Information

Transcript ID: ENST00000367851.9
Genome: hg19
Position: chr1:167,778,623-167,883,372
Strand: -
CDS length: 4,833
Amino acid length: 1,611
Gene symbol: ADCY10
Gene type: protein-coding
Gene description: adenylate cyclase 10
Gene Entrez Gene ID: 55811

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
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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
33	167,778,623	167,779,076
32	167,779,962	167,780,150
31	167,787,310	167,787,505
30	167,791,262	167,791,379
29	167,792,246	167,792,361
28	167,793,714	167,793,810
27	167,793,889	167,794,093
26	167,798,505	167,798,661
25	167,802,225	167,802,400
24	167,803,208	167,803,315
23	167,805,547	167,805,778
22	167,806,487	167,806,556
21	167,814,801	167,815,091
20	167,815,223	167,815,501
19	167,817,599	167,817,727
18	167,823,591	167,823,727
17	167,825,403	167,825,677
16	167,829,045	167,829,131
15	167,830,109	167,830,301
14	167,839,495	167,839,648
13	167,844,369	167,844,424
12	167,847,684	167,847,873
11	167,849,353	167,849,429
10	167,849,729	167,849,847
9	167,852,675	167,852,866
8	167,863,091	167,863,179
7	167,865,833	167,865,929
6	167,868,661	167,868,866
5	167,870,900	167,871,043
4	167,871,254	167,871,292
3	167,873,125	167,873,229
2	167,874,231	167,874,436
1	167,883,214	167,883,372

CDS

Exon number	Type	Start	Stop
33	CDS	167,778,915	167,779,076
32	CDS	167,779,962	167,780,150
31	CDS	167,787,310	167,787,505
30	CDS	167,791,262	167,791,379
29	CDS	167,792,246	167,792,361
28	CDS	167,793,714	167,793,810
27	CDS	167,793,889	167,794,093
26	CDS	167,798,505	167,798,661
25	CDS	167,802,225	167,802,400
24	CDS	167,803,208	167,803,315
23	CDS	167,805,547	167,805,778
22	CDS	167,806,487	167,806,556
21	CDS	167,814,801	167,815,091
20	CDS	167,815,223	167,815,501
19	CDS	167,817,599	167,817,727
18	CDS	167,823,591	167,823,727
17	CDS	167,825,403	167,825,677
16	CDS	167,829,045	167,829,131
15	CDS	167,830,109	167,830,301
14	CDS	167,839,495	167,839,648
13	CDS	167,844,369	167,844,424
12	CDS	167,847,684	167,847,873
11	CDS	167,849,353	167,849,429
10	CDS	167,849,729	167,849,847
9	CDS	167,852,675	167,852,866
8	CDS	167,863,091	167,863,179
7	CDS	167,865,833	167,865,929
6	CDS	167,868,661	167,868,866
5	CDS	167,870,900	167,871,043
4	CDS	167,871,254	167,871,292
3	CDS	167,873,125	167,873,229
2	CDS	167,874,231	167,874,378

Other genome

Genome	Chromosome	Start	End	Links
hg38	chr1	167,809,386	167,914,134	Link

CDS sequence

ATGAACACTCCAAAAGAAGAATTCCAGGACTGGCCCATAGTCAGAATAGCAGCTCATTTACCAGACCTCATTGTCTATGGACATTTCTCCCCAGAGCGACCCTTTATGGATTATTTTGACGGAGTCCTGATGTTTGTTGATATTTCAGGTTTTACTGCAATGACTGAGAAGTTCAGCAGTGCCATGTACATGGACAGAGGGGCTGAGCAGTTGGTGGAGATCCTCAACTACCACATAAGTGCAATAGTGGAGAAAGTGTTGATTTTTGGAGGAGACATCCTGAAATTTGCAGGTGATGCACTGCTAGCCCTGTGGAGGGTGGAGCGAAAGCAGCTGAAAAACATTATCACAGTGGTAATTAAATGTAGCCTGGAGATCCATGGATTGTTTGAGACCCAGGAGTGGGAAGAAGGCCTAGACATCCGAGTCAAGATAGGACTGGCTGCTGGCCACATCAGCATGTTGGTCTTTGGAGATGAAACACACAGCCACTTTCTGGTGATTGGTCAGGCAGTGGACGATGTGCGCCTTGCCCAGAACATGGCTCAGATGAATGATGTTATTCTGTCACCAAACTGCTGGCAGCTCTGTGACCGGAGCATGATTGAAATTGAGAGTGTTCCAGATCAGAGAGCAGTTAAGGTTAACTTCTTAAAACCACCCCCCAATTTTAATTTTGATGAATTTTTCACAAAGTGTACGACCTTCATGCATTATTATCCTTCTGGTGAGCACAAAAACCTCCTGAGGCTTGCATGCACGCTGAAGCCTGATCCTGAACTGGAGATGTCCCTACAAAAGTATGTGATGGAAAGCATTTTGAAGCAGATTGATAACAAACAGCTTCAGGGCTATTTATCTGAGCTTCGCCCAGTGACGATTGTGTTTGTGAACCTGATGTTTGAAGACCAAGACAAAGCAGAAGAGATAGGCCCAGCCATCCAGGATGCCTATATGCACATCACTTCTGTCCTGAAGATCTTCCAAGGCCAAATCAATAAAGTCTTCATGTTTGACAAGGGCTGCTCTTTCCTCTGTGTCTTTGGCTTCCCTGGGGAAAAGGTACCTGACGAGCTCACTCATGCTCTGGAATGTGCTATGGATATATTTGACTTCTGCTCTCAAGTCCACAAAATCCAAACTGTATCCATCGGTGTTGCCAGTGGGATTGTCTTCTGTGGGATCGTTGGACACACTGTGAGACACGAGTACACAGTCATTGGTCAAAAAGTCAACTTAGCTGCCAGGATGATGATGTACTACCCAGGAATTGTGACCTGCGACTCTGTCACCTACAATGGGAGCAACCTACCAGCGTACTTTTTTAAAGAGCTTCCAAAGAAAGTTATGAAAGGTGTTGCAGATTCTGGACCATTGTATCAGTATTGGGGCCGTACTGAGAAAGTCATGTTTGGTATGGCGTGCCTCATCTGCAACAGAAAGGAGGATTACCCTTTGCTGGGACGTAATAAAGAGATCAACTACTTCATGTATACTATGAAGAAATTTTTGATATCTAACAGCAGCCAAGTCTTAATGTATGAGGGATTACCAGGATATGGAAAAAGCCAGATACTTATGAAAATTGAGTACCTGGCCCAAGGTAAGAATCACAGGATTATTGCCATTTCATTGAATAAGATCAGCTTCCATCAAACTTTCTATACCATCCAGATGTTCATGGCCAATGTCCTAGGCCTAGACACTTGTAAACATTATAAAGAACGACAGACCAACCTTCGAAATAAAGTCATGACACTGTTGGATGAAAAGTTCTACTGTCTTCTTAATGACATTTTCCATGTTCAGTTCCCTATTTCTCGGGAGATTTCCAGGATGAGCACCTTGAAAAAGCAAAAACAATTGGAAATATTGTTTATGAAGATCTTGAAGCTGATAGTGAAAGAGGAAAGGATTATTTTTATCATTGATGAGGCCCAGTTTGTGGATTCGACCTCCTGGAGATTTATGGAGAAGCTTATCCGGACTCTTCCTATCTTCATCATTATGTCCCTGTGTCCCTTCGTTAACATTCCCTGTGCAGCTGCCAGGGCCGTAATAAAGAACAGGAACACCACCTACATTGTCATTGGTGCAGTACAGCCTAACGACATCTCCAACAAGATCTGTCTTGACCTCAATGTGAGCTGCATCTCCAAAGAACTGGACTCGTACCTGGGGGAGGGAAGCTGTGGGATTCCATTTTACTGTGAAGAATTGCTTAAAAACCTGGAACATCATGAGGTACTCGTTTTCCAACAAACGGAGTCTGAGGAAAAGACAAATAGGACCTGGAATAACCTGTTCAAGTATTCCATTAAGCTAACAGAGAAGTTAAACATGGTTACTCTCCATAGTGATAAGGAAAGTGAAGAAGTCTGTCACCTCACAAGTGGTGTCAGACTGAAAAACCTGTCACCTCCAACGTCATTAAAAGAAATCTCTCTGATCCAGCTGGATAGCATGAGACTTTCCCACCAAATGCTGGTGAGATGTGCTGCCATCATTGGCCTGACCTTCACCACTGAGTTGTTGTTTGAGATTCTCCCCTGTTGGAATATGAAGATGATGATCAAGACCCTGGCAACCCTAGTGGAATCTAACATTTTTTATTGTTTCCGGAATGGCAAGGAGCTTCAAAAGGCCCTGAAACAGAATGATCCCTCATTTGAGGTGCACTATCGTTCCTTGTCTCTGAAGCCCAGTGAAGGGATGGATCACGGTGAAGAGGAACAGCTTCGTGAACTGGAGAATGAGGTGATCGAGTGCCACAGGATTCGATTCTGTAACCCTATGATGCAGAAAACAGCCTACGAGCTGTGGCTCAAGGACCAGAGAAAAGCCATGCACTTGAAATGTGCCCGCTTTTTAGAAGAAGATGCCCACAGATGTGACCACTGCCGAGGCAGGGACTTCATTCCCTATCATCACTTCACAGTGAATATTCGGCTCAACGCTTTAGACATGGATGCCATTAAAAAGATGGCTATGTCTCATGGATTTAAAACTGAAGAAAAGCTTATCTTGTCCAACTCAGAGATTCCTGAGACATCTGCATTTTTTCCTGAAAATCGCAGTCCTGAAGAAATAAGAGAAAAGATCTTGAATTTCTTTGACCACGTTTTAACAAAAATGAAGACATCTGACGAAGACATTATCCCTCTGGAATCTTGCCAGTGTGAAGAAATCCTAGAGATTGTCATCTTGCCTCTGGCCCACCATTTTCTGGCTTTGGGAGAAAATGACAAAGCCTTATATTACTTCTTAGAAATTGCATCTGCTTATCTCATCTTTTGTGATAACTACATGGCATACATGTATTTGAATGAAGGACAGAAGTTGCTAAAAACTCTCAAGAAGGACAAATCTTGGAGCCAGACATTTGAGTCTGCCACCTTTTACAGCCTCAAAGGTGAGGTCTGTTTCAATATGGGCCAGATAGTGCTTGCCAAGAAAATGCTGAGGAAGGCACTGAAGCTCCTCAACCGAATCTTTCCTTACAACTTAATCTCCTTGTTTCTCCATATCCATGTCGAGAAAAACAGACACTTTCATTATGTGAATCGGCAGGCCCAAGAGAGCCCACCTCCAGGGAAGAAGAGGCTGGCACAACTTTACCGGCAAACTGTCTGCCTTTCCTTGCTGTGGCGCATCTATAGCTACAGTTATCTTTTTCACTGCAAGTATTATGCCCACCTGGCAGTTATGATGCAAATGAATACTGCACTGGAAACTCAAAATTGTTTCCAGATCATTAAGGCTTACCTAGACTATTCGCTATACCACCACCTGGCTGGCTACAAAGGTGTGTGGTTCAAATATGAAGTCATGGCCATGGAGCACATCTTCAACCTCCCCCTGAAAGGCGAGGGCATTGAAATCGTGGCATACGTGGCTGAGACACTGGTCTTCAACAAGCTCATAATGGGACACCTGGATTTGGCCATTGAGTTAGGCTCCCGAGCCCTTCAGATGTGGGCACTGCTCCAGAATCCCAACCGACATTATCAGTCCCTCTGCAGACTTAGCAGATGTCTCCTTCTGAACAGCAGATACCCGCAATTGATCCAGGTGCTGGGGCGGCTGTGGGAGCTTTCTGTAACACAGGAACACATCTTCAGCAAGGCATTTTTCTATTTTGTCTGCTTGGACATCCTGCTTTATTCTGGTTTTGTTTATAGAACATTTGAAGAATGTTTGGAATTCATACACCAATACGAAAACAACAGAATCCTCAAGTTCCACAGTGGACTCCTCCTGGGACTTTATTCCTCTGTAGCTATCTGGTATGCCAGACTTCAGGAATGGGACAACTTTTACAAATTTTCCAATAGAGCTAAAAATCTTTTGCCAAGAAGAACCATGACACTTACTTACTATGACGGAATATCTAGGTACATGGAGGGGCAAGTTCTTCACCTTCAAAAACAAATCAAAGAACAGTCAGAGAATGCCCAAGCCAGTGGGGAGGAGCTACTCAAGAACTTGGAGAATCTGGTGGCTCAAAATACCACTGGCCCTGTCTTTTGCCCAAGGCTCTACCACCTGATGGCTTACGTCTGTATATTAATGGGAGATGGGCAGAAATGTGGCCTCTTCCTGAACACAGCCTTGCGGCTCTCTGAAACACAGGGGAATATACTGGAGAAATGCTGGCTGAACATGAACAAAGAATCATGGTACTCAACCTCTGAGTTAAAAGAAGACCAATGGCTTCAGACGATCTTGAGTCTCCCATCATGGGAAAAAATTGTAGCAGGCAGGGTAAACATTCAGGATCTTCAAAAAAACAAATTCCTGATGAGAGCTAATACCGTGGACAATCATTTCTAA

Amino sequence

MNTPKEEFQDWPIVRIAAHLPDLIVYGHFSPERPFMDYFDGVLMFVDISGFTAMTEKFSSAMYMDRGAEQLVEILNYHISAIVEKVLIFGGDILKFAGDALLALWRVERKQLKNIITVVIKCSLEIHGLFETQEWEEGLDIRVKIGLAAGHISMLVFGDETHSHFLVIGQAVDDVRLAQNMAQMNDVILSPNCWQLCDRSMIEIESVPDQRAVKVNFLKPPPNFNFDEFFTKCTTFMHYYPSGEHKNLLRLACTLKPDPELEMSLQKYVMESILKQIDNKQLQGYLSELRPVTIVFVNLMFEDQDKAEEIGPAIQDAYMHITSVLKIFQGQINKVFMFDKGCSFLCVFGFPGEKVPDELTHALECAMDIFDFCSQVHKIQTVSIGVASGIVFCGIVGHTVRHEYTVIGQKVNLAARMMMYYPGIVTCDSVTYNGSNLPAYFFKELPKKVMKGVADSGPLYQYWGRTEKVMFGMACLICNRKEDYPLLGRNKEINYFMYTMKKFLISNSSQVLMYEGLPGYGKSQILMKIEYLAQGKNHRIIAISLNKISFHQTFYTIQMFMANVLGLDTCKHYKERQTNLRNKVMTLLDEKFYCLLNDIFHVQFPISREISRMSTLKKQKQLEILFMKILKLIVKEERIIFIIDEAQFVDSTSWRFMEKLIRTLPIFIIMSLCPFVNIPCAAARAVIKNRNTTYIVIGAVQPNDISNKICLDLNVSCISKELDSYLGEGSCGIPFYCEELLKNLEHHEVLVFQQTESEEKTNRTWNNLFKYSIKLTEKLNMVTLHSDKESEEVCHLTSGVRLKNLSPPTSLKEISLIQLDSMRLSHQMLVRCAAIIGLTFTTELLFEILPCWNMKMMIKTLATLVESNIFYCFRNGKELQKALKQNDPSFEVHYRSLSLKPSEGMDHGEEEQLRELENEVIECHRIRFCNPMMQKTAYELWLKDQRKAMHLKCARFLEEDAHRCDHCRGRDFIPYHHFTVNIRLNALDMDAIKKMAMSHGFKTEEKLILSNSEIPETSAFFPENRSPEEIREKILNFFDHVLTKMKTSDEDIIPLESCQCEEILEIVILPLAHHFLALGENDKALYYFLEIASAYLIFCDNYMAYMYLNEGQKLLKTLKKDKSWSQTFESATFYSLKGEVCFNMGQIVLAKKMLRKALKLLNRIFPYNLISLFLHIHVEKNRHFHYVNRQAQESPPPGKKRLAQLYRQTVCLSLLWRIYSYSYLFHCKYYAHLAVMMQMNTALETQNCFQIIKAYLDYSLYHHLAGYKGVWFKYEVMAMEHIFNLPLKGEGIEIVAYVAETLVFNKLIMGHLDLAIELGSRALQMWALLQNPNRHYQSLCRLSRCLLLNSRYPQLIQVLGRLWELSVTQEHIFSKAFFYFVCLDILLYSGFVYRTFEECLEFIHQYENNRILKFHSGLLLGLYSSVAIWYARLQEWDNFYKFSNRAKNLLPRRTMTLTYYDGISRYMEGQVLHLQKQIKEQSENAQASGEELLKNLENLVAQNTTGPVFCPRLYHLMAYVCILMGDGQKCGLFLNTALRLSETQGNILEKCWLNMNKESWYSTSELKEDQWLQTILSLPSWEKIVAGRVNIQDLQKNKFLMRANTVDNHF*

ENST00000367851.9 ADCY10

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