Information

Transcript ID: ENST00000301180.10
Genome: hg19
Position: chr12:50,898,768-51,142,440
Strand: +
CDS length: 4,731
Amino acid length: 1,577
Gene symbol: DIP2B
Gene type: protein-coding
Gene description: disco interacting protein 2 homolog B
Gene Entrez Gene ID: 57609

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
Category	:
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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

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
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
1	50,898,768	50,899,023
2	51,019,759	51,019,830
3	51,034,507	51,034,635
4	51,053,977	51,054,102
5	51,064,969	51,065,181
6	51,068,257	51,068,412
7	51,069,112	51,069,231
8	51,072,462	51,072,659
9	51,074,455	51,074,546
10	51,076,921	51,077,031
11	51,079,616	51,079,739
12	51,080,356	51,080,465
13	51,084,832	51,084,934
14	51,086,732	51,086,796
15	51,089,050	51,089,143
16	51,089,631	51,089,750
17	51,090,844	51,090,958
18	51,092,111	51,092,250
19	51,092,849	51,092,985
20	51,097,923	51,098,003
21	51,100,321	51,100,448
22	51,102,231	51,102,345
23	51,108,178	51,108,379
24	51,112,492	51,112,601
25	51,112,738	51,112,818
26	51,115,056	51,115,179
27	51,116,985	51,117,106
28	51,118,558	51,118,669
29	51,121,486	51,121,595
30	51,122,331	51,122,461
31	51,125,152	51,125,320
32	51,126,149	51,126,319
33	51,127,918	51,127,979
34	51,128,856	51,128,913
35	51,130,819	51,130,893
36	51,133,192	51,133,369
37	51,135,199	51,135,322
38	51,138,370	51,142,440

CDS

Exon number	Type	Start	Stop
1	CDS	50,898,924	50,899,023
2	CDS	51,019,759	51,019,830
3	CDS	51,034,507	51,034,635
4	CDS	51,053,977	51,054,102
5	CDS	51,064,969	51,065,181
6	CDS	51,068,257	51,068,412
7	CDS	51,069,112	51,069,231
8	CDS	51,072,462	51,072,659
9	CDS	51,074,455	51,074,546
10	CDS	51,076,921	51,077,031
11	CDS	51,079,616	51,079,739
12	CDS	51,080,356	51,080,465
13	CDS	51,084,832	51,084,934
14	CDS	51,086,732	51,086,796
15	CDS	51,089,050	51,089,143
16	CDS	51,089,631	51,089,750
17	CDS	51,090,844	51,090,958
18	CDS	51,092,111	51,092,250
19	CDS	51,092,849	51,092,985
20	CDS	51,097,923	51,098,003
21	CDS	51,100,321	51,100,448
22	CDS	51,102,231	51,102,345
23	CDS	51,108,178	51,108,379
24	CDS	51,112,492	51,112,601
25	CDS	51,112,738	51,112,818
26	CDS	51,115,056	51,115,179
27	CDS	51,116,985	51,117,106
28	CDS	51,118,558	51,118,669
29	CDS	51,121,486	51,121,595
30	CDS	51,122,331	51,122,461
31	CDS	51,125,152	51,125,320
32	CDS	51,126,149	51,126,319
33	CDS	51,127,918	51,127,979
34	CDS	51,128,856	51,128,913
35	CDS	51,130,819	51,130,893
36	CDS	51,133,192	51,133,369
37	CDS	51,135,199	51,135,322
38	CDS	51,138,370	51,138,622

Other genome

Genome	Chromosome	Start	End	Links
hg38	chr12	50,504,985	50,748,657	Link

CDS sequence

ATGGCGGAACGAGGCCTGGAGCCGTCGCCGGCCGCGGTGGCGGCGCTGCCGCCTGAAGTGCGGGCGCAGCTGGCGGAGCTGGAGCTGGAGCTCTCGGAGGGGGACATCACCCAGAAGGGCTATGAAAAGAAAAGGTCCAAACTCCTATCTCCTTACAGCCCGCAGACACAAGAAACTGATTCAGCAGTACAGAAAGAACTTAGAAACCAGACACCTGCTCCATCTGCAGCTCAAACTTCTGCTCCCTCTAAGTACCACCGAACTCGATCTGGGGGAGCCAGGGATGAACGATATCGATCAGATATCCACACAGAAGCAGTTCAGGCTGCACTGGCAAAGCATAAAGAACAGAAGATGGCTTTGCCCATGCCAACCAAAAGGCGATCCACATTTGTTCAGTCTCCTGCAGATGCCTGCACACCTCCTGACACATCTTCGGCCTCTGAGGATGAGGGCTCTCTGAGACGCCAAGCTGCGCTCTCTGCTGCCTTGCAACAGAGCTTACAGAATGCTGAGTCCTGGATCAACCGTTCAATTCAGGGATCGTCCACTTCTTCATCCGCATCTTCTACGCTGTCCCACGGAGAGGTCAAAGGAACCAGTGGGTCTCTAGCTGATGTATTTGCCAATACTCGAATAGAGAATTTCTCTGCTCCTCCTGATGTCACTACAACTACCTCTTCCTCCTCATCATCTTCCTCAATTCGCCCAGCAAACATTGACCTGCCCCCCTCGGGGATAGTTAAAGGCATGCACAAAGGATCCAACAGGTCCAGCCTTATGGATACAGCTGATGGTGTTCCTGTCAGTAGCAGAGTATCTACAAAAATCCAGCAGCTTCTGAACACTCTGAAACGACCCAAAAGGCCTCCCTTAAAGGAATTTTTTGTGGATGACTCTGAAGAAATTGTGGAAGTACCTCAGCCAGACCCCAACCAGCCCAAGCCGGAGGGACGGCAGATGACCCCTGTGAAAGGAGAGCCTTTAGGAGTCATCTGTAACTGGCCTCCTGCTCTTGAATCTGCCCTGCAGCGCTGGGGTACCACTCAAGCAAAATGCTCCTGTCTGACTGCACTGGACATGACAGGGAAACCAGTTTACACTCTTACATATGGAAAGTTGTGGAGCAGAAGTTTAAAGTTGGCCTACACACTTCTTAATAAACTGGGGACCAAAAATGAACCTGTGTTAAAACCTGGAGACAGGGTAGCCCTGGTTTACCCCAACAATGATCCAGTCATGTTTATGGTGGCTTTCTATGGATGCCTCCTGGCAGAAGTGATTCCAGTGCCTATAGAGGTACCTCTTACCAGAAAGGATGCTGGAGGTCAGCAGATTGGCTTCTTGCTAGGAAGCTGTGGTATTGCCTTAGCTCTTACCAGTGAAGTTTGTCTAAAAGGACTGCCAAAAACCCAGAATGGAGAAATTGTACAGTTTAAAGGTTGGCCCCGGCTCAAATGGGTTGTAACAGATTCCAAGTACCTTTCAAAGCCACCGAAAGACTGGCAGCCACACATCTCACCTGCTGGGACAGAACCGGCATACATTGAGTATAAAACAAGCAAAGAAGGGAGTGTAATGGGAGTTACAGTATCCCGGCTTGCAATGTTGTCTCACTGCCAAGCTCTGTCGCAGGCCTGCAATTATTCTGAAGGGGAAACAATAGTAAATGTCTTAGACTTTAAGAAGGATGCTGGGCTGTGGCACGGCATGTTTGCGAATGTAATGAATAAGATGCACACAATCAGCGTACCCTACTCTGTTATGAAAACCTGTCCTCTCTCTTGGGTCCAAAGAGTACATGCTCACAAAGCCAAGGTAGCTTTAGTAAAATGTCGGGACTTGCACTGGGCTATGATGGCACATCGGGACCAAAGAGACGTGAGCTTGAGTTCCCTCCGAATGTTAATTGTGACTGATGGAGCTAACCCCTGGTCCGTGTCATCCTGTGATGCCTTCCTGAGTCTGTTCCAAAGTCATGGACTGAAGCCTGAGGCCATCTGTCCGTGCGCCACGTCTGCTGAAGCCATGACTGTAGCAATCCGCAGGCCTGGAGTTCCAGGAGCCCCTTTGCCAGGAAGAGCCATTCTCTCAATGAATGGATTGAGCTATGGGGTAATACGGGTCAATACTGAAGATAAAAATTCAGCACTGACGGTCCAGGATGTAGGGCATGTAATGCCTGGTGGGATGATGTGCATTGTGAAACCAGATGGACCTCCCCAGCTCTGCAAAACAGATGAAATTGGAGAAATCTGTGTTAGCTCCAGAACTGGAGGCATGATGTACTTTGGGCTTGCTGGTGTGACAAAAAATACATTTGAGGTAATTCCAGTGAATTCTGCAGGCTCTCCTGTTGGGGATGTGCCATTCATCCGATCAGGATTGCTGGGGTTTGTAGGGCCGGGTAGTTTGGTGTTCGTGGTTGGGAAAATGGATGGCTTACTGATGGTTAGTGGTCGAAGACATAATGCTGATGACATTGTTGCTACTGGATTGGCTGTAGAATCAATAAAGACTGTTTATAGAGGAAGAATTGCTGTGTTTTCTGTGTCTGTATTTTATGATGAGCGCATTGTGGTGGTTGCGGAACAAAGACCTGATGCTTCTGAGGAAGATAGTTTCCAGTGGATGAGCCGCGTGCTGCAGGCGATCGATAGCATTCATCAAGTGGGGGTTTATTGTCTTGCTCTGGTGCCAGCCAATACATTGCCAAAAACTCCACTAGGAGGAATCCATATATCTCAGACGAAACAACTCTTTCTGGAGGGATCACTGCATCCTTGCAACATCCTCATGTGCCCCCATACATGTGTGACAAACTTGCCAAAGCCCCGGCAAAAACAACCAGGTGTAGGCCCTGCTTCCGTGATGGTTGGGAATCTGGTTGCTGGAAAACGTATAGCACAAGCTGCTGGAAGGGATCTGGGACAAATAGAAGAGAATGATTTGGTGAGGAAGCACCAGTTTCTGGCAGAGATCCTACAGTGGCGAGCCCAGGCGACTCCTGACCATGTACTCTTCATGCTGTTAAATGCCAAGGGAACCACTGTATGCACAGCCAGCTGCCTTCAGCTTCATAAGCGAGCAGAGAGGATTGCATCTGTTCTTGGTGATAAGGGACATCTAAATGCAGGAGATAATGTGGTGTTGCTCTATCCACCTGGCATTGAGTTAATCGCCGCCTTCTATGGCTGCCTGTATGCGGGCTGTATACCTGTGACCGTCAGACCTCCACATGCTCAGAACCTCACGGCCACGCTGCCCACTGTCCGAATGATTGTTGATGTCAGCAAAGCAGCCTGTATTCTCACCAGTCAGACCCTAATGAGGCTACTGAGGTCCCGAGAGGCAGCAGCAGCTGTGGATGTGAAAACCTGGCCAACCATCATTGACACAGATGATTTACCCAGGAAAAGGTTACCTCAGCTGTATAAACCGCCCACTCCTGAGATGTTGGCATATCTTGATTTTAGTGTCTCCACAACTGGCATGCTTACAGGAGTGAAGATGTCCCACTCTGCAGTGAACGCTCTGTGTCGAGCCATCAAGCTCCAGTGTGAGTTGTACTCTTCTCGGCAGATCGCCATCTGCCTTGACCCTTACTGTGGACTTGGCTTCGCGCTCTGGTGTCTCTGCAGTGTCTATTCAGGCCACCAGTCTGTCTTAATTCCTCCTATGGAGTTAGAGAACAACCTTTTCCTCTGGCTCTCCACAGTCAACCAGTACAAAATAAGGGACACTTTCTGCTCCTATTCAGTGATGGAGCTCTGCACCAAAGGTCTTGGGAACCAAGTGGAAGTGCTAAAGACCAGAGGGATCAACCTCTCCTGCGTCCGGACCTGTGTGGTGGTGGCGGAGGAGAGGCCCCGCGTTGCACTCCAGCAGTCCTTCTCTAAGCTCTTCAAAGACATCGGGCTGTCCCCGCGGGCTGTCAGCACCACTTTTGGATCAAGAGTCAATGTAGCAATATGTTTACAGGGAACCTCAGGGCCTGATCCGACTACTGTGTATGTGGATCTGAAATCACTAAGACATGACAGGGTTCGTCTCGTGGAACGTGGCGCCCCTCAGAGTTTGCTTCTCTCAGAGTCTGGAAAGATTTTACCTGGAGTGAAAGTGGTTATTGTTAATCCTGAGACCAAAGGGCCGGTTGGAGACTCTCACCTTGGAGAGATTTGGGTGAACAGTCCCCATACAGCCAGCGGCTACTACACCATCTATGATAGCGAGACTCTTCAAGCTGATCATTTCAACACTCGCCTCAGCTTTGGAGATGCAGCTCAGACACTCTGGGCTCGGACAGGATACCTTGGTTTTGTCCGCCGGACCGAGCTCACAGCGGCCACTGGAGAGCGTCATGATGCATTGTATGTGGTGGGAGCGCTGGATGAAACACTGGAGCTGAGAGGATTACGATACCACCCAATTGATATTGAGACCTCGGTGTCCCGGATCCACAGAAGCATTGCTGAATGTGCCGTGTTCACATGGACCAACTTGCTTGTGGTGGTTGTGGAACTGTGCGGCTCTGAACAGGAAGCCCTAGATCTGGTCCCATTAGTGACCAACGTGGTCCTGGAAGAGCATTACCTCATCGTTGGCGTCGTGGTTGTGGTGGACCCAGGTGTCATCCCGATCAACTCCAGAGGAGAGAAGCAGAGGATGCACCTCCGTGATAGCTTCCTAGCTGACCAGTTAGACCCCATCTACGTGGCTTATAACATGTAA

Amino sequence

MAERGLEPSPAAVAALPPEVRAQLAELELELSEGDITQKGYEKKRSKLLSPYSPQTQETDSAVQKELRNQTPAPSAAQTSAPSKYHRTRSGGARDERYRSDIHTEAVQAALAKHKEQKMALPMPTKRRSTFVQSPADACTPPDTSSASEDEGSLRRQAALSAALQQSLQNAESWINRSIQGSSTSSSASSTLSHGEVKGTSGSLADVFANTRIENFSAPPDVTTTTSSSSSSSSIRPANIDLPPSGIVKGMHKGSNRSSLMDTADGVPVSSRVSTKIQQLLNTLKRPKRPPLKEFFVDDSEEIVEVPQPDPNQPKPEGRQMTPVKGEPLGVICNWPPALESALQRWGTTQAKCSCLTALDMTGKPVYTLTYGKLWSRSLKLAYTLLNKLGTKNEPVLKPGDRVALVYPNNDPVMFMVAFYGCLLAEVIPVPIEVPLTRKDAGGQQIGFLLGSCGIALALTSEVCLKGLPKTQNGEIVQFKGWPRLKWVVTDSKYLSKPPKDWQPHISPAGTEPAYIEYKTSKEGSVMGVTVSRLAMLSHCQALSQACNYSEGETIVNVLDFKKDAGLWHGMFANVMNKMHTISVPYSVMKTCPLSWVQRVHAHKAKVALVKCRDLHWAMMAHRDQRDVSLSSLRMLIVTDGANPWSVSSCDAFLSLFQSHGLKPEAICPCATSAEAMTVAIRRPGVPGAPLPGRAILSMNGLSYGVIRVNTEDKNSALTVQDVGHVMPGGMMCIVKPDGPPQLCKTDEIGEICVSSRTGGMMYFGLAGVTKNTFEVIPVNSAGSPVGDVPFIRSGLLGFVGPGSLVFVVGKMDGLLMVSGRRHNADDIVATGLAVESIKTVYRGRIAVFSVSVFYDERIVVVAEQRPDASEEDSFQWMSRVLQAIDSIHQVGVYCLALVPANTLPKTPLGGIHISQTKQLFLEGSLHPCNILMCPHTCVTNLPKPRQKQPGVGPASVMVGNLVAGKRIAQAAGRDLGQIEENDLVRKHQFLAEILQWRAQATPDHVLFMLLNAKGTTVCTASCLQLHKRAERIASVLGDKGHLNAGDNVVLLYPPGIELIAAFYGCLYAGCIPVTVRPPHAQNLTATLPTVRMIVDVSKAACILTSQTLMRLLRSREAAAAVDVKTWPTIIDTDDLPRKRLPQLYKPPTPEMLAYLDFSVSTTGMLTGVKMSHSAVNALCRAIKLQCELYSSRQIAICLDPYCGLGFALWCLCSVYSGHQSVLIPPMELENNLFLWLSTVNQYKIRDTFCSYSVMELCTKGLGNQVEVLKTRGINLSCVRTCVVVAEERPRVALQQSFSKLFKDIGLSPRAVSTTFGSRVNVAICLQGTSGPDPTTVYVDLKSLRHDRVRLVERGAPQSLLLSESGKILPGVKVVIVNPETKGPVGDSHLGEIWVNSPHTASGYYTIYDSETLQADHFNTRLSFGDAAQTLWARTGYLGFVRRTELTAATGERHDALYVVGALDETLELRGLRYHPIDIETSVSRIHRSIAECAVFTWTNLLVVVVELCGSEQEALDLVPLVTNVVLEEHYLIVGVVVVVDPGVIPINSRGEKQRMHLRDSFLADQLDPIYVAYNM*

ENST00000301180.10 DIP2B

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