| New model in OGS2.0 | DPOGS205814 |
|---|---|
| Genomic Position | scaffold195:+ 80106-86774 |
| See gene structure | |
| CDS Length | 4068 |
| Paired RNAseq reads | 4603 |
| Single RNAseq reads | 10173 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010377 (6e-76) |
| Best Drosophila hit | rosy (0.0) |
| Best Human hit | xanthine dehydrogenase/oxidase (0.0) |
| Best NR hit (blastp) | xanthine dehydrogenase [Bombyx mori] (0.0) |
| Best NR hit (blastx) | xanthine dehydrogenase [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0004854 xanthine dehydrogenase activity GO:0009115 xanthine catabolic process GO:0043546 molybdopterin cofactor binding GO:0050660 FAD binding GO:0051537 2 iron, 2 sulfur cluster binding |
| InterPro families | IPR001041 Ferredoxin IPR016166 FAD-binding, type 2 IPR008274 Aldehyde oxidase/xanthine dehydrogenase, molybdopterin binding IPR002346 Molybdopterin dehydrogenase, FAD-binding IPR000674 Aldehyde oxidase/xanthine dehydrogenase, a/b hammerhead IPR005107 CO dehydrogenase flavoprotein, C-terminal IPR002888 [2Fe-2S]-binding IPR014307 Xanthine dehydrogenase, small subunit IPR014309 Xanthine dehydrogenase, molybdopterin binding subunit IPR016208 Aldehyde oxidase/xanthine dehydrogenase IPR012675 Beta-grasp fold, ferredoxin-type IPR016167 FAD-binding, type 2, subdomain 1 IPR016169 CO dehydrogenase flavoprotein-like, FAD-binding, subdomain 2 IPR006058 2Fe-2S ferredoxin, iron-sulphur binding site IPR022407 Oxidoreductase, molybdopterin binding site |
| Orthology group | MCL10043 |
Nucleotide sequence:
ATGGGACCCAAAAACGTTGACGAAGACAGCAGTCCAGTGTGCACGGAACTTGTTTTTTAC
GTTAATGGAAAAAAGGTCGTTGAATCGAATCCAGATCCAGAATGGACGTTGCTTTGGTAC
TTGAGAAAAAAATTACGACTCACTGGAACAAAGCTTGGCTGCGCCGAAGGTGGATGTGGG
GCGTGTACAGTTATGGTCTCAAAATACAACCGAAGAGACAAAAAAATTGTTCATTTGGCT
GTCAATGCTTGTCTAGCCCCAGTCTGTGCCATGCACGGGCTGGCCGTCACTACGATAGAA
GGTATTGGGTCCACCAGAACTAAACTTCATCCAGTTCAAGAAAGGTTAGCAAAAGCCCAC
GGATCGCAGTGTGGTTTTTGTACACCTGGCATAGTCATGTCCATGTATGCATTGATTAGA
AGCCAGAAAAACATTAAATATTCAGACATGGAAGTCGCATTTCAAGGTAATTTATGTAGA
TGCACCGGCTATCGCGCTATTATTGAAGGCTACAAGACATTTATAGAAGATTGGGAAGTT
AACAGAGTGGTTAATGGCAGTTCGGCCCAAAATAGCACAAACGGTGTTTGCGCGATGGGG
AAAGACTGTTGCAAAAATAAAAATGATAAAAGCGAAACGGAGTATATTTTTGACAAGTCA
ACATTTTTGCCGTATGATCAAAGTCAAGAACCTATATTTCCACCTGAGCTGAAAATATCA
TCTATTTATGATGAACAATATTTAATGTACAGTAGTAATAAAGTTACATGGTATCGACCT
ACGACATTGAAAACATTGGTCCAATTGAAGGACGAACATCCAGAAGCCAAAATTGTTGTA
GGAAACACTGAAGTTGGGGTTGAGGTAAAATTTAAGCATTGCATATATCCAGTTATAATA
ATGCCAAATTGTGTATCAGAAATGAATACGATTTCAGAGAATGAGACAGGCTTAGTGGTT
GGCGCCGCTGTTACGTTATTGGAAATAGAGAACGTTTTCAGGAGCTATATCGAAATCTTG
CCCACATACAAAACAAGAACTTTAACAACTATAATTGAAATGTTAAATTGGTTTGCTGGA
AAACAAATACGGAGCGTGGCTGCCATAGGTGGTAACATCATGACCGGGAGTCCAATATCA
GATTTAAATCCAATACTGATGGCTTTAAAAGTAAAATTAAACCTCTTGAGCGATAGAGAA
GGACAACGTTCGGTTTTAATGGATGAAAGCTTTTTTACTGGCTATAGGAGGAATGTAGTG
AAACCAAATGAAATATTACTTTCTATAGAAATTCCTTATTCAGAAAAATTCCAATACGTC
AAAGCATATAAACAAGCAAAAAGGAGAGAAGACGATATTTCTATTGTAACAGCAGCAATT
AGTGTACAATTTAAAAGCAATACAAGTGTTATAGGCAACATTGGCTTGGCATTTGGAGGA
ATGGCTCCAGTAACTAAAATAGCATCAAAAACATGTGATTCTTTGAAAAATCTCAAATGG
AATGAAGACATGCTTGAAAAGGCTTATGCTTCCTTATTAGAGGAATTGCCCTTAAGTCCC
TCGGTTCCCGGTGGCAATGTTGAATTTAGACAAGCTTTAACGATGAGCTTATTTTTGAAG
GCTTATTTAGCTATATCTAAAGAGATGGTACACGATAATATATTTAAAGAAGCTATCGAC
CCCTATCAAAGTAGTGGCGCCGAACAGTTTCATGGCTCTATACCGAAAAGTTCACAATAT
TTTGAATTAATTGGTGACAAACAAGTCAAAAGCGATGCAGTCGGTAGGCCAATACCTCAT
TTATCAGCACTAAAACAAGTAACAGGGGAAGCAATATATTGTGATGATATGCCTTTAGCG
GAGGGTGAATTATATTTAGCATTTGTTTTAAGCACAAAAGCACACGCTAAGTTGATATCT
ATAAATGCTGAAGAAGCACTTAAAGAACCGGGTGTTGTGGCCTTCTTCTCAGCTAAGGAT
TTGACAGAAGATCAAAATACTATTGGACCAATATTCCATGATGAAGAATTGTTTGCTAGC
GATAAAGTTATTAGCCAGGGTCAAACAATTGGCGTTGTAATTGCTCAAGATCAACAAACG
GCTCAAGCTGCCGCAAGAAAAGTAAAAGTCGAATATGAAGAGTTACAACCGGTTATTGTC
ACAATTGAAGATGCTATAAAACATAATTCGTTTTATAAGCAATTCCCAAAAACGTTGCGT
AAAGGCGATGTTCAAAGTGTCTTTGATGATCCTGCCCATATTATTATAGAGGGAGACTGT
CGGATGGGAGGGCAGGAGCATTTCTACTTGGAAACCCATGCAGCTTTTGCTATACCAAAA
AAGGAAGACAATGAATTAGAAATATTTTGTTCCAGTCAACATCCATCAGAAATAGTGAAA
TTGGTTAGTCATGTTCTTCATGTGCCAATGAACAGAATAGTAGCTCGTGTTAAGCGAATG
GGAGGTGGATTTGGTGGAAAAGAATCTCGGGGGATGTTGGTAGCTTTGCCAGTAGCTATC
GCTGCTCATAAACTACAAAGACCAGTACGTTGTATGCTGGATCGTGACGAAGATATGCAA
ATGTCCGGAACAAGACACCCGTTCTTAATAAAATATAAAGTAGCAGTTACAAAAGAGGGA
AAAATGATGGCGGCAGATGTTAATATTTATAATAACGGAGGGTACTCTTTTGATCTCTCT
GGACCAGTGGTAGAAAGAGCAATGTTTCATTTCGAAAATGCTTATTATATACCCCATAGC
GTTGTCACCGGCTACGTATGCAAGACGAATCTGCCATCAAACACAGCATTTCGAGGATTC
GGTGGTCCTCAGGGAATGTTTGGCGCTGAAAATATGATTTGGGATATTGCAGCCAAATTA
AACAAAAGTCAAGACGAAATTAGGCGGATTAACTTGTATACTGAGAACTCAATTACACAT
TATGGTCAAGTGCTAACTCATTGTACTTTACAAAGATGTTGGGATGAATGTGTAGAGAAA
AGCAATATATCACAAAGAAGAAAAGATATTGAAGAATTTAATAAACAAAACCGTTGGCGG
AAGAGAGGCATCTCTATAATTCCAACTAAATTTGGAATTGCATTCACTGAGAAGTTATTG
AATCAGGCTGGTGCTTTATTATTGGTTTATACAGATGGCTCCGTACTCTTATCCCACGGG
GGCACAGAAATGGGACAAGGACTCCATACGAAAATGATACAGATTGTATCCCGTGCTTTA
GGAATAGATATTTCAAAGATTCATATAAGTGAAACAGCTACTGATAAAGTCCCCAATACA
TCAGCGACAGCTGCGAGTGCCGGTTCAGATCTGAATGGTATGGCTGTTCTGGAGGCATGT
CAGACACTAACGAAGCGTCTCCAGCCTTACAAGGATAAAATTCCAAATGGAAAATGGGAA
GACTGGGTATCGGCGGCTTATGTAGACCGGGTAAGCTTAGCTGCTACAGGATTCTACGCT
ACTCCGGATATTGGTTTCGACTTTAAGAACAACAAAGGAAAACCTTTCAATTACTTTACA
TTTGGGGTGGCATGTGCCGAAGTTGAAATAGATTGCCTCAGTGGTGACCACCAAGTTATA
AGAACTGATATAGTCATGGACTTAGGAGAGAGTATTAATCCAGCTATCGACATTGGTCAA
ATCGAGGGTGCGTTCATTCAAGGCTACGGTCTGTTCACAATGGAAGAACTCATCTATTCT
CCAACTGGCTCACTATATTCAAGAGGACCGGGCGCTTACAAAATCCCAGGATTTGGGGAC
ATTCCTCAAGAGTTTAATGTGTCTTTATTAAAAGGAGCTCCTAACCCTAGGGCTGTCTAC
TCATCCAAGGCGGTTGGAGAACCTCCTCTCTTTCTGGCGTCTTCTATTTTCTTCGCAATA
AAAGAAGCGATAAAAGCTGCTCGAGCTGACGCAGGCGTTTCTCCCGATTATAAGCTCGAA
TCACCAGCTACCTCTGCCCGTATCCGGATGGCGTGTGAGGATCATATAACCAAAAAAATT
CCTCGACCGGAACCGGGCAGCTTTATTCCGTGGAACGTAGTACCATAA
Protein sequence:
MGPKNVDEDSSPVCTELVFYVNGKKVVESNPDPEWTLLWYLRKKLRLTGTKLGCAEGGCG
ACTVMVSKYNRRDKKIVHLAVNACLAPVCAMHGLAVTTIEGIGSTRTKLHPVQERLAKAH
GSQCGFCTPGIVMSMYALIRSQKNIKYSDMEVAFQGNLCRCTGYRAIIEGYKTFIEDWEV
NRVVNGSSAQNSTNGVCAMGKDCCKNKNDKSETEYIFDKSTFLPYDQSQEPIFPPELKIS
SIYDEQYLMYSSNKVTWYRPTTLKTLVQLKDEHPEAKIVVGNTEVGVEVKFKHCIYPVII
MPNCVSEMNTISENETGLVVGAAVTLLEIENVFRSYIEILPTYKTRTLTTIIEMLNWFAG
KQIRSVAAIGGNIMTGSPISDLNPILMALKVKLNLLSDREGQRSVLMDESFFTGYRRNVV
KPNEILLSIEIPYSEKFQYVKAYKQAKRREDDISIVTAAISVQFKSNTSVIGNIGLAFGG
MAPVTKIASKTCDSLKNLKWNEDMLEKAYASLLEELPLSPSVPGGNVEFRQALTMSLFLK
AYLAISKEMVHDNIFKEAIDPYQSSGAEQFHGSIPKSSQYFELIGDKQVKSDAVGRPIPH
LSALKQVTGEAIYCDDMPLAEGELYLAFVLSTKAHAKLISINAEEALKEPGVVAFFSAKD
LTEDQNTIGPIFHDEELFASDKVISQGQTIGVVIAQDQQTAQAAARKVKVEYEELQPVIV
TIEDAIKHNSFYKQFPKTLRKGDVQSVFDDPAHIIIEGDCRMGGQEHFYLETHAAFAIPK
KEDNELEIFCSSQHPSEIVKLVSHVLHVPMNRIVARVKRMGGGFGGKESRGMLVALPVAI
AAHKLQRPVRCMLDRDEDMQMSGTRHPFLIKYKVAVTKEGKMMAADVNIYNNGGYSFDLS
GPVVERAMFHFENAYYIPHSVVTGYVCKTNLPSNTAFRGFGGPQGMFGAENMIWDIAAKL
NKSQDEIRRINLYTENSITHYGQVLTHCTLQRCWDECVEKSNISQRRKDIEEFNKQNRWR
KRGISIIPTKFGIAFTEKLLNQAGALLLVYTDGSVLLSHGGTEMGQGLHTKMIQIVSRAL
GIDISKIHISETATDKVPNTSATAASAGSDLNGMAVLEACQTLTKRLQPYKDKIPNGKWE
DWVSAAYVDRVSLAATGFYATPDIGFDFKNNKGKPFNYFTFGVACAEVEIDCLSGDHQVI
RTDIVMDLGESINPAIDIGQIEGAFIQGYGLFTMEELIYSPTGSLYSRGPGAYKIPGFGD
IPQEFNVSLLKGAPNPRAVYSSKAVGEPPLFLASSIFFAIKEAIKAARADAGVSPDYKLE
SPATSARIRMACEDHITKKIPRPEPGSFIPWNVVP