| New model in OGS2.0 | DPOGS213297 |
|---|---|
| Genomic Position | scaffold464:+ 24918-32920 |
| See gene structure | |
| CDS Length | 5259 |
| Paired RNAseq reads | 365 |
| Single RNAseq reads | 949 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011636 (0.0) |
| Best Drosophila hit | CG32333, isoform A (2e-134) |
| Best Human hit | hypothetical protein LOC57579 isoform c (2e-109) |
| Best NR hit (blastp) | PREDICTED: similar to CG32333-PA [Nasonia vitripennis] (3e-149) |
| Best NR hit (blastx) | AGAP005546-PA [Anopheles gambiae str. PEST] (2e-135) |
| GeneOntology terms | GO:0008150 biological_process GO:0005575 cellular_component GO:0003674 molecular_function |
| InterPro families | IPR007751 Domain of unknown function DUF676, hydrolase-like IPR022122 Protein of unknown function DUF3657 |
| Orthology group | MCL11376 |
Nucleotide sequence:
ATGATTATTTATTTTGGTGTTTCTATATTAATAAGTTTATATCATCTACCAGTTGATAGC
CGCAACCTTAAAGAGTCCTTGGAAAGGGCGGAATGGAGTCTTGGTGTTGAACTCTGGTGC
AGTGAGGGTGCCCAGTCTAGTACTTTGACTCCTGTCTCCTGCCGCGTGCTGAAGCTGCAC
TTTCAGCCTTCCCAGGGCTTGCACTACCATCTGCCTGTGCTGTTTGACTACTTCCATCTC
TCTGCAGTATCTGTCACCATCCACGCTAGCTTGGTTGCCTTACATCAGCCGTATATCAAC
ACGCCCCGCTCTAGCAAACAGTGGGGTAAACTGATGAAGAGTGCAGGTTCAAGCTTCAAT
GCTACTGGCAGCTTGGAGAACATTCTATTTGGATCGAGTGGAAAATGCGCTGGAGGAAAT
TCAAGCAAAATAGCTCACGCCAGACAAGTTCATGCTGAAGTTTGCGGTATATTATTGGGT
TCATTGGAAGGGCTTCAGAGTGCATTAACTGTGTGCGGTTCAACTGGAGTGTTGTTGACT
CCTGAAGAGTCTGCTTCCAACTCTGTGGTCGGTGAAGTAGCACAGCGGATAAAAGACTTG
AGTGATTTGGGCAAAAAGTCTGAAGCTGGGGAAGAAGAAGAGTGGGCAATGGGAGCTGCC
CATGACATTGCTCGGCTCTGCGCAGAAGTAACACTACGATGGCGTGCTTTTCTTCACCAC
ACCTCTGATAGGCCACACGTTCATCACGCGCTTGCAGCCAGACATCATGCACTACGCATC
AAACGCTTCTCCGAGTGTTTCTTCGTATTGGACAATCCTCGTCATTCCCTCGCCGGCTGT
TACGACAGTAACTACCAGTCCTACCAGAGCGTGGGTGAGACCGCCCGGCGTTCGCGTTAC
CTGGCGCTTCTGCCACCATTGCCAGTACACTGCATTGCTTTGGATGGCGATCCACATATA
ATGCCTATTATATTTGAGGATAGATACCAGGACACAGCCGAGTTTGCAAGACGGCGATCG
TTTTTAAATTCTAACGCCAATAAAGCTGGAAGTGATCCGTTCCTATGTTCGGACCCTGCC
GGAGAAGACTGTGCTTGCAGTGTTAGTTCTATAATGGACTCTAGGAGACCGTCATCAGAA
GCTTCTCGCGTAACTTTATCATTGCCAAAAAATATAATAGATGTTCTCGAACCACATTTT
GATAACCAAAAAGCACCCACAGGTGTAGTACAAGCCACTTTAACGTTAGCTCCTCAAAAA
TCAGCCAGAGGATCTCCAAAGCGAACACTTGTAAAACAACACGTCGTAGAGATGACTAAA
CCCCATAATAAGCAAGTAGAACTTACGGGAAGAAATAGATACATTGTACAAAACAATCAA
ATTAGCGAAATCCAACTTCCCCCTAATAATGTCTTTGCTTCATGTCCTATCCAGCAAGGA
CAACAAATGTCCAGATACTCAGCCTCAACGCTATTAGACATAAACTCCGCCAAGAGTACA
ACAAATGTTTCACATTTAGGTAAGGAGAAAACTGATCGTGATGAAGTTTTCAATCAAAAG
CATGACATTACAAGTGGCGTTAGTACATTACCGGCAAGACATAGTAAATCTTTAGATCAG
TTAAGAGTATCACAAATGGCGCCTCTAAGTGTCCAAACATTATCGAAAAATGTGAAAAAT
AGCTCAAACAACTCCGTGAATTATCACAAATCATACGCACCGCCACAACAACAAGTAAAA
CCAACTACTCTCCCTAGAAGTATTACAACTACATCTTATCCTACTAGCACAACGACAAGA
TGTGGATCGAAAGGTGATGAATATAGACGTAATATAAACGAATTTAGAGAAAAATATAAA
AATCCAGGTAATTCTGTTAATTTTCATGGTTTAAATAATGAAGTATTTCACTCTGTAGGC
CATAAGTACGATGGGACAATGAAAGGAGGTAGTAATCAAATTTATGGTTACACTTTCGGT
AATCAGGGTAATATGACAGTGAATAATACTATTCGTAATCCTTTAGAGTTTCAAAGAGGC
TACAGTGTAAATTTACCCCGTCCTATGTTGCCTCCTCGTAATTCTTATCCACCTGTTAGT
GGAAAAACACAAGTGACTGAACAGAGCAATTTAGCTTCTAGCAAACATGTTCATAGATCG
AATTCAACTCATGTTTTCAACCCAAATGTAGAAAAACAACACATGGACATTGAGGCCGCA
CGAAATCAATTAAGACACGAATTAAACTATTACCTTCAAAAAGGGGACTGGAGCTATGAC
TTTAACACAGGGAGTCTTATTCAAAATTATCAAAAGAAATCGAGTAAAAGTAGTGATGAT
AGCGGCTTTGTAATGACTTTAGACCGGAGTAGCGATGGAACATCAAAATCAACATATTCA
AAAACTCCACCATCAACTCCTCATTCGACATTACCATCTGTAAGACATAAAAAGAGTCGT
TCTAAAGATTCTAAATTAAACCTTAATGGAACTGAAATTACAAAGATCAATTCAAGTCGC
GATTCTCTGAGTAGCCATCATTCTGTCAAATCTAGAGACAGCAAATCCGATCGACAGACG
CCAAAATCAGATAGAAGTACTCCAAAATCTGAAAAAGAGACACCTAAATCAGGTAAGGCT
ACGCCTAAATCAGGAGTAGTAACTCCGAGATCTGGTTTAGCTACACCAAAATCAGGTGGA
ACAACGCCCAAGAGTGGTAGATCAAGCGGTAAACCAGAAAAACGAGGAAAACATAAAGCA
TCCGAGAAAATGACTCAACTAATGTCAGAGGCAGCGTCGTCATCTAGTGATGAAAGCATA
CCTTTTGAACTGAGGCGCTTAGAATCTTCATCCAGTGTACCTTATAGTTTAGATCACGGC
ACTGAGCTACGACATTGTCGAAGTGCTGTATCAATAATAGAGGAAGCCAATCTTCACAAC
AACTTTGGATCAGAGTCTTTACCAAATTTAGCTCCACCGCCAGCATTTGAGTCACCGCCT
CTAGATATAACTGATAAAGATTTTAAAATATTACCACCAGATAATTTTCTCAACAAAGAT
GAAAAACACAGTAACTCAACATCGAGTCTAAGCGAACAAAGTGGTTGGGTTTCTAGTGGA
CGTAGTTCAGGCCCTTCTTCGCCGGATAATGGGAGTTGTCAATTAAGTCAAAATTTTCCA
CCCACTAAACCCACAACAATGACGAAGACTAGTAGCAAGAAAGAGGATGAAGCTACTGAA
ACTCGGAAAAAAGATGGAGATAAAATTTGCAACTTTAAAAGAACAGTTTTAAATGGAGAA
CAACTACGGGAACGCCTACTTAAATTGGCAATAAAAGCAGCTCAAAGTAGTTCAACTGAA
AAAATAGAGTGTTGTGATAAAGAAGTATGTGAAGAATGTACAATATGTAGTGATTCTATA
TGCACAGACAGCCAGTGTGAATATAATAAAATGATGCATACCAACGGAATTGATGCGGGA
TGTAATTCCGATACATGCACAGCCAATTGCTTTCAACAGTATCCTGAAACTAAAGTTAAT
AAAATTAACCAAAGACATAATTCATTCAGTGCAATTCAAGGAAAGACTTATAGCACTGTA
AGTAGAAATTCTAGTGAGGCTACAGTAAAAAAATCACAAACAGTTAGTGATAACTTACAT
CCATATATAAGAAAGGAAATAGGTTCAAAAACACAACCCCCCACTACACAAGCAGGGGTT
CCGGACAAACAGACAGATAAAAAGTCCAGCACGCTAGATAAAACTAAATTAAAAGATAGA
ATACAATACACAGAAAAGTTAATAGCTGCAGAAATTTTAAGTTTAACTGTCGACAGATCA
TGTAAACCATTTACACCAAGTGGTGCTGTGAGTGCTGCAAAAACATACCAGGGTAAAGCA
AAATCTGAAGTGGATTTGAGTCACTTTGGAACGAACGTTTACGAACATTTACCACCACCG
CAACAATTTAGAGATGCTCCACCACCACCGGAACAATTTAAGGACCCACCATCTAAGTCT
CCAATGTTAAGCCGTCAAAGTAGTAAATCTTCAACACCTTCGAAAGGTCAACGAAAAGCT
TCTCAGCCTACTACGTTGCAGCTAGACAATCCTCTATATCATGTGTGTGAAGGAATATTG
GAAAGACGAAAGTTAAGGCCAAACCAATCAATGACTTACAATGCTACACCCTCATCTAGT
ACACTAAACAAAAGCCAGAGCACAGGTGAATTAGCAAGCAGAAACGAACTTAATAAAGAA
CAACGCCAAAGCAACCTTATCAGTATTTTTGGATTGGCTGAATCTGAGAGGCTGTTTGTG
AAATGTAGGGAAGAGTTTAGACAAAGCGTTAAATACCCAGGAGCGATATATTCGGATTTT
CCACCTGTCGAAAATTCCTTGCCATATTTCCATATAAGCGACGAATACAGAATGTTTAAT
CCTGAAGGATTACATCTCATCATATGTGTACACGGCCTAGATGGCAATGCAGCCGACCTA
CGGTTGGTTAAAACATATTTGGAGTTAGGATTACCAGGCGCGCGGTTAGACTTTCTTATG
TCTGAGAGGAATCAAGGTGATACATTTTCTGACTTTGACACAATGACGGACAGACTGATT
CAGGAGATCATGACACACATACAAAGCTCAAACGAGCCGGCGAGAATTAGTTTTGTTGGT
CATTCATTAGGTACCATCATCATTAGGTCTGCCCTTGCAAGACCACAAATGAAACCATTT
TTGGGCAAGCTGCATACCTTTTTGTCGCTAAGCGGGCCTCATTTAGGAACTCTATACAAC
TCTAGTGGACTTGTGAATGCAGGAATGTGGTTTATGCAGAAATGGAAAAAGTCTGGATCC
TTACTCCAGTTATCACTTCGTGACGCCTCCGATCCCCGAAAATCGTTTCTGTATCGTCTA
AGCGAACGAAGTCAATTGCACCAATTCAAACATATCTTACTTTGTGGTTCAGGGCAAGAT
AGATATGTGCCCTTACACTCAGCGAGACTGGAGCTGTGCAAAGCTGCTGCCAAGGACACA
TCTTTATTGGGACAGGCTTATAGAGAAATGGTCCACAATATGGTATCTCCTCTCGCTGCA
CGTGCTTCCTCAGTGTCCGTCGTTCGTTATGATGTCCAGCACGCATTGCCGCACACCGCC
AGCGCTCTCGTAGGCCGTGCAGCACATATTGCAGCATTGGACTCCGACCTCTTCATTGAG
AAGTTTTTATTGGTCTCCGCTCTGAAATACTTCCGTTAA
Protein sequence:
MIIYFGVSILISLYHLPVDSRNLKESLERAEWSLGVELWCSEGAQSSTLTPVSCRVLKLH
FQPSQGLHYHLPVLFDYFHLSAVSVTIHASLVALHQPYINTPRSSKQWGKLMKSAGSSFN
ATGSLENILFGSSGKCAGGNSSKIAHARQVHAEVCGILLGSLEGLQSALTVCGSTGVLLT
PEESASNSVVGEVAQRIKDLSDLGKKSEAGEEEEWAMGAAHDIARLCAEVTLRWRAFLHH
TSDRPHVHHALAARHHALRIKRFSECFFVLDNPRHSLAGCYDSNYQSYQSVGETARRSRY
LALLPPLPVHCIALDGDPHIMPIIFEDRYQDTAEFARRRSFLNSNANKAGSDPFLCSDPA
GEDCACSVSSIMDSRRPSSEASRVTLSLPKNIIDVLEPHFDNQKAPTGVVQATLTLAPQK
SARGSPKRTLVKQHVVEMTKPHNKQVELTGRNRYIVQNNQISEIQLPPNNVFASCPIQQG
QQMSRYSASTLLDINSAKSTTNVSHLGKEKTDRDEVFNQKHDITSGVSTLPARHSKSLDQ
LRVSQMAPLSVQTLSKNVKNSSNNSVNYHKSYAPPQQQVKPTTLPRSITTTSYPTSTTTR
CGSKGDEYRRNINEFREKYKNPGNSVNFHGLNNEVFHSVGHKYDGTMKGGSNQIYGYTFG
NQGNMTVNNTIRNPLEFQRGYSVNLPRPMLPPRNSYPPVSGKTQVTEQSNLASSKHVHRS
NSTHVFNPNVEKQHMDIEAARNQLRHELNYYLQKGDWSYDFNTGSLIQNYQKKSSKSSDD
SGFVMTLDRSSDGTSKSTYSKTPPSTPHSTLPSVRHKKSRSKDSKLNLNGTEITKINSSR
DSLSSHHSVKSRDSKSDRQTPKSDRSTPKSEKETPKSGKATPKSGVVTPRSGLATPKSGG
TTPKSGRSSGKPEKRGKHKASEKMTQLMSEAASSSSDESIPFELRRLESSSSVPYSLDHG
TELRHCRSAVSIIEEANLHNNFGSESLPNLAPPPAFESPPLDITDKDFKILPPDNFLNKD
EKHSNSTSSLSEQSGWVSSGRSSGPSSPDNGSCQLSQNFPPTKPTTMTKTSSKKEDEATE
TRKKDGDKICNFKRTVLNGEQLRERLLKLAIKAAQSSSTEKIECCDKEVCEECTICSDSI
CTDSQCEYNKMMHTNGIDAGCNSDTCTANCFQQYPETKVNKINQRHNSFSAIQGKTYSTV
SRNSSEATVKKSQTVSDNLHPYIRKEIGSKTQPPTTQAGVPDKQTDKKSSTLDKTKLKDR
IQYTEKLIAAEILSLTVDRSCKPFTPSGAVSAAKTYQGKAKSEVDLSHFGTNVYEHLPPP
QQFRDAPPPPEQFKDPPSKSPMLSRQSSKSSTPSKGQRKASQPTTLQLDNPLYHVCEGIL
ERRKLRPNQSMTYNATPSSSTLNKSQSTGELASRNELNKEQRQSNLISIFGLAESERLFV
KCREEFRQSVKYPGAIYSDFPPVENSLPYFHISDEYRMFNPEGLHLIICVHGLDGNAADL
RLVKTYLELGLPGARLDFLMSERNQGDTFSDFDTMTDRLIQEIMTHIQSSNEPARISFVG
HSLGTIIIRSALARPQMKPFLGKLHTFLSLSGPHLGTLYNSSGLVNAGMWFMQKWKKSGS
LLQLSLRDASDPRKSFLYRLSERSQLHQFKHILLCGSGQDRYVPLHSARLELCKAAAKDT
SLLGQAYREMVHNMVSPLAARASSVSVVRYDVQHALPHTASALVGRAAHIAALDSDLFIE
KFLLVSALKYFR