEGEDEDVQMERVRTANALNSTNFDEKPVIIASCLRKEYAGKRKGCFSKRKNKIATRNVSFCVRKGEVLGLLGHNGAGKSTSIKVITGDTKPTAGQVLLKGSGGGDALEFLGYCPQENALWPNLTVRQHLEVYAAVKGLRKGDAEVAITRLVDALKLQDQLKSPVKTLSEGIKRKLCFVLSILGNPSVVLLDEPSTGMDPEGQQQMWQAIRATFRNTERGALLTTHYMAEAEAVCDRVAIMVSGRLRCIGSIQHLKSKFGKDYLLEMKVKNLAQVEPLHAEILRLFPQAARQERYSSLMVYKLPVEDVQPLAQAFFKLEKVKQSFDLEEYSLSQSTLEQVFLELSKEQELGDFEEDFDPSVKWKLLPQEEP*

ENST00000269080.6 ABCA8

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