Information

Transcript ID: ENST00000272793.11
Genome: hg19
Position: chr2:170,683,964-170,940,641
Strand: +
CDS length: 5,667
Amino acid length: 1,889
Gene symbol: UBR3
Gene type: protein-coding
Gene description: ubiquitin protein ligase E3 component n-recognin 3
Gene Entrez Gene ID: 130507

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	:
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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
1	170,683,964	170,684,562
2	170,728,746	170,728,885
3	170,732,301	170,732,459
4	170,734,004	170,734,147
5	170,735,035	170,735,084
6	170,747,675	170,747,741
7	170,751,691	170,751,821
8	170,753,017	170,753,245
9	170,761,624	170,761,803
10	170,762,541	170,762,674
11	170,770,570	170,770,656
12	170,780,439	170,780,504
13	170,780,594	170,780,683
14	170,782,129	170,782,257
15	170,783,202	170,783,254
16	170,783,348	170,783,481
17	170,783,830	170,783,915
18	170,785,237	170,785,378
19	170,789,422	170,789,518
20	170,799,003	170,799,144
21	170,802,798	170,802,902
22	170,804,052	170,804,225
23	170,806,115	170,806,575
24	170,814,948	170,815,036
25	170,843,155	170,843,304
26	170,850,833	170,850,966
27	170,857,814	170,857,924
28	170,863,500	170,863,700
29	170,865,314	170,865,450
30	170,871,791	170,871,876
31	170,885,856	170,885,958
32	170,897,392	170,897,495
33	170,911,970	170,912,094
34	170,917,589	170,917,696
35	170,917,828	170,917,953
36	170,929,938	170,930,117
37	170,936,324	170,936,533
38	170,937,055	170,937,194
39	170,938,236	170,940,641

CDS

Exon number	Type	Start	Stop
1	CDS	170,684,018	170,684,562
2	CDS	170,728,746	170,728,885
3	CDS	170,732,301	170,732,459
4	CDS	170,734,004	170,734,147
5	CDS	170,735,035	170,735,084
6	CDS	170,747,675	170,747,741
7	CDS	170,751,691	170,751,821
8	CDS	170,753,017	170,753,245
9	CDS	170,761,624	170,761,803
10	CDS	170,762,541	170,762,674
11	CDS	170,770,570	170,770,656
12	CDS	170,780,439	170,780,504
13	CDS	170,780,594	170,780,683
14	CDS	170,782,129	170,782,257
15	CDS	170,783,202	170,783,254
16	CDS	170,783,348	170,783,481
17	CDS	170,783,830	170,783,915
18	CDS	170,785,237	170,785,378
19	CDS	170,789,422	170,789,518
20	CDS	170,799,003	170,799,144
21	CDS	170,802,798	170,802,902
22	CDS	170,804,052	170,804,225
23	CDS	170,806,115	170,806,575
24	CDS	170,814,948	170,815,036
25	CDS	170,843,155	170,843,304
26	CDS	170,850,833	170,850,966
27	CDS	170,857,814	170,857,924
28	CDS	170,863,500	170,863,700
29	CDS	170,865,314	170,865,450
30	CDS	170,871,791	170,871,876
31	CDS	170,885,856	170,885,958
32	CDS	170,897,392	170,897,495
33	CDS	170,911,970	170,912,094
34	CDS	170,917,589	170,917,696
35	CDS	170,917,828	170,917,953
36	CDS	170,929,938	170,930,117
37	CDS	170,936,324	170,936,533
38	CDS	170,937,055	170,937,194
39	CDS	170,938,236	170,938,353

Other genome

Genome	Chromosome	Start	End	Links
hg38	chr2	169,827,454	170,084,131	Link

CDS sequence

ATGGCGGCGGCGGCCGCGGCGGCCGTCGGGGGCCAGCAGCCGTCACAGCCCGAGCTGCCCGCGCCGGGGCTGGCCCTAGACAAGGCGGCCACCGCCGCGCACCTCAAGGCGGCCCTCAGCCGGCCGGACAACCGCGCAGGTGCTGAGGAGCTGCAGGCGCTGCTGGAGCGGGTGCTGAGCGCCGAGCGGCCGCTGGCCGCGGCTGCCGGCGGCGAGGACGCGGCGGCGGCCGGAGGCGGGGGCGGTCCGGGGGCGGCCGAGGAGGAGGCCCTGGAGTGGTGTAAGTGCCTTCTGGCGGGCGGCGGCGGCTACGACGAGTTCTGCGCGGCGGTGCGGGCCTACGATCCCGCGGCGCTCTGCGGCCTGGTCTGGACAGCCAACTTCGTGGCCTACCGCTGCCGGACGTGCGGCATCTCGCCCTGCATGTCGCTGTGCGCCGAGTGCTTCCACCAGGGCGACCACACCGGACACGACTTCAACATGTTCCGCAGCCAGGCCGGGGGCGCCTGCGACTGCGGGGACAGCAACGTGATGCGGGAGAGCGGGTTTTGCAAAAGGCATCAAATTAAATCAAGTTCAAATATTCCCTGTGTCCCTAAAGACTTACTGATGATGTCTGAATTTGTTCTTCCAAGATTTATATTTTGTCTTATTCAGTACTTAAGAGAAGGCTATAATGAACCAGCAGCTGATGGACCATCAGAAAAGGACCTTAACAAAGTCCTTCAGCTTTTGGAACCTCAAATTTCCTTTTTAGAAGACCTGACTAAAATGGGAGGAGCAATGCGGTCTGTTCTTACTCAGGTTTTGACAAACCAACAAAACTACAAAGATCTGACTTCTGGTCTTGGAGAAAATGCTTGTGTAAAGAAAAGTCATGAAAAGTACCTTATAGCTTTAAAGAGCTCTGGACTTACATATCCTGAGGATAAGCTTGTATATGGTGTGCAGGAGCCATCTGCTGGTACTAGTTCTCTGGCTGTTCAAGGTTTCATAGGCGCAACAGGAACTTTGGGACAAGTGGATTCTTCAGATGAGGATGATCAGGATGGTAGTCAAGGTCTGGGCAAGAGAAAAAGGGTAAAACTAAGCAGTGGCACCAAAGATCAATCCATAATGGATGTTTTGAAGCATAAAAGCTTCCTAGAAGAACTATTATTTTGGACTATAAAATATGAATTCCCTCAAAAGATGGTAACTTTCTTACTCAACATGCTTCCAGATCAAGAGTATAAGGTTGCTTTTACAAAAACTTTTGTTCAGCATTATGCTTTCATTATGAAAACACTGAAGAAAAGTCATGAATCAGACACAATGTCTAACAGAATTGTGCATATTAGTGTTCAGTTGTTCAGCAATGAGGAGCTAGCCAGACAGGTAACAGAAGAATGTCAGCTGCTGGATATTATGGTCACTGTGCTATTATACATGATGGAAAGTTGCCTTATTAAAAGTGAGCTACAAGATGAAGAAAATAGTTTACATGTGGTAGTGAACTGTGGAGAAGCATTACTGAAGAATAACACTTACTGGCCTCTTGTTAGTGATTTTATTAATATTCTTTCTCATCAAAGTGTGGCCAAGAGATTTTTGGAGGATCACGGTTTGTTAGTTACATGGATGAACTTTGTATCTTTCTTTCAAGGTATGAACTTAAACAAGCGAGAACTAAACGAGCATGTGGAATTTGAGTCTCAGACCTACTATGCTGCCTTTGCTGCTGAACTTGAGGCCTGTGCACAGCCAATGTGGGGGCTTTTATCACATTGTAAAGTTAGGGAAACTCAAGAGTATACCCGAAATGTTGTTAGATATTGCCTTGAAGCTCTTCAAGACTGGTTTGATGCTATTAACTTCGTAGACGAGCCAGCACCTAACCAAGTCACTTTTCATCTGCCACTACATCGTTACTATGCTATGTTTTTGAGTAAGGCTGTGAAATGTCAAGAACTAGATTTGGATTCTGTTTTACCAGATCAGGAAATGTTAATGAAACTAATGATTCACCCACTCCAAATTCAAGCAAGTCTTGCAGAAATCCACAGCAATATGTGGGTAAGAAATGGTCTGCAAATCAAAGGACAAGCCATGACGTATGTCCAGTCTCATTTCTGTAATTCCATGATTGATCCTGACATTTACCTGTTACAGGTTTGTGCTTCTAGACTTGACCCAGATTATTTTATTTCATCCGTCTTTGAAAGATTTAAGGTAGTGGATTTGTTGACAATGGCATCACAACATCAAAATACAGTACTTGATGCAGAGCATGAGAGGTCGATGTTAGAAGGCGCTCTTACATTTCTTGTGATTCTTTTGAGTCTTCGTTTACATTTAGGAATGTCTGATGATGAGATTCTCAGGGCCGAGATGGTAGCCCAGCTGTGTATGAATGACAGGACACACAGTTCATTGCTGGACCTCATTCCAGAAAATCCTAATCCCAAAAGTGGCATTATTCCAGGCAGTTACAGCTTTGAATCAGTTTTATCAGCTGTAGCTGATTTTAAGGCTCCTGTTTTTGAACCTGGAGGTTCTATGCAACAAGGCATGTATACTCCCAAAGCTGAAGTCTGGGATCAAGAGTTTGACCCCGTCATGGTCATTCTTCGAACAGTTTACCGTAGAGATGTGCAGTCTGCAATGGACAGATATACTGCATTTTTAAAACAGAGTGGAAAATTTCCTGGAAATCCCTGGCCTCCATATAAGAAAAGGACATCACTCCATCCTAGCTATAAAGGTCTTATGAGACTTTTGCACTGTAAAACTTTACACATTGTGCTATTCACTCTGCTTTACAAGATTTTGATGGATCATCAAAATCTGTCAGAACATGTACTCTGCATGGTTTTATATCTGATTGAATTAGGACTTGAAAATTCTGCTGAAGAAGAATCAGATGAAGAGGCATCAGTGGGTGGACCAGAACGTTGTCATGACAGTTGGTTTCCTGGCAGTAACTTAGTGTCAAACATGCGACACTTTATAAACTATGTTAGAGTAAGAGTTCCAGAGACTGCTCCTGAAGTAAAGAGAGACTCACCTGCAAGTACTAGCTCTGATAACTTGGGTTCTTTACAAAATTCTGGTACAGCTCAAGTTTTCAGTTTAGTAGCAGAACGTAGAAAGAAATTTCAGGAAATCATCAATCGCAGTAGCAGTGAAGCAAATCAGGTGGTTCGTCCCAAAACTTCAAGTAAATGGTCTGCTCCTGGTTCAGCTCCACAGTTAACTACAGCCATTTTGGAAATTAAAGAAAGCATATTGTCTTTGCTAATTAAACTTCACCACAAACTCTCAGGAAAACAAAACTCCTACTATCCTCCTTGGCTTGATGACATAGAAATTTTAATCCAACCAGAAATTCCTAAATACAGTCATGGAGATGGTATAACTGCCGTGGAAAGAATTTTACTAAAAGCTGCATCGCAAAGTAGAATGAACAAACGCATCATTGAAGAGATATGTAGAAAAGTGACCCCTCCTGTACCACCTAAAAAAGTCACTGCAGCAGAGAAGAAAACATTGGACAAAGAAGAAAGGCGACAGAAGGCTAGAGAGAGGCAGCAGAAATTGCTTGCGGAGTTTGCTTCACGACAGAAAAGCTTTATGGAAACTGCAATGGATGTTGATTCTCCTGAGAATGATATTCCTATGGAGATCACCACGGCAGAACCACAGGTTTCCGAGGCAGTATATGACTGTGTTATTTGTGGACAGAGTGGCCCCTCCTCTGAAGATCGACCTACTGGATTAGTTGTACTGTTACAAGCATCCTCAGTTTTGGGGCAGTGCCGTGACAATGTTGAGCCAAAAAAGTTGCCGATCAGTGAAGAGGAGCAGATTTACCCTTGGGATACCTGTGCAGCCGTTCATGATGTGAGGCTTTCATTATTACAGCGTTATTTTAAGGATAGTTCATGTCTCTTGGCAGTATCAATTGGCTGGGAAGGAGGTGTTTATGTACAAACCTGTGGTCACACATTACATATAGATTGTCATAAATCTTACATGGAATCATTACGGAATGACCAGGTTCTTCAGGGCTTCTCGGTGGACAAAGGAGAATTCACGTGTCCACTCTGTAGGCAGTTTGCTAACAGTGTTCTTCCATGTTATCCTGGAAGCAATGTGGAAAATAACCCTTGGCAACGTCCTAGCAACAAAAGCATACAAGATCTCATAAAGGAAGTGGAGGAGCTGCAGGGACGACCGGGAGCTTTCCCATCAGAAACAAATTTAAGTAAAGAAATGGAATCTGTAATGAAAGATATAAAAAATACCACTCAGAAGAAATATAGAGACTATAGCAAGACCCCGGGCTCACCAGACAATGATTTTCTCTTTATGTACTCTGTTGCTAGAACCAATTTAGAACTTGAATTGATTCATCGAGGAGGCAATTTGTGTTCAGGTGGTGCAAGCACAGCTGGCAAAAGGTCTTGTTTAAATCAGCTGTTTCATGTATTAGCCTTGCACATGCGGCTTTATAGCATTGACTCTGAGTATAATCCCTGGAGAAAGCTCACCCAGTTAGAAGAGATGAATCCACAGCTGGGATATGAAGAACAACAGCCTGAGGTTCCAATTCTTTATCATGATGTAACATCCCTTTTGCTCATCCAGATCTTAATGATGCCACAACCCTTACGCAAAGACCACTTTACCTGCATTGTGAAGGTACTTTTTACCCTACTGTACACACAGGCTCTTGCAGCACTCTCAGTTAAATGCAGCGAAGAAGATAGGTCAGCCTGGAAACACGCGGGAGCTCTCAAAAAGAGTACATGTGATGCAGAAAAGTCTTACGAAGTATTACTGAGCTTTGTGATAAGTGAACTATTTAAAGGAAAGTTATACCATGAAGAAGGAACTCAGGAATGTGCAATGGTTAACCCTATTGCTTGGTCTCCTGAATCCATGGAAAAATGCTTACAGGACTTCTGCTTACCTTTTCTCAGAATCACCAGCCTTCTTCAGCACCACCTTTTTGGGGAAGATTTACCTAGCTGCCAGGAAGAAGAAGAATTTTCAGTTCTTGCCAGCTGCCTGGGACTTCTGCCAACGTTTTACCAAACAGAACATCCATTCATCAGTGCCTCCTGTCTGGATTGGCCAGTTCCAGCATTTGATATTATAACTCAGTGGTGTTTTGAGATAAAATCATTTACTGAAAGACATGCAGAACAAGGAAAGGCCTTGCTTATCCAAGAGTCAAAATGGAAATTACCACACCTACTACAGTTGCCTGAGAATTATAACACCATTTTTCAGTACTACCACAGAAAAACCTGTAGTGTCTGCACCAAGGTTCCTAAAGATCCTGCTGTTTGCCTTGTGTGTGGTACTTTTGTATGCCTGAAAGGACTTTGCTGCAAGCAACAAAGTTACTGTGAATGTGTACTGCACTCTCAGAACTGTGGTGCAGGAACAGGTATTTTCCTTTTGATCAATGCATCGGTAATTATCATCATTCGAGGTCACCGCTTCTGCCTCTGGGGTTCCGTGTATTTGGATGCTCATGGAGAGGAAGACCGGGATCTTAGGCGAGGCAAACCTCTCTACATTTGTAAGGAAAGATACAAAGTTCTTGAGCAACAGTGGATTTCTCATACTTTTGATCACATCAATAAAAGATGGGGTCCACATTACAATGGGCTGTGA

Amino sequence

MAAAAAAAVGGQQPSQPELPAPGLALDKAATAAHLKAALSRPDNRAGAEELQALLERVLSAERPLAAAAGGEDAAAAGGGGGPGAAEEEALEWCKCLLAGGGGYDEFCAAVRAYDPAALCGLVWTANFVAYRCRTCGISPCMSLCAECFHQGDHTGHDFNMFRSQAGGACDCGDSNVMRESGFCKRHQIKSSSNIPCVPKDLLMMSEFVLPRFIFCLIQYLREGYNEPAADGPSEKDLNKVLQLLEPQISFLEDLTKMGGAMRSVLTQVLTNQQNYKDLTSGLGENACVKKSHEKYLIALKSSGLTYPEDKLVYGVQEPSAGTSSLAVQGFIGATGTLGQVDSSDEDDQDGSQGLGKRKRVKLSSGTKDQSIMDVLKHKSFLEELLFWTIKYEFPQKMVTFLLNMLPDQEYKVAFTKTFVQHYAFIMKTLKKSHESDTMSNRIVHISVQLFSNEELARQVTEECQLLDIMVTVLLYMMESCLIKSELQDEENSLHVVVNCGEALLKNNTYWPLVSDFINILSHQSVAKRFLEDHGLLVTWMNFVSFFQGMNLNKRELNEHVEFESQTYYAAFAAELEACAQPMWGLLSHCKVRETQEYTRNVVRYCLEALQDWFDAINFVDEPAPNQVTFHLPLHRYYAMFLSKAVKCQELDLDSVLPDQEMLMKLMIHPLQIQASLAEIHSNMWVRNGLQIKGQAMTYVQSHFCNSMIDPDIYLLQVCASRLDPDYFISSVFERFKVVDLLTMASQHQNTVLDAEHERSMLEGALTFLVILLSLRLHLGMSDDEILRAEMVAQLCMNDRTHSSLLDLIPENPNPKSGIIPGSYSFESVLSAVADFKAPVFEPGGSMQQGMYTPKAEVWDQEFDPVMVILRTVYRRDVQSAMDRYTAFLKQSGKFPGNPWPPYKKRTSLHPSYKGLMRLLHCKTLHIVLFTLLYKILMDHQNLSEHVLCMVLYLIELGLENSAEEESDEEASVGGPERCHDSWFPGSNLVSNMRHFINYVRVRVPETAPEVKRDSPASTSSDNLGSLQNSGTAQVFSLVAERRKKFQEIINRSSSEANQVVRPKTSSKWSAPGSAPQLTTAILEIKESILSLLIKLHHKLSGKQNSYYPPWLDDIEILIQPEIPKYSHGDGITAVERILLKAASQSRMNKRIIEEICRKVTPPVPPKKVTAAEKKTLDKEERRQKARERQQKLLAEFASRQKSFMETAMDVDSPENDIPMEITTAEPQVSEAVYDCVICGQSGPSSEDRPTGLVVLLQASSVLGQCRDNVEPKKLPISEEEQIYPWDTCAAVHDVRLSLLQRYFKDSSCLLAVSIGWEGGVYVQTCGHTLHIDCHKSYMESLRNDQVLQGFSVDKGEFTCPLCRQFANSVLPCYPGSNVENNPWQRPSNKSIQDLIKEVEELQGRPGAFPSETNLSKEMESVMKDIKNTTQKKYRDYSKTPGSPDNDFLFMYSVARTNLELELIHRGGNLCSGGASTAGKRSCLNQLFHVLALHMRLYSIDSEYNPWRKLTQLEEMNPQLGYEEQQPEVPILYHDVTSLLLIQILMMPQPLRKDHFTCIVKVLFTLLYTQALAALSVKCSEEDRSAWKHAGALKKSTCDAEKSYEVLLSFVISELFKGKLYHEEGTQECAMVNPIAWSPESMEKCLQDFCLPFLRITSLLQHHLFGEDLPSCQEEEEFSVLASCLGLLPTFYQTEHPFISASCLDWPVPAFDIITQWCFEIKSFTERHAEQGKALLIQESKWKLPHLLQLPENYNTIFQYYHRKTCSVCTKVPKDPAVCLVCGTFVCLKGLCCKQQSYCECVLHSQNCGAGTGIFLLINASVIIIIRGHRFCLWGSVYLDAHGEEDRDLRRGKPLYICKERYKVLEQQWISHTFDHINKRWGPHYNGL*

ENST00000272793.11 UBR3

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