New model in OGS2.0 | DPOGS204714  |
---|---|
Genomic Position | scaffold1268:- 25311-39382 |
See gene structure | |
CDS Length | 4332 |
Paired RNAseq reads   | 6 |
Single RNAseq reads   | 17 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008268 (6e-42) |
Best Drosophila hit   | CG18519, isoform A (0.0) |
Best Human hit | xanthine dehydrogenase/oxidase (6e-81) |
Best NR hit (blastp)   | aldehyde oxidase 2 [Bombyx mori] (0.0) |
Best NR hit (blastx)   | aldehyde oxidase 2 [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0004854 xanthine dehydrogenase activity GO:0051536 iron-sulfur cluster binding GO:0050660 FAD binding GO:0005506 iron ion binding GO:0055114 oxidation reduction GO:0009055 electron carrier activity |
InterPro families    | IPR006058 2Fe-2S ferredoxin, iron-sulphur binding site IPR012675 Beta-grasp fold, ferredoxin-type IPR002888 [2Fe-2S]-binding IPR005107 CO dehydrogenase flavoprotein, C-terminal IPR000674 Aldehyde oxidase/xanthine dehydrogenase, a/b hammerhead IPR008274 Aldehyde oxidase/xanthine dehydrogenase, molybdopterin binding IPR001041 Ferredoxin IPR016166 FAD-binding, type 2 IPR002346 Molybdopterin dehydrogenase, FAD-binding |
Orthology group | MCL10043 |
Nucleotide sequence:
ATGTTAAAGCGCGTTGTGATAATAGAGCTTACGGTTAGTTGGGAAACCAACATCTACAAA
GACCATGCCATCAAGGTCAATAAATATTACGAGCTCACAAACGAACTTACTCGAAATAGG
TTCGTCATGGAATTGTACGCGGTAGAAGTGGGAGCAAGACTGGGCAGTGAGGTGAGTTCC
TCTACAACCCTGCTGGAGTATCTCCGGAGACACCTGGAGCTGCGCGGTACCAAGTACATG
TGTCTGGAGGGAGGATGTGGCGCCTGTATCGTGAACGTCGTCAAAAGTCCTGGTGAAGCT
TCTTTGGGTGTCAATTCATGCATGGTGCCAATAACTTCTTGCAATGGCTGGGATATAACA
ACTATAGAGGGAATTGGTAACCGTTTGAAAGGTTATCACCCGATACAAGTGACACTCGCT
GAGAACAACGGCTCTCAATGCGGTTACTGCAGTCCAGGATGGGTCATGGCATTGTACAGC
ATACTCAGAAACCGACGGCCGACGATGCTAGAAATAGAGCAATCATTTGGGAGTAACATA
TGCAGATGTACAGGATATAGGCCGATTTTAGAGGCGTTCAAGAAATTCGCAATAGATTCT
CCTGATGTTAAGGTTATACCAGATATTGAAGATTTAAGATTATGTGAGAAGTCTAGAGAA
CAGTGTTCGAAAAATAGTTGTAGCGAGTGGGATTGGTGTGTAATAAACAAAAGCGATTTG
ACTGATGACATTCCTCACATTCAATTACGTGATCACCGAGATTGGTTTAAAGCGACCACT
ATTGATAATATTTTCTCACTTTGGCAGCAATTTGGTACAGAATCCTATATGCTGGTTGGA
GGAAATACGGGAAAAGGCGTTGTTCCAATATTGGAATATCCCAAACTTCTTATTGATATA
AATCATATTCCCGAACTACATGGTTATTACGTGGATCAAAATTTGGTGATCGGAGCATCA
ACGACTCTGACTGATTTAATGACAATATTTGAATTCAAAGGTGCTACTAGAGAATTTAAT
TATTTGAATATCCTCAATGATCATTTGAGAATGGTAGCTCATATAGCTATTAGAAATTGC
ATGGTGCCAATAACTTCTTGCAATGGCTGGGATATAACAACTATAGAGGGAATTGGTAAC
CGTTTGAAAGGTTATCACCCGATACAAGTGACACTCGCTGAGAACAACGGCTCTCAATGC
GGTTACTGCAGTCCAGGATGGGTCATGGCATTATACAGCATACTCAGAAACCGACGGCCG
ACGATGCTAGAAATAGAGCAATCATTTGGGAGTAACATATGCAGATGTACAGGATATAGG
CCGATTTTAGAGGCGTTCAAGAAATTCGCAATAGATTCTCCTGATGTTAAGGTTATACCA
GATATTGAAGATTTAAGATTATGTGAGAAGTCTAGAGAACAGTGTTCGAAAAATAGTTGT
AGCGAGTGGGATTGGTGTGTAATAAACAAAAGCGATTTGACTGATGACATTCCTCACATT
CAATTACGTGATCACCGAGATTGGTTTAAAGCGACCACTATTGATAATATTTTCTCACTT
TGGCAGCAATTTGGTACAGAATCCTATATGCTGGTTGGAGGAAATACGGGAAAAGGCGTT
ATTCCAATATTGGAATATCCGAAACTTCTTATTGATATAAATCATATTTCCGAACTACAT
GGTTATTACGTGGATCAAAATTTGGTGATCGGAGCATCAACGACTCTGACTGATTTGATG
ACAATATTTGAATTCAAAGGTGCTACTAGAGAATTTAATTATTTGAATATCCTTAATGAT
CATTTGAGAATGGTAGCTCATATAGCTATTAGAAATGTTGCGCCTCGAAGCCAAAATGCA
CACGCTTGGGTCCACGCCGGTTTTCACTATATAGTAGACTCGTATGATATAGTTCTAGAT
TGTATTATCGTGTATGGTGGACTTTCGCCTAATTATACCAGGTCGTGGAAGACTGAGCAA
TATCTAGTTGGTAAACATTTATGGAATAATAAAACCCTTCAGGGAGCACTAAATGTTCTG
AGTGAAGAGTTGCAAGTGTCTGAGAGTCTACCGGATCCCCCGGTACAGTTTAGGCGACTG
TCTGCTTTGGGACTATTTTACAAGGGTCTCCTCTCACTTTGTCCTCAAGAGATACTAAAT
CCTCGTTATATTTCTGGAATGACTAAAATTCATAACACTCGTCCTCTTTCACAAGGACGG
CAAAATTTTGAAACTAATCCTGCCCTTTGGCCAATTAATTTGCCAATACCAAAACTGGAA
GCCTTAATACAATGTGCTGGAGAAGCTGAATATACAGAGGATTTACCAACACTTCCGAGA
GAAGTGTATGCAGCTTTCGTACTTACTACAGTTCCTCTTGGAACCATCACTAAAATCGAT
GCTAGTAAAGCTTTGGCAGTCCCTGGTGTTATTGCGTTTTATACGGCAGCGGATATTCCA
GGAAAAAACAGTTTTGTACCAGCTGTGAATGACACTAATAAAGCTGACGAAGAAGTGCTA
TGTGATGGAGAAGTTAAATATTATAATCAACCTTTTGGTATTGTTGTTGGAGAATATCAA
GAAGCTGTGGACAAAGCTGTTATTATGGTTGAAGTCACATACGCTAACGTTCGACAACCG
ATTCTCGATATAGCCATAGCTAAACATATACCTGAAAGGGTTACATTTTACGCTGCAAAT
AATCCTTCTGGAAGAGGACGTGACGTTTATAAAGTTATTAAAGGCGAACAAAATATTTAC
ACACAATATCATTTTCCAATAGAAACAATAGTGGGTATAACGCAGAAGACAGAAGAGGGA
ATACGAGTTTTTAACACAGCTCAGGGGATTGATTCTGTGCAAGTAGCAACATCCAGGGCA
TTGTTAATGGATCAGAGTAGAATAGATGTATTTGTGCGCCGACTAGGGGGCGCTTACGGT
TTAAAAATAACCAGGTCGACACAAGTTTCAATAGCTAGTAGTTTGGTTGCATACAAGCTA
AATCGTCCTTGCCGCTTTATACAATCATTGAGAGCTAATATGAGAGCTGTAGGAAAAAGA
TTACCTGCTTCTTTAATTCAGTACGTAGATTATGACCTTTACAGTGATAACGGTTATATT
GTTAATGAAACTCTTTTGGTTGCTGGTACCGAAGACTATAACAATGCTTATAGAAGTGAC
AAGTGGAAATATAGATCTTTTACTGTTACAACCGACACTCCATCAAATAGCTGGTGTCGG
GCGCCAGGTTCGTTGGAACATGTTGCAATGGCCGAAACTATCTTAGAAAGAATAGCGTAT
GAAATGAATATAGATCCATTTGAAATTCGTCTAACAAACTTCGATTCAATTAAATATGAT
GAGATGATAGGTATGATAACAAGAATAAGAACAGAGTCTCAATACGATGAAAGAAGAGTT
CTGGTTGAAAAATTTAACATAGACAATCGCTGGAAAAAGCGTGGTCTAAAAGTCTCATTT
CTTAGATGGAATACGTCTCGACGTAAATATTTAGATGTTAACTTAGATGTTTATAAAGAT
GATGGGACAGTGGCTATAACGCATGGCGGTATTGAAATGGGTCAAGGAATGAATACAAGA
GCTGTGCAAATATGCGCCAGTTTTTTGGATATACCTTTGGATAAAATTCAAATAAAATGC
ACTAACACTATTAACGCACCGAACAATAGCGATACAGAGTCGAGTGTGACATCTCAAAAT
GTAGGTAGAGGCGTACGTAGATGCTGTGAAGAACTCTTGACACGATTAGAGCCAGCAAAA
AAACAGCTGCATGACCCTACTTGGGTGGAACTTGTTCAAAAGGCTTATGCCATGAATATT
GATTTGCAAGTACACGGTTTTGTAAGTCCTAATGATGAAGTAGACCAAACTATTTATGGT
GTTACAGTCGCCGAAGTTGAAATAGATGTTTTAACAGGGGAATGGGAAATTTTGAGGGTC
GATTTAATTGAAGATGTTGGAAGAAGTATTAATCCGGATCTTGATGTTGGTCAAATTGAA
GGTGCCTTTGTGATGGGCCTTGGCTACTGGACGACAGAAAATATAGTGTATGAACCTGAA
AGTGGAGAAATTCTCTCGGACCGTACTTGGCAATACTGGGTGCCTGGAGCCAGAGACATC
CCACAGGATTTTAGGATCTACTTTAGAAAACGGTCGTTTAGTAATGATGCTTTTCTTGGA
TCTAAAGCAACGGGTGAGCCAGCGACATGTATGGCAATTGTTATACCATTTGCAATGAGG
GGGGCCATAGCATCAGCTCGCGAGGAAACTGGCATACCTAAAACTGAATGGTTCCAAATA
GGTGATTTTTAG
Protein sequence:
MLKRVVIIELTVSWETNIYKDHAIKVNKYYELTNELTRNRFVMELYAVEVGARLGSEVSS
STTLLEYLRRHLELRGTKYMCLEGGCGACIVNVVKSPGEASLGVNSCMVPITSCNGWDIT
TIEGIGNRLKGYHPIQVTLAENNGSQCGYCSPGWVMALYSILRNRRPTMLEIEQSFGSNI
CRCTGYRPILEAFKKFAIDSPDVKVIPDIEDLRLCEKSREQCSKNSCSEWDWCVINKSDL
TDDIPHIQLRDHRDWFKATTIDNIFSLWQQFGTESYMLVGGNTGKGVVPILEYPKLLIDI
NHIPELHGYYVDQNLVIGASTTLTDLMTIFEFKGATREFNYLNILNDHLRMVAHIAIRNC
MVPITSCNGWDITTIEGIGNRLKGYHPIQVTLAENNGSQCGYCSPGWVMALYSILRNRRP
TMLEIEQSFGSNICRCTGYRPILEAFKKFAIDSPDVKVIPDIEDLRLCEKSREQCSKNSC
SEWDWCVINKSDLTDDIPHIQLRDHRDWFKATTIDNIFSLWQQFGTESYMLVGGNTGKGV
IPILEYPKLLIDINHISELHGYYVDQNLVIGASTTLTDLMTIFEFKGATREFNYLNILND
HLRMVAHIAIRNVAPRSQNAHAWVHAGFHYIVDSYDIVLDCIIVYGGLSPNYTRSWKTEQ
YLVGKHLWNNKTLQGALNVLSEELQVSESLPDPPVQFRRLSALGLFYKGLLSLCPQEILN
PRYISGMTKIHNTRPLSQGRQNFETNPALWPINLPIPKLEALIQCAGEAEYTEDLPTLPR
EVYAAFVLTTVPLGTITKIDASKALAVPGVIAFYTAADIPGKNSFVPAVNDTNKADEEVL
CDGEVKYYNQPFGIVVGEYQEAVDKAVIMVEVTYANVRQPILDIAIAKHIPERVTFYAAN
NPSGRGRDVYKVIKGEQNIYTQYHFPIETIVGITQKTEEGIRVFNTAQGIDSVQVATSRA
LLMDQSRIDVFVRRLGGAYGLKITRSTQVSIASSLVAYKLNRPCRFIQSLRANMRAVGKR
LPASLIQYVDYDLYSDNGYIVNETLLVAGTEDYNNAYRSDKWKYRSFTVTTDTPSNSWCR
APGSLEHVAMAETILERIAYEMNIDPFEIRLTNFDSIKYDEMIGMITRIRTESQYDERRV
LVEKFNIDNRWKKRGLKVSFLRWNTSRRKYLDVNLDVYKDDGTVAITHGGIEMGQGMNTR
AVQICASFLDIPLDKIQIKCTNTINAPNNSDTESSVTSQNVGRGVRRCCEELLTRLEPAK
KQLHDPTWVELVQKAYAMNIDLQVHGFVSPNDEVDQTIYGVTVAEVEIDVLTGEWEILRV
DLIEDVGRSINPDLDVGQIEGAFVMGLGYWTTENIVYEPESGEILSDRTWQYWVPGARDI
PQDFRIYFRKRSFSNDAFLGSKATGEPATCMAIVIPFAMRGAIASAREETGIPKTEWFQI
GDF