Information

Transcript ID: ENST00000389039.11
Genome: hg19
Position: chr15:45,384,848-45,406,370
Strand: -
CDS length: 4,647
Amino acid length: 1,549
Gene symbol: DUOX2
Gene type: protein-coding
Gene description: dual oxidase 2
Gene Entrez Gene ID: 50506

Variants

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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
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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	45,384,848	45,386,470
33	45,386,761	45,386,889
32	45,387,134	45,387,289
31	45,387,635	45,387,793
30	45,388,026	45,388,258
29	45,389,436	45,389,589
28	45,389,812	45,389,939
27	45,390,207	45,390,256
26	45,391,581	45,391,680
25	45,391,860	45,392,090
24	45,392,248	45,392,426
23	45,392,953	45,393,036
22	45,393,403	45,393,472
21	45,393,991	45,394,187
20	45,396,158	45,396,251
19	45,396,338	45,396,563
18	45,397,841	45,398,026
17	45,398,323	45,398,525
16	45,398,726	45,398,839
15	45,399,030	45,399,167
14	45,399,543	45,399,661
13	45,400,245	45,400,420
12	45,400,987	45,401,150
11	45,401,722	45,401,824
10	45,402,088	45,402,178
9	45,402,626	45,402,722
8	45,402,848	45,402,908
7	45,403,309	45,403,475
6	45,403,582	45,403,783
5	45,403,966	45,404,153
4	45,404,752	45,404,916
3	45,405,185	45,405,274
2	45,405,540	45,405,623
1	45,406,171	45,406,370

CDS

Exon number	Type	Start	Stop
34	CDS	45,386,348	45,386,470
33	CDS	45,386,761	45,386,889
32	CDS	45,387,134	45,387,289
31	CDS	45,387,635	45,387,793
30	CDS	45,388,026	45,388,258
29	CDS	45,389,436	45,389,589
28	CDS	45,389,812	45,389,939
27	CDS	45,390,207	45,390,256
26	CDS	45,391,581	45,391,680
25	CDS	45,391,860	45,392,090
24	CDS	45,392,248	45,392,426
23	CDS	45,392,953	45,393,036
22	CDS	45,393,403	45,393,472
21	CDS	45,393,991	45,394,187
20	CDS	45,396,158	45,396,251
19	CDS	45,396,338	45,396,563
18	CDS	45,397,841	45,398,026
17	CDS	45,398,323	45,398,525
16	CDS	45,398,726	45,398,839
15	CDS	45,399,030	45,399,167
14	CDS	45,399,543	45,399,661
13	CDS	45,400,245	45,400,420
12	CDS	45,400,987	45,401,150
11	CDS	45,401,722	45,401,824
10	CDS	45,402,088	45,402,178
9	CDS	45,402,626	45,402,722
8	CDS	45,402,848	45,402,908
7	CDS	45,403,309	45,403,475
6	CDS	45,403,582	45,403,783
5	CDS	45,403,966	45,404,153
4	CDS	45,404,752	45,404,916
3	CDS	45,405,185	45,405,274
2	CDS	45,405,540	45,405,609

Other genome

Genome	Chromosome	Start	End	Links
hg38	chr15	45,092,650	45,114,172	Link

CDS sequence

ATGCTCCGTGCAAGACCAGAGGCACTGATGCTCCTGGGAGCTCTTCTGACTGGATCCCTGGGTCCATCGGGCAGTCAGGACGCACTCTCACTGCCCTGGGAAGTGCAGCGCTATGACGGCTGGTTTAACAACCTGAGGCACCACGAGCGTGGTGCTGTTGGCTGCCGGTTGCAGCGCCGCGTACCAGCCAATTACGCCGACGGTGTGTATCAGGCTCTGGAGGAGCCGCAGCTGCCCAACCCGCGCCGGCTCAGCAACGCAGCCACGCGGGGCATAGCCGGCCTGCCGTCGCTCCACAACCGCACCGTACTGGGGGTCTTCTTTGGCTACCATGTTCTTTCCGACGTGGTGAGCGTGGAAACGCCCGGTTGCCCCGCCGAGTTCCTCAACATCCGCATCCCACCTGGAGACCCCGTGTTCGACCCCGACCAGCGCGGGGACGTGGTGCTGCCCTTCCAGAGGAGCCGCTGGGACCCCGAGACCGGACGGAGTCCCAGCAACCCCCGGGACCTGGCCAACCAGGTGACGGGCTGGCTGGACGGCAGCGCCATCTATGGCTCCTCGCACTCCTGGAGCGACGCGCTGCGGAGCTTCTCGGGGGGACAGCTGGCGTCGGGGCCCGACCCCGCTTTCCCCCGAGACTCGCAGAACCCCCTGCTCATGTGGGCGGCGCCCGACCCCGCCACCGGGCAGAACGGGCCCCGGGGGCTGTACGCCTTCGGGGCAGAGAGAGGGAACCGGGAACCCTTCCTGCAGGCGCTGGGCCTGCTCTGGTTCCGCTACCACAACCTGTGGGCGCAGAGGCTGGCCCGCCAGCACCCAGACTGGGAGGACGAGGAGCTGTTCCAGCACGCACGCAAGAGGGTCATCGCCACCTACCAGAACATCGCTGTGTATGAGTGGCTGCCCAGCTTCCTGCAGAAAACACTCCCGGAGTATACAGGATACCGTCCTTTCCTAGACCCCAGCATCTCCCCGGAATTTGTGGTGGCCTCTGAGCAGTTCTTCTCTACCATGGTGCCCCCTGGTGTCTACATGAGAAATGCCAGCTGTCATTTCCGGAAGGTCCTGAACAAGGGTTTTCAAAGCTCCCAAGCTCTCAGGGTCTGCAACAACTACTGGATTCGGGAGAACCCCAATCTGAACAGTACCCAGGAGGTGAATGAGCTGCTGCTGGGAATGGCCTCCCAGATTTCGGAGTTGGAGGACAACATAGTGGTTGAAGATCTGAGGGATTACTGGCCTGGCCCTGGCAAATTCTCCCGTACAGACTATGTGGCCAGCAGCATCCAACGTGGCCGAGATATGGGGCTGCCCAGCTATAGCCAGGCCCTGCTGGCCTTTGGGCTGGACATCCCAAGGAACTGGAGTGATCTCAACCCTAATGTGGACCCCCAGGTGCTGGAGGCCACAGCTGCCCTGTACAACCAGGACCTATCCCAGCTAGAGCTGCTCCTTGGGGGGCTCCTGGAGAGCCATGGGGACCCTGGACCCCTGTTCAGTGCCATTGTCCTCGACCAGTTTGTACGGCTGCGGGATGGTGACCGCTACTGGTTTGAGAACACCAGGAATGGGCTGTTCTCCAAGAAGGAGATTGAAGACATCCGAAATACCACCCTGCGGGACGTGCTGGTCGCTGTTATCAACATTGACCCCAGTGCCCTGCAGCCCAATGTCTTTGTCTGGCATAAAGGTGCACCCTGCCCTCAACCTAAGCAGCTCACAACTGACGGCCTGCCCCAGTGTGCACCCCTGACTGTGCTTGACTTCTTTGAAGGCAGCAGCCCTGGTTTTGCCATCACCATCATTGCTCTCTGCTGCCTTCCCTTAGTGAGTCTGCTTCTCTCTGGAGTGGTGGCCTATTTCCGGGGCCGAGAACACAAGAAGCTACAAAAGAAACTCAAAGAGAGCGTGAAGAAGGAAGCAGCCAAAGATGGAGTGCCAGCGATGGAGTGGCCAGGCCCCAAGGAGAGGAGCAGTCCCATCATCATCCAGCTGCTGTCAGACAGGTGTCTGCAGGTCCTGAACAGGCATCTCACTGTGCTCCGTGTGGTCCAGCTGCAGCCTCTGCAGCAGGTCAACCTCATCCTGTCCAACAACCGAGGATGCCGCACCCTGCTGCTCAAGATCCCTAAGGAGTATGACCTGGTGCTGCTGTTTAGTTCTGAAGAGGAACGGGGCGCCTTTGTGCAGCAGCTATGGGACTTCTGCGTGCGCTGGGCTCTGGGCCTCCATGTGGCTGAGATGAGCGAGAAGGAGCTATTTAGGAAGGCTGTGACAAAGCAGCAGCGGGAACGCATCCTGGAGATCTTCTTCAGACACCTTTTTGCTCAGGTGCTGGACATCAACCAGGCCGACGCAGGGACCCTGCCCCTGGACTCCTCCCAGAAGGTGCGGGAGGCCCTGACCTGCGAGCTGAGCAGGGCCGAGTTTGCCGAGTCCCTGGGCCTCAAGCCCCAGGACATGTTTGTGGAGTCCATGTTCTCTCTGGCTGACAAGGATGGCAATGGCTACCTGTCCTTCCGAGAGTTCCTGGACATCCTGGTGGTCTTCATGAAAGGCTCCCCAGAGGATAAGTCCCGTCTAATGTTTACCATGTATGACCTGGATGAGAATGGCTTCCTCTCCAAGGACGAATTCTTCACCATGATGCGATCCTTCATCGAGATCTCCAACAACTGCCTGTCCAAGGCCCAGCTGGCCGAGGTGGTGGAGTCTATGTTCCGGGAGTCGGGATTCCAGGACAAGGAGGAGCTGACATGGGAGGATTTTCACTTCATGCTGCGGGACCATGACAGCGAGCTCCGCTTCACGCAGCTCTGTGTCAAAGGTGGAGGTGGAGGTGGAAATGGTATTAGAGATATCTTTAAACAAAACATCAGCTGTCGAGTCTCGTTCATCACTCGGACACCTGGGGAGCGCTCCCACCCCCAGGGACTGGGGCCCCCTGCCCCAGAAGCCCCAGAGCTGGGAGGCCCTGGACTGAAGAAGAGGTTTGGCAAAAAGGCAGCAGTGCCCACTCCCCGGCTGTACACAGAGGCGCTGCAAGAGAAGATGCAGCGAGGCTTCCTAGCCCAAAAGCTGCAGCAGTACAAGCGCTTCGTGGAGAACTACCGGAGGCACATCGTGTGTGTGGCAATCTTCTCGGCCATCTGTGTTGGCGTGTTTGCAGATCGTGCTTACTACTATGGCTTTGCCTCGCCACCCTCGGACATTGCACAGACCACCCTCGTGGGCATCATCCTGTCACGAGGCACGGCGGCCAGCGTCTCCTTCATGTTCTCTTATATCTTGCTCACCATGTGCCGCAACCTCATAACCTTCCTGCGAGAGACTTTCCTCAACCGCTATGTGCCTTTTGATGCCGCAGTGGACTTCCACCGCTGGATCGCCATGGCTGCTGTTGTCCTGGCCATTTTGCACAGTGCTGGCCACGCAGTCAATGTCTACATCTTCTCAGTCAGCCCACTCAGCCTGCTGGCCTGCATATTCCCCAACGTCTTTGTGAATGATGGGTCCAAGCTTCCCCAGAAGTTCTATTGGTGGTTCTTCCAGACCGTCCCAGGTATGACAGGTGTGCTTCTGCTCCTGGTCCTGGCCATCATGTATGTCTTCGCCTCCCACCACTTCCGCCGCCGCAGCTTCCGGGGCTTCTGGCTGACCCACCACCTCTACATCCTGCTCTATGCCCTGCTCATCATCCATGGCAGCTATGCTCTGATCCAGCTGCCCACTTTCCACATCTACTTCCTGGTCCCGGCAATCATCTATGGAGGTGACAAGCTGGTGAGCCTGAGCCGGAAGAAGGTGGAGATCAGCGTGGTGAAGGCGGAGCTGCTGCCCTCAGGAGTGACCTACCTGCAATTCCAGAGGCCCCAAGGCTTTGAGTACAAGTCAGGACAGTGGGTGCGGATCGCCTGCCTGGCTCTGGGGACCACCGAGTACCACCCCTTCACACTGACCTCCGCGCCCCATGAGGACACACTCAGCCTGCACATCCGGGCAGTGGGGCCCTGGACCACTCGCCTCAGGGAGATCTACTCATCCCCAAAGGGCAATGGCTGTGCTGGATACCCAAAGCTGTACCTTGATGGACCGTTTGGAGAGGGCCATCAGGAGTGGCATAAATTTGAGGTGTCAGTGTTGGTGGGAGGGGGCATTGGGGTCACCCCCTTTGCCTCCATCCTCAAAGACCTGGTCTTCAAGTCATCCTTGGGCAGCCAAATGCTGTGTAAGAAGATCTACTTCATCTGGGTGACACGGACCCAGCGTCAGTTTGAGTGGCTGGCTGACATCATCCAAGAGGTGGAGGAGAACGACCACCAGGACCTGGTGTCTGTGCACATTTATGTCACCCAGCTGGCTGAGAAGTTCGACCTCAGGACCACCATGCTATACATCTGCGAGCGGCACTTCCAGAAAGTGCTGAACCGGAGTCTGTTCACGGGCCTGCGCTCCATCACCCACTTTGGCCGTCCCCCCTTCGAGCCCTTCTTCAACTCCCTGCAGGAGGTCCACCCACAGGTGCGCAAGATCGGGGTGTTCAGCTGCGGCCCTCCAGGAATGACCAAGAATGTAGAGAAGGCCTGTCAGCTCGTCAACAGGCAGGACCGAGCCCACTTCATGCACCACTATGAGAACTTCTGA

Amino sequence

MLRARPEALMLLGALLTGSLGPSGSQDALSLPWEVQRYDGWFNNLRHHERGAVGCRLQRRVPANYADGVYQALEEPQLPNPRRLSNAATRGIAGLPSLHNRTVLGVFFGYHVLSDVVSVETPGCPAEFLNIRIPPGDPVFDPDQRGDVVLPFQRSRWDPETGRSPSNPRDLANQVTGWLDGSAIYGSSHSWSDALRSFSGGQLASGPDPAFPRDSQNPLLMWAAPDPATGQNGPRGLYAFGAERGNREPFLQALGLLWFRYHNLWAQRLARQHPDWEDEELFQHARKRVIATYQNIAVYEWLPSFLQKTLPEYTGYRPFLDPSISPEFVVASEQFFSTMVPPGVYMRNASCHFRKVLNKGFQSSQALRVCNNYWIRENPNLNSTQEVNELLLGMASQISELEDNIVVEDLRDYWPGPGKFSRTDYVASSIQRGRDMGLPSYSQALLAFGLDIPRNWSDLNPNVDPQVLEATAALYNQDLSQLELLLGGLLESHGDPGPLFSAIVLDQFVRLRDGDRYWFENTRNGLFSKKEIEDIRNTTLRDVLVAVINIDPSALQPNVFVWHKGAPCPQPKQLTTDGLPQCAPLTVLDFFEGSSPGFAITIIALCCLPLVSLLLSGVVAYFRGREHKKLQKKLKESVKKEAAKDGVPAMEWPGPKERSSPIIIQLLSDRCLQVLNRHLTVLRVVQLQPLQQVNLILSNNRGCRTLLLKIPKEYDLVLLFSSEEERGAFVQQLWDFCVRWALGLHVAEMSEKELFRKAVTKQQRERILEIFFRHLFAQVLDINQADAGTLPLDSSQKVREALTCELSRAEFAESLGLKPQDMFVESMFSLADKDGNGYLSFREFLDILVVFMKGSPEDKSRLMFTMYDLDENGFLSKDEFFTMMRSFIEISNNCLSKAQLAEVVESMFRESGFQDKEELTWEDFHFMLRDHDSELRFTQLCVKGGGGGGNGIRDIFKQNISCRVSFITRTPGERSHPQGLGPPAPEAPELGGPGLKKRFGKKAAVPTPRLYTEALQEKMQRGFLAQKLQQYKRFVENYRRHIVCVAIFSAICVGVFADRAYYYGFASPPSDIAQTTLVGIILSRGTAASVSFMFSYILLTMCRNLITFLRETFLNRYVPFDAAVDFHRWIAMAAVVLAILHSAGHAVNVYIFSVSPLSLLACIFPNVFVNDGSKLPQKFYWWFFQTVPGMTGVLLLLVLAIMYVFASHHFRRRSFRGFWLTHHLYILLYALLIIHGSYALIQLPTFHIYFLVPAIIYGGDKLVSLSRKKVEISVVKAELLPSGVTYLQFQRPQGFEYKSGQWVRIACLALGTTEYHPFTLTSAPHEDTLSLHIRAVGPWTTRLREIYSSPKGNGCAGYPKLYLDGPFGEGHQEWHKFEVSVLVGGGIGVTPFASILKDLVFKSSLGSQMLCKKIYFIWVTRTQRQFEWLADIIQEVEENDHQDLVSVHIYVTQLAEKFDLRTTMLYICERHFQKVLNRSLFTGLRSITHFGRPPFEPFFNSLQEVHPQVRKIGVFSCGPPGMTKNVEKACQLVNRQDRAHFMHHYENF*

ENST00000389039.11 DUOX2

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