Information

Transcript ID: ENST00000300896.9
Genome: hg38
Position: chr17:60,177,327-60,392,133
Strand: -
CDS length: 4,815
Amino acid length: 1,605
Gene symbol: USP32
Gene type: protein-coding
Gene description: ubiquitin specific peptidase 32
Gene Entrez Gene ID: 84669

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
34	60,177,327	60,179,428
33	60,180,545	60,180,637
32	60,181,324	60,181,748
31	60,183,165	60,183,453
30	60,185,460	60,185,651
29	60,190,563	60,190,683
28	60,192,844	60,192,930
27	60,198,260	60,198,444
26	60,205,447	60,205,658
25	60,207,021	60,207,132
24	60,208,059	60,208,210
23	60,208,654	60,208,828
22	60,209,370	60,209,543
21	60,211,013	60,211,118
20	60,211,376	60,211,514
19	60,212,024	60,212,098
18	60,213,581	60,213,662
17	60,214,620	60,214,774
16	60,219,670	60,219,787
15	60,222,409	60,222,549
14	60,223,411	60,223,586
13	60,226,039	60,226,231
12	60,236,138	60,236,240
11	60,252,381	60,252,442
10	60,255,175	60,255,258
9	60,265,412	60,265,474
8	60,265,976	60,266,091
7	60,269,450	60,269,557
6	60,271,350	60,271,481
5	60,288,523	60,288,682
4	60,294,683	60,294,801
3	60,301,599	60,301,704
2	60,345,481	60,345,608
1	60,391,882	60,392,133

CDS

Exon number	Type	Start	Stop
34	CDS	60,179,255	60,179,428
33	CDS	60,180,545	60,180,637
32	CDS	60,181,324	60,181,748
31	CDS	60,183,165	60,183,453
30	CDS	60,185,460	60,185,651
29	CDS	60,190,563	60,190,683
28	CDS	60,192,844	60,192,930
27	CDS	60,198,260	60,198,444
26	CDS	60,205,447	60,205,658
25	CDS	60,207,021	60,207,132
24	CDS	60,208,059	60,208,210
23	CDS	60,208,654	60,208,828
22	CDS	60,209,370	60,209,543
21	CDS	60,211,013	60,211,118
20	CDS	60,211,376	60,211,514
19	CDS	60,212,024	60,212,098
18	CDS	60,213,581	60,213,662
17	CDS	60,214,620	60,214,774
16	CDS	60,219,670	60,219,787
15	CDS	60,222,409	60,222,549
14	CDS	60,223,411	60,223,586
13	CDS	60,226,039	60,226,231
12	CDS	60,236,138	60,236,240
11	CDS	60,252,381	60,252,442
10	CDS	60,255,175	60,255,258
9	CDS	60,265,412	60,265,474
8	CDS	60,265,976	60,266,091
7	CDS	60,269,450	60,269,557
6	CDS	60,271,350	60,271,481
5	CDS	60,288,523	60,288,682
4	CDS	60,294,683	60,294,801
3	CDS	60,301,599	60,301,704
2	CDS	60,345,481	60,345,608
1	CDS	60,391,882	60,391,939

Other genome

Genome	Chromosome	Start	End	Links
hg19	chr17	58,254,688	58,469,494	Link

CDS sequence

ATGGGTGCCAAGGAGTCACGGATCGGATTCCTCAGCTACGAGGAGGCGCTGAGGAGAGTTACAGATGTAGAGCTAAAACGACTGAAGGATGCTTTCAAGAGGACCTGTGGACTCTCATATTACATGGGCCAGCACTGCTTCATCCGGGAAGTGCTTGGGGATGGAGTGCCTCCAAAGGTTGCTGAGGTGATTTACTGTTCTTTTGGTGGAACATCCAAAGGGCTGCACTTCAATAATTTAATAGTTGGACTTGTCCTCCTTACAAGAGGCAAAGATGAAGAGAAAGCAAAATACATTTTTAGTCTTTTTTCAAGTGAATCTGGGAACTATGTTATACGGGAAGAAATGGAAAGAATGCTCCACGTGGTGGATGGTAAAGTCCCAGATACACTCAGGAAGTGTTTCTCAGAGGGTGAAAAGGTAAACTATGAAAAGTTTAGAAATTGGCTTTTTCTAAACAAAGATGCTTTTACTTTCTCTCGATGGCTTCTATCTGGAGGTGTGTATGTTACCCTCACTGATGATAGTGATACTCCTACTTTCTACCAAACTCTGGCTGGAGTCACACATTTGGAGGAATCAGACATCATTGATCTTGAGAAACGCTATTGGTTATTGAAGGCTCAATCCCGGACTGGACGATTTGATTTAGAGACATTTGGCCCATTGGTTTCACCACCTATTCGTCCATCTCTAAGTGAAGGTTTGTTTAATGCTTTTGATGAAAATCGTGACAATCACATAGATTTTAAGGAGATATCCTGTGGGTTATCAGCCTGTTGCAGGGGACCCCTGGCTGAAAGACAAAAATTTTGCTTCAAGGTATTTGATGTTGACCGTGATGGAGTTCTCTCCAGGGTTGAACTGAGAGACATGGTGGTTGCACTTTTAGAAGTCTGGAAGGACAACCGCACTGATGATATTCCTGAATTACATATGGATCTCTCTGATATTGTAGAAGGCATACTGAATGCACATGACACCACAAAGATGGGTCATCTTACTCTGGAAGACTATCAGATCTGGAGTGTGAAAAATGTTCTTGCCAATGAGTTTTTGAACCTCCTTTTCCAGGTGTGTCACATAGTTCTGGGGTTAAGACCAGCTACTCCGGAAGAAGAAGGACAAATTATTAGAGGATGGTTAGAACGAGAGAGCAGGTATGGTCTGCAAGCAGGACACAACTGGTTTATCATCTCCATGCAGTGGTGGCAACAGTGGAAAGAATATGTCAAATACGATGCCAACCCTGTGGTAATTGAGCCATCATCTGTTTTGAATGGAGGAAAATACTCATTTGGAACTGCAGCCCATCCTATGGAGCAGGTCGAAGATAGAATTGGAAGCAGCCTCAGTTACGTGAATACTACAGAAGAGAAATTTTCAGACAACATTTCTACTGCATCTGAAGCCTCAGAAACTGCTGGCAGCGGCTTTCTGTATTCTGCCACACCAGGGGCAGATGTTTGCTTTGCTCGACAACATAACACTTCTGACAATAACAACCAGTGTTTGCTGGGAGCCAATGGGAATATTTTGTTGCACCTTAACCCTCAGAAACCAGGGGCTATTGATAATCAGCCATTAGTAACTCAAGAACCAGTAAAGGCTACATCATTAACACTAGAAGGAGGACGATTAAAACGAACTCCACAGCTGATTCATGGAAGAGACTATGAAATGGTCCCAGAACCTGTGTGGAGAGCACTTTATCACTGGTATGGAGCAAACCTGGCCTTACCTAGACCAGTTATCAAGAACAGCAAGACAGACATCCCAGAGCTGGAATTATTTCCCCGCTATCTTCTCTTCCTGAGACAGCAGCCTGCCACTCGGACACAGCAGTCTAACATCTGGGTGAATATGGGAAATGTACCTTCTCCGAATGCACCTTTAAAGCGGGTATTAGCCTATACAGGCTGTTTTAGTCGAATGCAGACCATCAAGGAAATTCACGAATATCTATCTCAAAGGCTGCGCATTAAAGAGGAAGATATGCGCCTGTGGCTATACAACAGTGAGAACTACCTTACTCTTCTGGATGATGAGGATCATAAATTGGAATATTTGAAAATCCAGGATGAACAACACCTGGTAATTGAAGTTCGCAACAAAGATATGAGTTGGCCTGAGGAGATGTCTTTTATAGCAAATAGTAGTAAAATAGATAGACACAAGGTTCCCACAGAAAAGGGAGCCACAGGTCTAAGCAATCTGGGAAACACATGCTTCATGAACTCAAGCATCCAGTGTGTTAGTAACACACAGCCACTGACACAGTATTTTATCTCAGGGAGACATCTTTATGAACTCAACAGGACAAATCCCATTGGTATGAAGGGGCATATGGCTAAATGCTATGGTGATTTAGTGCAGGAACTTTGGAGTGGAACTCAGAAGAATGTTGCCCCATTAAAGCTTCGGTGGACCATAGCAAAATATGCTCCCAGGTTTAATGGGTTTCAGCAACAGGACTCCCAAGAACTTCTGGCTTTTCTCTTGGATGGTCTTCATGAAGATCTTAATCGAGTCCATGAAAAGCCATATGTGGAACTGAAGGACAGTGATGGGCGACCAGACTGGGAAGTAGCTGCAGAGGCCTGGGACAACCATCTAAGAAGAAATAGATCAATTGTTGTGGATTTGTTCCATGGGCAGCTAAGATCTCAAGTAAAATGCAAGACATGTGGGCATATAAGTGTCCGATTTGACCCTTTCAATTTTTTGTCTTTGCCACTACCAATGGACAGTTATATGCACTTAGAAATAACAGTGATTAAGTTAGATGGTACTACCCCTGTACGGTATGGACTAAGACTGAATATGGATGAAAAGTACACAGGTTTAAAAAAACAGCTGAGTGATCTCTGTGGACTTAATTCAGAACAAATCCTTCTAGCAGAAGTACATGGTTCCAACATAAAGAACTTTCCTCAGGACAACCAAAAAGTACGACTCTCAGTGAGTGGATTTTTGTGTGCATTTGAAATTCCTGTCCCTGTGTCTCCAATTTCAGCTTCTAGTCCAACACAGACAGATTTCTCCTCTTCGCCATCTACAAATGAAATGTTCACCCTAACTACCAATGGGGACCTACCCCGACCAATATTCATCCCCAATGGAATGCCAAACACTGTTGTGCCATGTGGAACTGAGAAGAACTTCACAAATGGAATGGTTAATGGTCACATGCCATCTCTTCCTGACAGCCCCTTTACAGGTTACATCATTGCAGTCCACCGAAAAATGATGAGGACAGAACTGTATTTCCTGTCATCTCAGAAGAATCGCCCCAGCCTCTTTGGAATGCCATTGATTGTTCCATGTACTGTGCATACCCGGAAGAAAGACCTATATGATGCGGTTTGGATTCAAGTATCCCGGTTAGCGAGCCCACTCCCACCTCAGGAAGCTAGTAATCATGCCCAGGATTGTGACGACAGTATGGGCTATCAATATCCATTCACTCTACGAGTTGTGCAGAAAGATGGGAACTCCTGTGCTTGGTGCCCATGGTATAGATTTTGCAGAGGCTGTAAAATTGATTGTGGGGAAGACAGAGCTTTCATTGGAAATGCCTATATCGCTGTGGATTGGGATCCCACAGCCCTTCACCTTCGCTATCAAACATCCCAGGAAAGGGTTGTAGATGAGCATGAGAGTGTGGAGCAGAGTCGGCGAGCGCAAGCCGAGCCCATCAACCTGGACAGCTGTCTCCGTGCTTTCACCAGTGAGGAAGAGCTAGGGGAAAATGAGATGTACTACTGTTCCAAGTGTAAGACCCACTGCTTAGCAACAAAGAAGCTGGATCTCTGGAGGCTTCCACCCATCCTGATTATTCACCTTAAGCGATTTCAATTTGTAAATGGTCGGTGGATAAAATCACAGAAAATTGTCAAATTTCCTCGGGAAAGTTTTGATCCAAGTGCTTTTTTGGTACCAAGAGACCCGGCTCTCTGCCAGCATAAACCACTCACACCCCAGGGGGATGAGCTCTCTGAGCCCAGGATTCTGGCAAGGGAGGTGAAGAAAGTGGATGCGCAGAGTTCGGCTGGGGAAGAGGACGTGCTCCTGAGCAAAAGCCCATCCTCACTCAGCGCTAACATCATCAGCAGCCCGAAAGGTTCTCCTTCTTCATCAAGAAAAAGTGGAACCAGCTGTCCCTCCAGCAAAAACAGCAGCCCTAATAGCAGCCCACGGACTTTGGGGAGGAGCAAAGGGAGGCTCCGGCTGCCCCAGATTGGCAGCAAAAATAAACTGTCAAGTAGTAAAGAGAACTTGGATGCCAGCAAAGAAAATGGGGCTGGGCAGATATGTGAGCTGGCTGACGCCTTGAGTCGAGGGCATGTGCTGGGGGGCAGCCAACCAGAGTTGGTCACTCCTCAGGACCATGAGGTAGCTTTGGCCAATGGATTCCTTTATGAGCATGAAGCATGTGGCAATGGCTACAGCAATGGTCAGCTTGGAAACCACAGTGAAGAAGACAGCACTGATGACCAAAGAGAAGATACTCGTATTAAGCCTATTTATAATCTATATGCAATTTCGTGCCATTCAGGAATTCTGGGTGGGGGCCATTACGTCACTTATGCCAAAAACCCAAACTGCAAGTGGTACTGTTACAATGACAGCAGCTGTAAGGAACTTCACCCGGATGAAATTGACACCGACTCTGCCTACATTCTTTTCTATGAGCAGCAGGGGATAGACTATGCACAATTTCTGCCAAAGACTGATGGCAAAAAGATGGCAGACACAAGCAGTATGGATGAAGACTTTGAGTCTGATTACAAAAAGTACTGTGTGTTACAGTAA

Amino sequence

MGAKESRIGFLSYEEALRRVTDVELKRLKDAFKRTCGLSYYMGQHCFIREVLGDGVPPKVAEVIYCSFGGTSKGLHFNNLIVGLVLLTRGKDEEKAKYIFSLFSSESGNYVIREEMERMLHVVDGKVPDTLRKCFSEGEKVNYEKFRNWLFLNKDAFTFSRWLLSGGVYVTLTDDSDTPTFYQTLAGVTHLEESDIIDLEKRYWLLKAQSRTGRFDLETFGPLVSPPIRPSLSEGLFNAFDENRDNHIDFKEISCGLSACCRGPLAERQKFCFKVFDVDRDGVLSRVELRDMVVALLEVWKDNRTDDIPELHMDLSDIVEGILNAHDTTKMGHLTLEDYQIWSVKNVLANEFLNLLFQVCHIVLGLRPATPEEEGQIIRGWLERESRYGLQAGHNWFIISMQWWQQWKEYVKYDANPVVIEPSSVLNGGKYSFGTAAHPMEQVEDRIGSSLSYVNTTEEKFSDNISTASEASETAGSGFLYSATPGADVCFARQHNTSDNNNQCLLGANGNILLHLNPQKPGAIDNQPLVTQEPVKATSLTLEGGRLKRTPQLIHGRDYEMVPEPVWRALYHWYGANLALPRPVIKNSKTDIPELELFPRYLLFLRQQPATRTQQSNIWVNMGNVPSPNAPLKRVLAYTGCFSRMQTIKEIHEYLSQRLRIKEEDMRLWLYNSENYLTLLDDEDHKLEYLKIQDEQHLVIEVRNKDMSWPEEMSFIANSSKIDRHKVPTEKGATGLSNLGNTCFMNSSIQCVSNTQPLTQYFISGRHLYELNRTNPIGMKGHMAKCYGDLVQELWSGTQKNVAPLKLRWTIAKYAPRFNGFQQQDSQELLAFLLDGLHEDLNRVHEKPYVELKDSDGRPDWEVAAEAWDNHLRRNRSIVVDLFHGQLRSQVKCKTCGHISVRFDPFNFLSLPLPMDSYMHLEITVIKLDGTTPVRYGLRLNMDEKYTGLKKQLSDLCGLNSEQILLAEVHGSNIKNFPQDNQKVRLSVSGFLCAFEIPVPVSPISASSPTQTDFSSSPSTNEMFTLTTNGDLPRPIFIPNGMPNTVVPCGTEKNFTNGMVNGHMPSLPDSPFTGYIIAVHRKMMRTELYFLSSQKNRPSLFGMPLIVPCTVHTRKKDLYDAVWIQVSRLASPLPPQEASNHAQDCDDSMGYQYPFTLRVVQKDGNSCAWCPWYRFCRGCKIDCGEDRAFIGNAYIAVDWDPTALHLRYQTSQERVVDEHESVEQSRRAQAEPINLDSCLRAFTSEEELGENEMYYCSKCKTHCLATKKLDLWRLPPILIIHLKRFQFVNGRWIKSQKIVKFPRESFDPSAFLVPRDPALCQHKPLTPQGDELSEPRILAREVKKVDAQSSAGEEDVLLSKSPSSLSANIISSPKGSPSSSRKSGTSCPSSKNSSPNSSPRTLGRSKGRLRLPQIGSKNKLSSSKENLDASKENGAGQICELADALSRGHVLGGSQPELVTPQDHEVALANGFLYEHEACGNGYSNGQLGNHSEEDSTDDQREDTRIKPIYNLYAISCHSGILGGGHYVTYAKNPNCKWYCYNDSSCKELHPDEIDTDSAYILFYEQQGIDYAQFLPKTDGKKMADTSSMDEDFESDYKKYCVLQ*

ENST00000300896.9 USP32

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