ENST00000340370.10 DOCK7

Information
Transcript ID
ENST00000340370.10
Genome
hg38
Position
chr1:62,455,013-62,688,264
Strand
-
CDS length
6,330
Amino acid length
2,110
Gene symbol
DOCK7
Gene type
protein-coding
Gene description
dedicator of cytokinesis 7
Gene Entrez Gene ID
85440
Variants

Display target variant


Search Word
Target data :
MGeND data only
Category :
Search word :
Filtering :
Variant name Gene AA change CDS Japanese
frequency		 TogoVar MGeND Genome ClinVar CIViC evidence DisGeNET entry COSMIC
occurrence		 Prediction
Entry Origin Type Annotation Entry Origin Annotation
Search Word
Target data :
MGeND data only
Category :
Search word :
Filtering :
Name MGeND Type Genome Size Chromosome Start Stop Ref Alt ClinVar Origin Entry CIViC evidence DisGeNET entry
Entry Origin Type Annotation
Search Word
Target data :
MGeND data only
Category :
Search word :
Filtering :
Name MGeND Type Genome Gene symbol Chromosome Genomic start Genomic stop Strand Ref Alt ClinVar Origin Entry CIViC evidence DisGeNET entry
Entry Origin Type Annotation
Exon
Exon number Start Stop
49 62,455,013 62,455,456
48 62,457,538 62,457,705
47 62,473,982 62,474,088
46 62,475,208 62,475,351
45 62,475,707 62,475,943
44 62,476,067 62,476,156
43 62,477,700 62,477,825
42 62,487,398 62,487,412
41 62,488,934 62,489,065
40 62,492,704 62,492,847
39 62,494,275 62,494,467
38 62,495,581 62,495,681
37 62,496,339 62,496,497
36 62,504,630 62,504,782
35 62,505,682 62,505,816
34 62,507,962 62,508,058
33 62,510,577 62,510,673
32 62,513,444 62,513,606
31 62,513,716 62,513,898
30 62,528,151 62,528,305
29 62,529,277 62,529,446
28 62,535,493 62,535,632
27 62,537,891 62,538,061
26 62,539,545 62,539,658
25 62,539,752 62,539,892
24 62,542,608 62,542,703
23 62,543,656 62,543,745
22 62,552,732 62,552,901
21 62,555,825 62,555,989
20 62,558,989 62,559,220
19 62,561,617 62,561,703
18 62,577,262 62,577,363
17 62,578,828 62,578,966
16 62,583,184 62,583,254
15 62,586,507 62,586,624
14 62,618,706 62,618,868
13 62,619,900 62,619,993
12 62,625,259 62,625,401
11 62,631,240 62,631,405
10 62,633,498 62,633,578
9 62,634,773 62,634,922
8 62,636,537 62,636,603
7 62,647,691 62,647,776
6 62,648,106 62,648,318
5 62,648,415 62,648,544
4 62,653,725 62,653,793
3 62,653,984 62,654,159
2 62,663,025 62,663,130
1 62,688,227 62,688,264
CDS
Exon number Type Start Stop
49 CDS 62,455,414 62,455,456
48 CDS 62,457,538 62,457,705
47 CDS 62,473,982 62,474,088
46 CDS 62,475,208 62,475,351
45 CDS 62,475,707 62,475,943
44 CDS 62,476,067 62,476,156
43 CDS 62,477,700 62,477,825
42 CDS 62,487,398 62,487,412
41 CDS 62,488,934 62,489,065
40 CDS 62,492,704 62,492,847
39 CDS 62,494,275 62,494,467
38 CDS 62,495,581 62,495,681
37 CDS 62,496,339 62,496,497
36 CDS 62,504,630 62,504,782
35 CDS 62,505,682 62,505,816
34 CDS 62,507,962 62,508,058
33 CDS 62,510,577 62,510,673
32 CDS 62,513,444 62,513,606
31 CDS 62,513,716 62,513,898
30 CDS 62,528,151 62,528,305
29 CDS 62,529,277 62,529,446
28 CDS 62,535,493 62,535,632
27 CDS 62,537,891 62,538,061
26 CDS 62,539,545 62,539,658
25 CDS 62,539,752 62,539,892
24 CDS 62,542,608 62,542,703
23 CDS 62,543,656 62,543,745
22 CDS 62,552,732 62,552,901
21 CDS 62,555,825 62,555,989
20 CDS 62,558,989 62,559,220
19 CDS 62,561,617 62,561,703
18 CDS 62,577,262 62,577,363
17 CDS 62,578,828 62,578,966
16 CDS 62,583,184 62,583,254
15 CDS 62,586,507 62,586,624
14 CDS 62,618,706 62,618,868
13 CDS 62,619,900 62,619,993
12 CDS 62,625,259 62,625,401
11 CDS 62,631,240 62,631,405
10 CDS 62,633,498 62,633,578
9 CDS 62,634,773 62,634,922
8 CDS 62,636,537 62,636,603
7 CDS 62,647,691 62,647,776
6 CDS 62,648,106 62,648,318
5 CDS 62,648,415 62,648,544
4 CDS 62,653,725 62,653,793
3 CDS 62,653,984 62,654,159
2 CDS 62,663,025 62,663,130
1 CDS 62,688,227 62,688,264
Other genome
Genome Chromosome Start End Links
hg19 chr1 62,920,684 63,153,935 Link
CDS sequence
ATGGCCGAGCGCCGCGCCTTCGCCCAGAAGATCAGCAGAACGGTGGCAGCCGAAGTTAGGAAGCAGATCTCCGGACAATATAGTGGTTCTCCCCAACTGCTCAAAAACCTTAATATTGTTGGCAATATATCCCATCACACCACAGTGCCCCTTACCGAAGCAGTAGATCCAGTGGATTTGGAAGATTACCTCATTACTCATCCTTTGGCTGTGGATTCTGGGCCTTTACGGGATTTGATTGAATTTCCTCCAGATGATATTGAAGTTGTTTATAGTCCTCGGGACTGCAGAACTCTTGTTTCAGCTGTACCTGAAGAAAGTGAAATGGATCCACATGTTAGAGACTGTATAAGAAGTTATACAGAAGACTGGGCAATTGTCATCAGAAAATATCATAAATTGGGAACAGGATTTAATCCCAATACATTAGATAAACAGAAAGAAAGGCAAAAAGGTTTGCCAAAACAAGTTTTTGAATCTGATGAAGCTCCAGATGGCAACAGCTACCAGGATGATCAAGATGACCTTAAAAGACGTTCAATGTCAATAGATGATACCCCAAGGGGTAGCTGGGCCTGTAGTATCTTTGACTTGAAAAATTCACTTCCTGATGCTTTGCTTCCCAATTTACTTGATCGAACTCCAAATGAAGAAATAGACCGTCAGAATGATGACCAAAGGAAATCAAACCGTCACAAAGAACTTTTTGCTTTGCATCCATCACCAGATGAGGAAGAACCAATAGAACGGCTTAGTGTTCCTGATATACCCAAAGAACATTTTGGTCAAAGACTTCTTGTAAAATGCTTATCACTCAAGTTTGAAATTGAAATTGAACCCATTTTTGCAAGTTTGGCTTTATATGATGTCAAGGAAAAGAAAAAGATTTCAGAAAACTTTTATTTTGACCTTAATTCTGAGCAGATGAAAGGGTTGTTACGTCCACATGTACCACCTGCTGCCATTACTACCCTGGCAAGATCAGCAATTTTTTCTATCACTTATCCTTCCCAAGATGTTTTTCTTGTAATAAAGCTAGAAAAAGTCCTACAGCAAGGAGACATTGGAGAGTGTGCAGAACCATATATGATTTTCAAAGAAGCAGATGCCACCAAGAATAAAGAAAAACTGGAGAAACTGAAGAGTCAAGCAGATCAGTTTTGCCAAAGACTTGGGAAATATCGCATGCCTTTTGCTTGGACTGCAATCCATTTAATGAATATTGTTAGCAGTGCTGGGAGTTTGGAAAGAGATTCTACAGAAGTAGAAATCAGTACTGGAGAACGAAAAGGGTCTTGGTCAGAGAGGAGGAATTCTAGTATTGTTGGCAGACGATCACTTGAAAGGACAACAAGTGGAGATGATGCTTGTAACTTGACGAGCTTTCGACCAGCTACTCTCACAGTGACAAATTTTTTTAAGCAGGAAGGAGACCGCTTAAGTGATGAAGATCTCTACAAATTCCTTGCTGATATGAGAAGGCCATCTTCTGTCTTACGGCGACTAAGACCTATTACAGCTCAGCTCAAGATAGACATTTCTCCCGCACCTGAAAATCCCCATTATTGCCTAACTCCGGAGCTGCTTCAAGTGAAGCTTTACCCTGACAGTAGAGTTAGACCTACCAGAGAAATCTTAGAGTTTCCCGCAAGGGATGTTTATGTTCCAAACACTACTTACAGAAATCTTCTCTACATATACCCTCAGAGTCTTAATTTTGCCAATCGTCAAGGTTCTGCTAGAAATATAACAGTGAAAGTCCAGTTTATGTATGGAGAGGATCCAAGCAATGCCATGCCGGTAATCTTTGGTAAATCTAGCTGTTCAGAATTTTCAAAGGAAGCCTATACAGCCGTAGTATATCATAACAGGTCTCCTGATTTTCATGAAGAAATCAAGGTTAAGCTTCCTGCTACTTTAACTGACCATCATCACTTGCTTTTTACTTTTTATCATGTTAGTTGTCAACAAAAACAAAATACTCCTCTTGAAACACCAGTTGGATATACATGGATACCAATGCTTCAGAATGGACGGTTGAAGACTGGCCAGTTTTGCTTGCCAGTCTCATTGGAAAAACCACCACAGGCTTATTCTGTACTGTCTCCTGAGGTTCCTCTACCTGGCATGAAATGGGTAGATAATCACAAAGGTGTTTTTAATGTTGAAGTTGTTGCTGTTTCGTCTATCCATACACAAGATCCTTATCTTGACAAATTTTTTGCTCTGGTCAATGCTCTGGATGAACACCTGTTCCCAGTCCGAATTGGGGACATGCGAATCATGGAAAATAACTTAGAAAATGAATTGAAGAGCAGTATTTCAGCACTGAATTCATCCCAGCTGGAACCAGTGGTCCGATTTCTTCATCTTCTGCTAGATAAACTGATACTTTTAGTTATTAGACCTCCTGTCATTGCTGGCCAAATAGTTAACCTAGGTCAAGCATCTTTTGAAGCCATGGCATCAATTATAAATCGACTTCACAAAAACTTGGAAGGAAATCATGACCAGCATGGCAGAAACAGCCTTCTTGCATCATATATTCATTATGTTTTCCGCCTACCAAATACTTACCCTAATTCATCATCACCAGGTCCTGGGGGTTTGGGAGGATCAGTGCATTATGCCACAATGGCTAGATCTGCGGTGAGACCTGCAAGCCTTAATTTAAATCGTTCTCGAAGCCTTAGTAATAGCAATCCAGATATATCTGGGACTCCCACGTCACCAGATGATGAAGTTCGATCAATCATCGGGAGTAAGGCTATGGATCGAAGTTGTAATCGTATGTCTTCGCACACAGAGACGTCAAGTTTCTTACAAACATTAACGGGACGCTTACCAACTAAAAAGCTTTTTCACGAGGAGCTGGCTTTGCAGTGGGTTGTTTGCAGTGGCAGCGTTCGGGAATCAGCTTTGCAACAAGCCTGGTTCTTTTTTGAATTAATGGTAAAGAGCATGGTGCACCATTTATACTTTAATGATAAACTTGAGGCTCCAAGGAAAAGTCGTTTTCCAGAACGTTTCATGGATGACATTGCAGCTCTTGTCAGCACGATTGCTAGTGATATAGTTTCACGATTTCAGAAGGACACAGAAATGGTTGAGAGACTCAATACAAGCCTTGCATTCTTTCTCAATGATCTGTTGTCTGTTATGGACAGAGGATTTGTTTTTAGCCTTATAAAGTCCTGCTATAAACAGGTGTCTTCAAAGCTTTACTCATTACCGAATCCCAGTGTTCTGGTGTCCTTGAGGCTGGATTTTCTACGAATCATCTGCAGTCATGAGCACTATGTTACATTAAACTTACCCTGCAGCTTACTTACTCCACCTGCATCTCCATCACCTTCTGTTTCTTCTGCAACATCTCAGAGTTCTGGATTTTCTACGAATGTACAAGACCAAAAGATTGCAAATATGTTTGAATTATCCGTGCCTTTCCGCCAACAGCATTATTTGGCAGGACTTGTGTTAACAGAGCTGGCTGTCATTTTAGACCCTGATGCTGAAGGACTGTTTGGATTGCATAAGAAAGTCATCAATATGGTACACAATTTACTCTCCAGTCACGACTCAGACCCGCGGTACTCTGACCCTCAGATAAAGGCTCGAGTGGCCATGTTGTATCTACCTCTGATTGGTATTATCATGGAAACTGTACCTCAGCTGTATGATTTTACAGAAACTCACAATCAACGAGGAAGACCAATTTGTATAGCCACTGATGATTATGAAAGTGAGAGCGGAAGTATGATAAGCCAGACCGTTGCCATGGCAATCGCAGGGACATCGGTCCCTCAACTAACAAGGCCTGGCAGTTTCCTCCTCACGTCAACGAGTGGCAGGCAACACACTACCTTTTCAGCAGAATCAAGTCGAAGCCTTTTGATCTGTCTACTTTGGGTTCTCAAAAATGCAGATGAAACAGTTCTACAGAAGTGGTTTACAGATCTCTCAGTCTTGCAGCTAAACCGGCTATTAGATCTGCTTTATCTCTGTGTGTCTTGCTTTGAGTATAAAGGGAAAAAAGTGTTTGAACGAATGAATAGCTTGACCTTTAAGAAATCAAAAGACATGAGAGCAAAGCTTGAAGAAGCTATTCTTGGGAGCATAGGTGCCAGGCAAGAAATGGTACGGCGAAGCCGAGGACAGCTCGGTACGTACACAATAGCTTCTCCTCCTGAGAGAAGCCCATCTGGAAGTGCCTTTGGAAGTCAAGAAAATTTGAGGTGGAGGAAAGATATGACTCACTGGCGTCAAAACACAGAGAAGCTTGACAAATCAAGAGCAGAGATTGAACACGAAGCACTGATTGATGGAAACCTGGCTACAGAAGCAAACCTAATCATTTTAGATACATTAGAGATTGTTGTTCAGACCGTTTCTGTAACGGAATCCAAAGAGAGCATTCTTGGTGGAGTGCTAAAAGTGCTACTACACAGCATGGCCTGTAACCAAAGTGCAGTTTATCTACAACACTGTTTTGCTACACAGAGAGCCTTGGTTTCAAAGTTTCCTGAACTCTTATTTGAAGAAGAGACAGAGCAGTGTGCTGATTTATGCCTCAGGCTTCTCCGACACTGTAGCAGTAGCATCGGTACAATACGGTCACACGCCAGTGCCTCCCTTTACCTACTAATGAGGCAAAACTTTGAGATTGGGAATAACTTTGCCAGGGTTAAAATGCAGGTAACAATGTCACTATCCTCCTTGGTGGGCACATCTCAGAATTTTAATGAAGAATTCTTAAGACGTTCTCTAAAGACTATATTGACATATGCTGAAGAAGATCTGGAATTGAGGGAAACAACATTTCCTGATCAGGTCCAGGATCTGGTTTTCAATCTCCATATGATTCTTTCTGATACTGTGAAAATGAAGGAACACCAGGAGGATCCTGAAATGTTGATTGATCTAATGTACAGAATTGCCAAGGGTTACCAGACCTCTCCAGATCTGCGATTGACCTGGTTGCAGAACATGGCAGGCAAGCACTCAGAACGAAGCAATCATGCTGAAGCTGCACAGTGTCTAGTCCACTCAGCAGCACTTGTTGCTGAATATTTGAGCATGCTGGAGGACCGGAAATATCTTCCTGTGGGATGTGTAACATTTCAGAATATTTCATCTAATGTTTTAGAAGAATCTGCGGTCTCAGATGATGTGGTATCTCCAGATGAAGAAGGTATCTGCTCTGGAAAATACTTTACTGAGTCAGGACTTGTGGGATTACTGGAACAAGCAGCTGCTTCCTTCTCTATGGCTGGCATGTATGAAGCAGTTAATGAAGTTTACAAAGTACTTATTCCTATTCATGAAGCTAATCGGGATGCAAAGAAACTATCCACAATTCATGGTAAACTTCAAGAAGCATTCAGCAAAATTGTTCATCAGAGTACTGGCTGGGAGCGGATGTTTGGCACCTATTTTCGTGTTGGTTTTTATGGAACCAAGTTCGGGGATTTGGATGAACAAGAATTTGTTTACAAGGAGCCTGCAATAACCAAACTTGCAGAGATATCTCACAGATTGGAGGGATTTTACGGAGAAAGATTTGGAGAGGATGTGGTTGAAGTAATCAAAGACTCTAATCCTGTAGACAAGTGTAAATTAGATCCTAACAAGGCATATATTCAGATTACCTATGTGGAGCCATACTTTGACACATATGAGATGAAGGACAGAATCACCTATTTCGACAAAAATTACAATCTTCGTCGATTCATGTACTGTACACCCTTTACTTTAGATGGCCGTGCCCATGGGGAACTTCATGAACAATTCAAAAGGAAGACCATTCTGACTACGTCTCATGCCTTTCCTTATATTAAAACAAGGGTCAATGTCACTCATAAAGAAGAGATCATCTTAACACCAATTGAAGTTGCTATTGAGGACATGCAGAAAAAGACACAGGAGTTGGCATTTGCAACACATCAGGATCCCGCAGACCCCAAAATGCTTCAGATGGTACTCCAGGGATCTGTAGGCACCACAGTGAATCAGGGGCCTTTGGAAGTTGCCCAGGTTTTTCTGTCTGAAATACCTAGTGACCCAAAGCTCTTCAGACATCATAATAAACTGCGACTCTGCTTTAAAGATTTTACTAAAAGGTGTGAAGATGCCTTAAGAAAAAATAAGAGCTTAATTGGGCCGGATCAAAAGGAGTATCAAAGGGAACTGGAGAGAAACTATCATCGCCTTAAAGAGGCCCTACAGCCACTGATCAACAGAAAGATCCCTCAGTTATACAAGGCAGTATTGCCTGTCACCTGCCACAGAGATTCCTTCAGTCGAATGAGCCTTCGCAAAATGGATCTCTAA
Amino sequence
MAERRAFAQKISRTVAAEVRKQISGQYSGSPQLLKNLNIVGNISHHTTVPLTEAVDPVDLEDYLITHPLAVDSGPLRDLIEFPPDDIEVVYSPRDCRTLVSAVPEESEMDPHVRDCIRSYTEDWAIVIRKYHKLGTGFNPNTLDKQKERQKGLPKQVFESDEAPDGNSYQDDQDDLKRRSMSIDDTPRGSWACSIFDLKNSLPDALLPNLLDRTPNEEIDRQNDDQRKSNRHKELFALHPSPDEEEPIERLSVPDIPKEHFGQRLLVKCLSLKFEIEIEPIFASLALYDVKEKKKISENFYFDLNSEQMKGLLRPHVPPAAITTLARSAIFSITYPSQDVFLVIKLEKVLQQGDIGECAEPYMIFKEADATKNKEKLEKLKSQADQFCQRLGKYRMPFAWTAIHLMNIVSSAGSLERDSTEVEISTGERKGSWSERRNSSIVGRRSLERTTSGDDACNLTSFRPATLTVTNFFKQEGDRLSDEDLYKFLADMRRPSSVLRRLRPITAQLKIDISPAPENPHYCLTPELLQVKLYPDSRVRPTREILEFPARDVYVPNTTYRNLLYIYPQSLNFANRQGSARNITVKVQFMYGEDPSNAMPVIFGKSSCSEFSKEAYTAVVYHNRSPDFHEEIKVKLPATLTDHHHLLFTFYHVSCQQKQNTPLETPVGYTWIPMLQNGRLKTGQFCLPVSLEKPPQAYSVLSPEVPLPGMKWVDNHKGVFNVEVVAVSSIHTQDPYLDKFFALVNALDEHLFPVRIGDMRIMENNLENELKSSISALNSSQLEPVVRFLHLLLDKLILLVIRPPVIAGQIVNLGQASFEAMASIINRLHKNLEGNHDQHGRNSLLASYIHYVFRLPNTYPNSSSPGPGGLGGSVHYATMARSAVRPASLNLNRSRSLSNSNPDISGTPTSPDDEVRSIIGSKAMDRSCNRMSSHTETSSFLQTLTGRLPTKKLFHEELALQWVVCSGSVRESALQQAWFFFELMVKSMVHHLYFNDKLEAPRKSRFPERFMDDIAALVSTIASDIVSRFQKDTEMVERLNTSLAFFLNDLLSVMDRGFVFSLIKSCYKQVSSKLYSLPNPSVLVSLRLDFLRIICSHEHYVTLNLPCSLLTPPASPSPSVSSATSQSSGFSTNVQDQKIANMFELSVPFRQQHYLAGLVLTELAVILDPDAEGLFGLHKKVINMVHNLLSSHDSDPRYSDPQIKARVAMLYLPLIGIIMETVPQLYDFTETHNQRGRPICIATDDYESESGSMISQTVAMAIAGTSVPQLTRPGSFLLTSTSGRQHTTFSAESSRSLLICLLWVLKNADETVLQKWFTDLSVLQLNRLLDLLYLCVSCFEYKGKKVFERMNSLTFKKSKDMRAKLEEAILGSIGARQEMVRRSRGQLGTYTIASPPERSPSGSAFGSQENLRWRKDMTHWRQNTEKLDKSRAEIEHEALIDGNLATEANLIILDTLEIVVQTVSVTESKESILGGVLKVLLHSMACNQSAVYLQHCFATQRALVSKFPELLFEEETEQCADLCLRLLRHCSSSIGTIRSHASASLYLLMRQNFEIGNNFARVKMQVTMSLSSLVGTSQNFNEEFLRRSLKTILTYAEEDLELRETTFPDQVQDLVFNLHMILSDTVKMKEHQEDPEMLIDLMYRIAKGYQTSPDLRLTWLQNMAGKHSERSNHAEAAQCLVHSAALVAEYLSMLEDRKYLPVGCVTFQNISSNVLEESAVSDDVVSPDEEGICSGKYFTESGLVGLLEQAAASFSMAGMYEAVNEVYKVLIPIHEANRDAKKLSTIHGKLQEAFSKIVHQSTGWERMFGTYFRVGFYGTKFGDLDEQEFVYKEPAITKLAEISHRLEGFYGERFGEDVVEVIKDSNPVDKCKLDPNKAYIQITYVEPYFDTYEMKDRITYFDKNYNLRRFMYCTPFTLDGRAHGELHEQFKRKTILTTSHAFPYIKTRVNVTHKEEIILTPIEVAIEDMQKKTQELAFATHQDPADPKMLQMVLQGSVGTTVNQGPLEVAQVFLSEIPSDPKLFRHHNKLRLCFKDFTKRCEDALRKNKSLIGPDQKEYQRELERNYHRLKEALQPLINRKIPQLYKAVLPVTCHRDSFSRMSLRKMDL*