ENST00000587656.6 DOCK6

Information
Transcript ID
ENST00000587656.6
Genome
hg19
Position
chr19:11,310,173-11,373,116
Strand
-
CDS length
6,249
Amino acid length
2,083
Gene symbol
DOCK6
Gene type
protein-coding
Gene description
dedicator of cytokinesis 6
Gene Entrez Gene ID
57572
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 11,310,173 11,310,215
48 11,310,984 11,311,145
47 11,311,392 11,311,498
46 11,311,585 11,311,728
45 11,312,565 11,312,801
44 11,313,070 11,313,159
43 11,313,260 11,313,385
42 11,314,757 11,314,771
41 11,314,876 11,315,007
40 11,319,362 11,319,505
39 11,319,587 11,319,779
38 11,322,452 11,322,552
37 11,322,669 11,322,827
36 11,323,852 11,324,004
35 11,324,951 11,325,085
34 11,325,229 11,325,325
33 11,326,063 11,326,147
32 11,326,477 11,326,603
31 11,327,590 11,327,772
30 11,327,907 11,328,067
29 11,332,527 11,332,696
28 11,332,785 11,332,924
27 11,333,411 11,333,581
26 11,333,669 11,333,782
25 11,338,013 11,338,153
24 11,339,616 11,339,711
23 11,342,861 11,342,965
22 11,343,879 11,344,042
21 11,346,274 11,346,435
20 11,347,022 11,347,253
19 11,347,469 11,347,555
18 11,348,132 11,348,233
17 11,348,317 11,348,455
16 11,348,721 11,348,791
15 11,348,863 11,348,980
14 11,352,721 11,352,883
13 11,353,735 11,353,828
12 11,353,934 11,354,061
11 11,354,233 11,354,386
10 11,354,478 11,354,558
9 11,356,239 11,356,388
8 11,356,488 11,356,554
7 11,358,742 11,358,827
6 11,361,550 11,361,762
5 11,362,795 11,362,924
4 11,363,158 11,363,226
3 11,363,459 11,363,634
2 11,364,315 11,364,402
1 11,373,073 11,373,116
CDS
Exon number Type Start Stop
49 CDS 11,310,173 11,310,215
48 CDS 11,310,984 11,311,145
47 CDS 11,311,392 11,311,498
46 CDS 11,311,585 11,311,728
45 CDS 11,312,565 11,312,801
44 CDS 11,313,070 11,313,159
43 CDS 11,313,260 11,313,385
42 CDS 11,314,757 11,314,771
41 CDS 11,314,876 11,315,007
40 CDS 11,319,362 11,319,505
39 CDS 11,319,587 11,319,779
38 CDS 11,322,452 11,322,552
37 CDS 11,322,669 11,322,827
36 CDS 11,323,852 11,324,004
35 CDS 11,324,951 11,325,085
34 CDS 11,325,229 11,325,325
33 CDS 11,326,063 11,326,147
32 CDS 11,326,477 11,326,603
31 CDS 11,327,590 11,327,772
30 CDS 11,327,907 11,328,067
29 CDS 11,332,527 11,332,696
28 CDS 11,332,785 11,332,924
27 CDS 11,333,411 11,333,581
26 CDS 11,333,669 11,333,782
25 CDS 11,338,013 11,338,153
24 CDS 11,339,616 11,339,711
23 CDS 11,342,861 11,342,965
22 CDS 11,343,879 11,344,042
21 CDS 11,346,274 11,346,435
20 CDS 11,347,022 11,347,253
19 CDS 11,347,469 11,347,555
18 CDS 11,348,132 11,348,233
17 CDS 11,348,317 11,348,455
16 CDS 11,348,721 11,348,791
15 CDS 11,348,863 11,348,980
14 CDS 11,352,721 11,352,883
13 CDS 11,353,735 11,353,828
12 CDS 11,353,934 11,354,061
11 CDS 11,354,233 11,354,386
10 CDS 11,354,478 11,354,558
9 CDS 11,356,239 11,356,388
8 CDS 11,356,488 11,356,554
7 CDS 11,358,742 11,358,827
6 CDS 11,361,550 11,361,762
5 CDS 11,362,795 11,362,924
4 CDS 11,363,158 11,363,226
3 CDS 11,363,459 11,363,634
2 CDS 11,364,315 11,364,402
1 CDS 11,373,073 11,373,116
Other genome
Genome Chromosome Start End Links
hg38 chr19 11,199,497 11,262,440 Link
CDS sequence
ATGGCTGCCTCCGAGCGCCGCGCCTTCGCGCACAAGATCAACAGGACGGTGGCCGCAGAGGTGCGGAAGCAGGTGTCCCGGGAACGCAGTGGCTCCCCCCACTCCAGCAGGCGCTGCAGCAGCTCCCTGGGGGTCCCACTGACTGAAGTTGTCGAGCCCCTGGACTTTGAGGATGTACTTCTGAGCCGGCCACCAGATGCTGAGCCCGGGCCCCTCAGGGACCTGGTAGAATTCCCAGCTGATGACTTGGAGCTGCTGCTGCAGCCCCGGGAATGCCGGACCACGGAGCCCGGGATCCCCAAGGATGAAAAACTGGATGCCCAGGTGAGGGCCGCGGTGGAGATGTATATTGAGGACTGGGTCATTGTCCACAGAAGGTATCAGTACCTGAGTGCAGCATACAGCCCCGTCACCACAGACACACAGCGGGAGCGACAGAAGGGCCTCCCCCGCCAGGTCTTTGAGCAGGATGCTTCTGGAGACGAGAGGTCCGGCCCTGAGGACTCGAATGACTCCCGGCGTGGCTCGGGCTCCCCGGAAGACACCCCTCGAAGCAGTGGTGCCTCTAGCATCTTCGACCTGAGGAACCTGGCAGCTGACTCATTGCTGCCCTCTCTGCTAGAGCGGGCGGCCCCAGAAGATGTGGACCGGCGCAATGAAACCCTTCGACGGCAGCACCGGCCCCCGGCCCTGCTCACCCTCTACCCGGCACCTGACGAGGATGAAGCCGTGGAACGCTGTAGCCGCCCAGAGCCACCCCGCGAGCACTTTGGACAAAGGATCTTGGTCAAGTGTCTGTCGCTCAAGTTCGAGATTGAAATTGAGCCCATCTTTGGGATCTTGGCTCTGTATGATGTGCGGGAGAAAAAGAAGATCTCGGAGAACTTCTACTTCGACCTGAACTCGGACTCCATGAAGGGGCTGCTTCGGGCTCATGGCACCCACCCTGCCATCTCCACCCTGGCCCGCTCTGCCATCTTCTCTGTGACCTACCCCTCACCTGACATCTTCCTGGTCATCAAGTTGGAGAAGGTGCTTCAGCAAGGGGACATCAGTGAGTGCTGTGAGCCTTACATGGTGTTGAAAGAAGTGGACACAGCCAAGAACAAAGAGAAGCTAGAGAAGCTGCGCCTGGCGGCCGAGCAGTTCTGCACCCGCCTGGGCCGCTACCGCATGCCCTTCGCCTGGACGGCCGTGCACTTGGCCAACATCGTGAGCAGCGCTGGGCAGCTGGACCGGGACTCTGACTCGGAGGGCGAGCGCCGGCCAGCCTGGACAGACCGCCGCCGTCGGGGGCCCCAGGACCGGGCGAGTAGTGGGGACGACGCCTGCAGCTTCTCTGGCTTCCGTCCAGCCACGCTAACTGTCACAAACTTCTTTAAGCAGGAGGCTGAGCGACTCAGTGACGAGGACCTCTTCAAGTTCCTGGCTGACATGAGGCGCCCGTCGTCCCTGCTGCGGCGACTACGTCCTGTGACTGCCCAGCTCAAGATCGACATTTCTCCGGCTCCTGAAAATCCCCACTTCTGCCTCTCCCCTGAGCTGCTTCATATCAAGCCCTACCCGGACCCCAGGGGCCGGCCCACCAAGGAGATTCTGGAGTTCCCCGCCCGCGAAGTCTATGCCCCCCATACCAGCTACAGGAACCTGCTGTACGTGTACCCGCACAGCCTCAACTTCAGCAGCCGCCAGGGCTCCGTGCGCAACCTTGCTGTGCGAGTGCAGTACATGACAGGCGAGGACCCCAGCCAGGCTCTGCCGGTCATCTTTGGCAAGTCCAGCTGCAGTGAATTTACCCGCGAGGCCTTCACACCGGTGGTCTACCATAACAAGTCCCCCGAGTTCTACGAGGAGTTCAAGCTGCATCTTCCAGCCTGCGTGACAGAGAACCATCACCTGCTGTTCACCTTCTACCATGTCAGCTGCCAGCCCCGGCCGGGCACTGCCCTGGAGACACCCGTGGGCTTTACTTGGATCCCACTGCTGCAGCACGGGCGCCTGAGGACCGGCCCCTTCTGTCTCCCAGTGTCTGTGGACCAGCCGCCGCCCAGCTATTCCGTGCTCACACCCGATGTGGCGCTTCCGGGCATGCGCTGGGTGGACGGTCACAAGGGCGTGTTCAGTGTGGAGCTCACAGCCGTGTCCTCTGTGCACCCCCAGGACCCCTACCTGGACAAATTCTTCACCCTGGTGCACGTCCTGGAGGAGGGAGCCTTCCCATTCCGGCTCAAGGACACTGTGCTGAGCGAGGGCAACGTGGAGCAGGAGCTGCGGGCCAGTCTTGCAGCACTGCGCCTGGCCAGCCCCGAACCCCTTGTGGCCTTCTCCCACCACGTGCTGGACAAGCTCGTGCGTCTGGTCATCAGGCCCCCGATCATCAGTGGCCAGATTGTGAACCTGGGCCGTGGAGCCTTTGAAGCAATGGCCCATGTAGTCAGCCTTGTTCACCGGAGCCTGGAGGCAGCCCAGGATGCCCGCGGTCACTGCCCACAGCTGGCTGCCTACGTCCACTACGCCTTTCGCCTTCCTGGCACTGAGCCCAGCCTCCCGGATGGGGCCCCTCCAGTGACAGTGCAGGCTGCCACACTGGCCCGTGGCTCTGGTCGCCCCGCAAGCCTCTACCTGGCGCGTTCCAAGAGCATCAGCAGCAGCAACCCTGACCTCGCCGTGGCCCCTGGCTCTGTGGATGACGAGGTTTCCCGCATCCTGGCCAGCAAGGGCATCGATCGCTCACACTCCTGGGTGAATTCCGCTTATGCTCCAGGAGGCAGTAAGGCTGTGCTGCGGCGGGCGCCCCCTTATTGTGGGGCCGACCCCAGACAGCTGCTTCACGAGGAGCTGGCTCTGCAGTGGGTGGTCAGCAGCAGTGCCGTACGCGAGGCCATCCTCCAGCACGCCTGGTTCTTCTTCCAGCTCATGGTGAAGAGTATGGCGCTGCACCTGCTGCTTGGCCAGCGACTAGACACACCCCGCAAGCTGCGCTTCCCCGGACGCTTCCTGGACGACATCACTGCCTTGGTGGGCTCTGTGGGCCTGGAGGTCATCACCCGTGTCCACAAGGATGTGGAGCTGGCCGAGCACCTCAACGCCAGCCTGGCTTTCTTCCTCAGTGACCTTCTGTCCCTGGTGGACCGGGGCTTTGTCTTCAGCCTGGTCCGGGCCCACTACAAGCAGGTGGCCACGCGGCTCCAGTCGTCCCCTAATCCAGCAGCCCTGCTGACCCTGCGCATGGAATTCACCCGCATCCTGTGCAGCCACGAGCACTACGTGACCCTCAACCTCCCCTGCTGCCCCCTGTCACCTCCAGCCTCGCCCTCCCCCTCTGTGTCCTCCACCACCTCCCAGAGCTCCACCTTCTCCAGCCAAGCCCCGGACCCCAAGGTGACCAGCATGTTCGAACTGAGTGGACCATTCCGGCAGCAGCACTTCCTAGCTGGGCTCCTGCTGACGGAGCTGGCACTGGCCCTCGAACCTGAGGCTGAAGGGGCATTCCTGTTGCACAAGAAGGCCATCAGTGCTGTGCACAGCCTGCTATGTGGCCATGACACTGACCCCCGCTACGCCGAGGCCACTGTGAAGGCTCGTGTGGCCGAGCTGTACCTGCCACTGCTATCGATTGCACGGGATACCTTGCCACGGCTGCATGACTTTGCTGAGGGCCCAGGTCAGCGGTCAAGACTGGCCTCAATGCTTGACTCAGACACAGAAGGCGAAGGGGACATTGCGGGTACCATCAACCCCTCTGTGGCCATGGCCATTGCTGGTGGCCCCCTAGCCCCTGGCTCCCGGGCCAGCATCTCCCAGGGGCCACCAACGGCTTCTCGCGCAGGCTGTGCCCTCTCTGCTGAGTCAAGCCGGACCTTGCTGGCGTGTGTGCTGTGGGTGCTGAAAAACACCGAGCCGGCGCTCCTGCAGCGCTGGGCCACTGACCTGACACTCCCCCAGCTGGGACGTCTGTTGGATTTGCTGTACCTTTGCCTAGCTGCCTTTGAGTACAAGGGGAAAAAGGCCTTTGAACGCATCAACAGCCTCACATTCAAAAAATCTCTGGATATGAAGGCGCGGCTAGAGGAAGCCATTCTGGGTACCATCGGAGCTCGACAAGAAATGGTTCGGCGAAGTCGTGAGAGGAGCCCGTTTGGGAATCCGGAGAATGTGCGCTGGCGGAAGAGCGTCACACACTGGAAGCAAACCTCAGACCGCGTGGACAAGACCAAGGATGAAATGGAACACGAGGCCTTGGTGGAAGGGAACCTGGCAACCGAGGCAAGCCTAGTGGTTCTGGACACACTGGAGATCATCGTGCAGACGGTGATGCTTTCAGAAGCCCGGGAGAGCGTCTTGGGGGCAGTGCTGAAGGTTGTGCTGTACAGCCTGGGCAGTGCCCAGAGTGCCCTCTTCTTGCAGCATGGCCTGGCCACCCAGAGGGCCCTTGTGTCCAAGTTCCCGGAGCTGCTGTTCGAGGAGGACACGGAGCTGTGTGCCGACCTGTGCCTGAGGCTCCTACGACACTGTGGCAGCCGCATCAGCACCATCCGCACGCACGCCAGCGCCTCGCTGTACCTGCTCATGCGACAGAACTTCGAGATCGGCCACAACTTTGCCCGTGTGAAGATGCAGGTCACCATGTCTCTCTCGTCCCTGGTGGGGACGACGCAGAACTTCAGTGAAGAGCACCTGCGACGTTCACTCAAAACCATCCTCACCTATGCTGAGGAGGACATGGGGCTGCGGGACAGCACCTTCGCAGAGCAGGTCCAGGACCTGATGTTCAACCTGCACATGATCCTGACGGACACGGTGAAGATGAAGGAACACCAGGAGGACCCTGAGATGCTCATCGACCTCATGTACAGAATTGCCCGGGGCTACCAGGGCTCACCGGACCTTCGGCTGACCTGGTTGCAGAACATGGCCGGGAAGCACGCGGAGCTGGGCAACCACGCCGAGGCCGCCCAGTGCATGGTGCACGCGGCCGCCCTCGTGGCTGAGTACCTCGCCCTGCTCGAGGACCACCGCCACCTGCCCGTGGGCTGCGTTTCCTTCCAGAACATCTCATCCAACGTGCTAGAGGAGTCCGCCATCTCCGACGACATCCTGTCGCCCGACGAGGAGGGCTTCTGCTCCGGGAAGCACTTCACTGAGCTGGGGCTGGTAGGGTTGCTGGAACAGGCAGCCGGCTACTTCACCATGGGCGGGCTCTACGAGGCGGTGAATGAGGTCTACAAGAACCTCATCCCCATCCTGGAAGCCCACCGTGACTACAAGAAGCTGGCCGCGGTGCACGGCAAACTGCAGGAGGCCTTCACCAAGATCATGCACCAGAGTTCCGGCTGGGAGCGCGTGTTCGGGACGTATTTCCGCGTGGGCTTCTACGGCGCCCACTTCGGTGACCTGGATGAGCAGGAGTTTGTGTACAAGGAGCCATCGATCACGAAGCTGGCAGAGATCTCACACCGGCTGGAGGAGTTCTACACGGAGAGATTTGGCGACGACGTCGTTGAGATTATCAAAGACTCTAACCCTGTGGACAAGTCCAAGCTTGACTCACAAAAGGCCTACATCCAGATCACGTATGTGGAACCGTACTTTGATACCTACGAGCTCAAGGACCGGGTGACCTACTTTGACCGCAACTATGGGCTTCGCACATTCCTGTTCTGCACGCCGTTCACGCCGGATGGGCGCGCACACGGGGAGCTGCCCGAGCAACACAAGCGTAAGACGCTGCTCAGCACCGACCACGCCTTCCCCTACATCAAGACTCGCATCCGTGTGTGCCACCGGGAGGAGACGGTGCTGACGCCAGTGGAGGTGGCCATCGAGGACATGCAGAAGAAGACACGGGAGCTGGCCTTTGCCACCGAGCAGGACCCACCAGATGCTAAGATGCTACAGATGGTGCTTCAGGGCTCTGTAGGGCCCACCGTGAACCAGGGTCCCCTGGAGGTGGCCCAGGTGTTTTTAGCAGAGATCCCGGAAGACCCCAAGCTCTTCCGGCATCACAACAAATTGCGGCTCTGCTTCAAGGACTTCTGCAAGAAATGTGAGGATGCGCTGCGGAAAAATAAGGCCCTGATTGGGCCGGACCAGAAGGAGTACCACCGTGAGCTGGAGCGCAACTACTGCCGCCTGCGGGAGGCTCTGCAGCCCCTGCTTACCCAGCGCCTGCCCCAGCTGATGGCACCCACCCCACCCGGCCTCAGGAACTCCTTGAACAGAGCAAGTTTCCGAAAGGCAGACCTCTGA
Amino sequence
MAASERRAFAHKINRTVAAEVRKQVSRERSGSPHSSRRCSSSLGVPLTEVVEPLDFEDVLLSRPPDAEPGPLRDLVEFPADDLELLLQPRECRTTEPGIPKDEKLDAQVRAAVEMYIEDWVIVHRRYQYLSAAYSPVTTDTQRERQKGLPRQVFEQDASGDERSGPEDSNDSRRGSGSPEDTPRSSGASSIFDLRNLAADSLLPSLLERAAPEDVDRRNETLRRQHRPPALLTLYPAPDEDEAVERCSRPEPPREHFGQRILVKCLSLKFEIEIEPIFGILALYDVREKKKISENFYFDLNSDSMKGLLRAHGTHPAISTLARSAIFSVTYPSPDIFLVIKLEKVLQQGDISECCEPYMVLKEVDTAKNKEKLEKLRLAAEQFCTRLGRYRMPFAWTAVHLANIVSSAGQLDRDSDSEGERRPAWTDRRRRGPQDRASSGDDACSFSGFRPATLTVTNFFKQEAERLSDEDLFKFLADMRRPSSLLRRLRPVTAQLKIDISPAPENPHFCLSPELLHIKPYPDPRGRPTKEILEFPAREVYAPHTSYRNLLYVYPHSLNFSSRQGSVRNLAVRVQYMTGEDPSQALPVIFGKSSCSEFTREAFTPVVYHNKSPEFYEEFKLHLPACVTENHHLLFTFYHVSCQPRPGTALETPVGFTWIPLLQHGRLRTGPFCLPVSVDQPPPSYSVLTPDVALPGMRWVDGHKGVFSVELTAVSSVHPQDPYLDKFFTLVHVLEEGAFPFRLKDTVLSEGNVEQELRASLAALRLASPEPLVAFSHHVLDKLVRLVIRPPIISGQIVNLGRGAFEAMAHVVSLVHRSLEAAQDARGHCPQLAAYVHYAFRLPGTEPSLPDGAPPVTVQAATLARGSGRPASLYLARSKSISSSNPDLAVAPGSVDDEVSRILASKGIDRSHSWVNSAYAPGGSKAVLRRAPPYCGADPRQLLHEELALQWVVSSSAVREAILQHAWFFFQLMVKSMALHLLLGQRLDTPRKLRFPGRFLDDITALVGSVGLEVITRVHKDVELAEHLNASLAFFLSDLLSLVDRGFVFSLVRAHYKQVATRLQSSPNPAALLTLRMEFTRILCSHEHYVTLNLPCCPLSPPASPSPSVSSTTSQSSTFSSQAPDPKVTSMFELSGPFRQQHFLAGLLLTELALALEPEAEGAFLLHKKAISAVHSLLCGHDTDPRYAEATVKARVAELYLPLLSIARDTLPRLHDFAEGPGQRSRLASMLDSDTEGEGDIAGTINPSVAMAIAGGPLAPGSRASISQGPPTASRAGCALSAESSRTLLACVLWVLKNTEPALLQRWATDLTLPQLGRLLDLLYLCLAAFEYKGKKAFERINSLTFKKSLDMKARLEEAILGTIGARQEMVRRSRERSPFGNPENVRWRKSVTHWKQTSDRVDKTKDEMEHEALVEGNLATEASLVVLDTLEIIVQTVMLSEARESVLGAVLKVVLYSLGSAQSALFLQHGLATQRALVSKFPELLFEEDTELCADLCLRLLRHCGSRISTIRTHASASLYLLMRQNFEIGHNFARVKMQVTMSLSSLVGTTQNFSEEHLRRSLKTILTYAEEDMGLRDSTFAEQVQDLMFNLHMILTDTVKMKEHQEDPEMLIDLMYRIARGYQGSPDLRLTWLQNMAGKHAELGNHAEAAQCMVHAAALVAEYLALLEDHRHLPVGCVSFQNISSNVLEESAISDDILSPDEEGFCSGKHFTELGLVGLLEQAAGYFTMGGLYEAVNEVYKNLIPILEAHRDYKKLAAVHGKLQEAFTKIMHQSSGWERVFGTYFRVGFYGAHFGDLDEQEFVYKEPSITKLAEISHRLEEFYTERFGDDVVEIIKDSNPVDKSKLDSQKAYIQITYVEPYFDTYELKDRVTYFDRNYGLRTFLFCTPFTPDGRAHGELPEQHKRKTLLSTDHAFPYIKTRIRVCHREETVLTPVEVAIEDMQKKTRELAFATEQDPPDAKMLQMVLQGSVGPTVNQGPLEVAQVFLAEIPEDPKLFRHHNKLRLCFKDFCKKCEDALRKNKALIGPDQKEYHRELERNYCRLREALQPLLTQRLPQLMAPTPPGLRNSLNRASFRKADL*