| New model in OGS2.0 | DPOGS209799 |
|---|---|
| Genomic Position | scaffold830:- 22832-46389 |
| See gene structure | |
| CDS Length | 6615 |
| Paired RNAseq reads | 10494 |
| Single RNAseq reads | 29578 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008023 (4e-08) |
| Best Drosophila hit | lethal (2) 01289, isoform I (0.0) |
| Best Human hit | ND |
| Best NR hit (blastp) | PREDICTED: similar to l(2)01289 long form [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to l(2)01289 long form [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0005886 plasma membrane GO:0003756 protein disulfide isomerase activity GO:0045454 cell redox homeostasis |
| InterPro families | IPR013766 Thioredoxin domain IPR010893 Hydrogenase-1 expression HyaE IPR012336 Thioredoxin-like fold IPR012335 Thioredoxin fold IPR017936 Thioredoxin-like |
| Orthology group | MCL12863 |
Nucleotide sequence:
ATGTCCTCTGCAGGACGATGTCTGAGGAAGGCACAGGACCACATCGGAAAGGTTATGGCC
GTTGAAAGCGTCCCTGGCATGGCTTTTGTCCCGCAATGTGTCGTTCGAAGGGTGTCATTG
CTCCGCCAAATCCTGTATCTACATTCCTCCTGGAAATTAACCACTTACTTGAGAGTCCAA
CACCTTTGTGATGCTGACCACGTAGAGGCCGAGCTACAGCATGTAAAACATGCTCTCACG
ATCAACAACCTGCCCGTGCCTCGCCAGCATCGCAAGAACCACTTGAAGTCACCCACAGTT
GAACGACAACCTGCGATACTACCATATGTGAAGGGAGTTACTGACAGAATTGGCAACATT
TTGAAGAAGGTTTCCATCAAAACTATTTGCAAACCACATAAGAAAGTGAGCCAATTCTCG
AGACCAATCAACATTCCTTTGCAACAAGCGGGTGTATACAAACTCGATTGTGACTGTGGC
TTGTCTTACATTGGACAGACAAAGAGGAGCATCGATACAAGGGTTAAAGAACACATCTCA
GATATCAAAAATAGGCGCGCGTCGAAGTCAGCAGTGTGTGAACACACAATGGACAAACCA
CGCCACTACATTCGGTTTGATAAACCACAAATCCTCGCTCGGGAAAGACAAGTATATACC
GAGGACGAATCAGATTGGCCGAATCTGTGTGAGTTTTGTAATGTGTTCGACTGCGCATGC
GCGGCGTGTATTGCGCGGGAGCAGGGTCTGCGGAAGGCGGGCGGCCGGTTTCAGTTGTTG
CGCGCCCTCGCCATGGCTCGCTGGGTGCCCCTCGCGGCCCTGCTACTTCTCGTCACAGTC
GACGCCGCGCGCAAACCGGCCCCGCCGCGCAGTGAGCCGCAGATCGAGGAGGTCACCTCC
AAGCAGCTGGAACGGGTGCTGGAGGACAAGGACTACGTGGCCGTGTTCTGGTATGCGAGA
AGCTGTGTCACATGTGACAAAGTTCTAGAAGAATTAGAGAAGATAGATGACGATACGGAC
ACATTTGGCGTCGACTTTGTTAAAATAAACGACAAGAGGCTCGCGAAACAGTATGGCATT
ACGAAATTCCCCGCCCTCACGTATTTCCGTGAGAAGGAACCGATTATATACGAAGGAGAT
CTCATGGACGAGGAGAGCGTCTTGGATTTCCTGACGAGTTTAGAGGCAATGGACCTTCCA
GACCGGATAGAAGAGGTTAATCAGAAAATTTTAGACAAAATTGTTGAAGACACAGAATAC
GTAGCCGTTCTCTTCTATAAGCCCGAATGCAAGAAATGTGCTAAAGCTCTTCAAGAGCTG
GAGAACATTGACGATGAGGCCGATCAACTAGGTATTGGTTTCGTTAAGATCCATGATGAA
GAATTAGCCGAAGAGTACAGTCTTGGAGACTTGCCAAGATTAGTCTACTACAGGCATCAA
ATACCTATTATATATGAAGGTGAATTGAGTAGGGAGGAAGATGTTTTGGAATGGCTCATT
GCGAACAAGTCGACTGGGGACGAAGAGGACGTTATCGAGGATGTGACCGCTAAAACATTG
AATACGCTTATAGGAAACGTTGACAACTTGGTTGTTCTATTTTACGATCATGGCGACGAA
GATTCAATGACCGTGCTGGGAGAACTGGAAAAAATTGATGATGATTGTGACAGACATGGA
ATCCAATTCGTTAAAATCGATGATCCAAAAGCCGCGGTTGAATTCGGGATTGACGATCTT
CCCTCTTTAGTGTACTTTGAAAAACAGATCCCCAATGTATATGATGGTGAACTAGAAAAT
GAAGAAGAAATTTTGGAGTGGTTAGTAGATCAGCTAGAAAAGGATGAAATTGAAGATGTT
ACGGATGAAATGCTCGATCGCCTTATCAAAGATGGAAAGACGGTAGCTGTACTCTTCTAT
GATAACAATGACCGAAAATCTCAAAAAGTCTTAAATGAGTTGGAGAATATTGATGACGAA
TGTGATCAACTAGGCATTGCTTTTGTTAAGATTGATAATGATGAAGAAGCTAAAGAATAT
GGCATTGAAAAAGTACCAACATTACTATATTTTGAAAAGGGAATACCAACATATTATGAA
GGCAATTTAGAAGAAGAAGAAAAAGTTCTTGCCTGGCTAAAACATCAAACAGAAAGTGAC
GAAATTGAAGATATTACAGACGAAATGCTTGATCTCATCATCGAGAAAATGCCTTACGTC
GCAGTTCTATTCTATGACAAGGACCATAAAAAGAGTCAAAAAATCTTGGCTGAGTTAGAA
AATATTGATGACGAATGCGATCAGAATGATATTGCCTTCGTTAAAATCGATGACGATAAA
GAAGCTAAAGAGTACGGTATTGAGACAATACCGACAATGGTGTTCTTTGAAAAAGGAATT
CCTCACGTCTATGAAGGGGACCTCATGAAAGAAGAAGAGCTCTTAGGATGGTTAATCCAT
CAGAAGAGGCACAATGATAAAGAAGACAAACAGGACATCAGAATTCTCAATGAATTAGAA
AACATTGATGATGAATTAGAAAAGGAAGGAATCGTCATTGTACGTATAGATAATGAAGCC
GAAGCAAAAGAGTACGGAATTGACCATCTTCCCACTTTGGTATACTTTGAGGAAAATATT
CCAGCTATTTACGAAGGAGATCTCATGAACGAAGATGAAGTTCTGGAATGGCTCATTGAA
CAAAAAAACAGCGCTACTATTGAAGAAGTTACCGATGAAATATTGACCGATCTTATCGAA
GAACATGAATACGTAGTGGTTTACTTTAGTGGTAACTGTGAAGAAGGAGATGAATGTGAT
AATATATTGGAAGAATTGGAGAACATCGACGATGAGCTCGATGAAACCGGTATAATATTC
GTCACGACAGAGGACATCACTCTAGCCAAGAAATATGGAATCAAAACCTTCCCCACACTT
GTGTTCTTTAGAAATAAAGAGCCACTTATTTTCAAAGGTGACATCGAAGACGAAGATGAA
GTCCTCGCGTGGTTAACTGACGAAAATACCCTCGAAATTCCCGGAAAAATTGAAGAAGTC
AATGCTAAAATGCTAGAGAAGATTTTAGAGGAGAATGAACATATTGTAGTCTTCTTTTAT
AAGGAAAATGATAAAAAGTCCCAGAAAATATTGAGCGAACTGGAAAATATTGACGACGAA
TGTGAAGAACAGGATATCGACTTCGTTAAAACTTCCGACGAGGGTATCGATAAGGAATAT
GACCTCCCTGACTTACCGGCATTAGCTTTCTACAGACACAAATTCAGAACTATCTACGAC
GGAGACCTAATGCATGAAGAAGCCATTCTTAAATGGGTATTGGAACTTCATACTTCTCAT
CCTGACGTAATTGAAAATGTGGACAGAAAAACTTTGAAGGATCTCATTGACGATGTTGAA
CATTTAGCGGTATTTTTCTATAATGACAACTGTGACACGTGTGAGGAAATATTGGAAGAA
TTGGAAACGATTGACGATGACACCGACAAACATGGGATTCAATTCGTTAAATCTAAAGAT
TCAAAATTGGCATCTGACATTGGAATTTTCAGTTTTCCCGCTCTAGTTTACTACGAAACT
GGAGTACCAATAATGTATGACGGTGACTTAAAGAACGAAAATAAGGTTCTCCAGTGGCTT
ATAGATCAAAAAAGTGAAGATAGCCACCAACAAAATAAACCTAATCCTAAATCCAAGGCC
AATGCAGATGAACGAAAGTCGAAATTCAAAGGAAGAAACGCCGATCTAGCAAAAGAAGCC
TCAGCGAAGAAATTAGGAAGTTCAAGGCTTAATCGAGAATTAGAAATTAGCAAAAAAAGC
CACGAAGGCAAGTTGACACATACCGAAGATGACGATGACGACGATTTTGATAAAGATGAC
GATGATGGGCATTATATAATGTTGTTGATGATGACGATGAAGATGCCGATGACGATGACA
ATGACAATGACGATGAAGATGACGATGACGATGACGATGACGATGACGAATGATGATGAT
GATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGACGATGACGACGAT
GATGATGATGATGATGATGATGATGGTGATAAGGGGGGAGGCATTTTCAATAGGATTAAG
AAAATAATAACAGGCGATCGCTGTTTCTACATTGGATTGGGGACGAAACCGGCTATTCCA
AAAATCACATACGAACCCTACCAGTGCTGTCCCACTAAAGTTCAGAGCCCAACTAAAGTA
GCGAAGGCGACCCCGACCAAGGTTCCAGCTAAGAAACTCGAAAAGGAAAGAAACCCCGGC
CCTGAGAAACCAATTAAGGGCAAAAACAAGGCACTTGCTAAACCGGAAAAAGCAGGCAAA
GGAAAAAAAGGAAACTTGTTGGATGAAACTGAAGTTTTAGATTGGATGGTCAAACAAAAA
GAAGATGAAAGTATTGAAGAAATCGATAGAAATAGATTATCAAAGTATATAGAGGCAAAA
GAATTTTTAGCAGTTGTCTTTTATAAAGAAGAGGATCCTCTTAGTCCAAGAATTTTAAGA
CATGTAGAATTGATAGACGATGAAGCCGCAGAATATGGTATAAAGATCGTGAAATGCAGT
GATCGTCTTATGGCAAAGAAATATGGTTTTCGAAACCCCCCGGGAATAACGTACTTTAGA
AAAACTAAATACATCAATTATGATGGGGACATGGATGATGAAGAAGAGATATTGGACTGG
TTAACAAATCCCGAAAATATGGAGCTTACGGATCATATTGAAAAAGTTAATAAAAAAATG
TTCCAAAAGATTAGACAAACGTCGGATTATGTAGCCGTATTCTTTTACAGTAATGACTGC
AAACAATGTCCAAAAGTACTGTTAGAAATTGAGCACATTGATGATGATGCTGATGCTGCG
GGCATAAATTTTGTCAAAATAAACGACTGGCAGATGGCGAAGGAGTTTGGAGTATTTGCA
TTGCCAGCCGTCTTGTTTTTCAAATTGGGTTCTAAAGATCCAGTCATATACGCTGGTGAT
CTCTATGATGGCCAGCAATTACTGAGTTGGCTGCTGACTCAGAAAAATCCAGCAGGAGAC
ATAATAGAAGCATTAGAAGGACAAGAGTTACTGGATCTCATCAGTGACTCTGGTTCCTTA
GCCGTGTACTTCTGGAATAGAACGTTATGTGAACTATGCAGTGTTAAATCCTCGCAACCA
AAAAAGCCAAAAAAGAGTTTTAGAGAAAACGAGGACGAAGAATTACAGGAAATAGACTTT
GATTCCCTCGATTGTGAGCAATGCTCTGGAATATTGGAAGAATTAGAGAATATTGACGAT
GACTGTGATAGACATGGAATTAAATTTGTCAAAACACAAGATTACTCGATATCTGAATCA
TATGGAGTGACCGATTTTCCTGTCCTTGTATACTTCGAGAATAATGTACCAAATGTTTAT
GAGGGTTCTTTAGCTGAAGAAGAAGAAGTGCTGCAATGGCTTATCACACAGAAGACAGAA
GATCGTATTGAGTTAATTACTAGAGTAATGCTTGAGAATATGGTTGAGGAAACTCAGTAC
TTGGCAGTATACTTCTACAAACTAAACTGCCATATTTGTGAACACATTCTAGAAGAATTA
GAAAAGATTGACGATGAATGTGACGTATATGGCATACATATGGTTAAAATTCAGGACCCT
CAACTTGCGAAGAGATATTCAATTAAAACTTTTCCAGCTATGGTGTATTTCAGAAACGGA
AATCCGCTCTTATTCGAAGGTGACCTACAAAATGAAGAATCTATTCTTGAATGGCTTGTG
GATGATGATAATCGTGAACTTGCAGACGAAATTGAATCTGTCAATGACCGAATGCTTGAA
CGTTTGCTATACGAGTCCCATTTACTAGCTGTATTTTTCTATGATGAGGAAGATTGTCCA
GAATGTCAAGACATTTTGGAGGCTTTGGAACAGATTGATGGAGAGGTTGACCAATACGGT
ATCGACTTTGTAAAAATCGCCAGCCCTGAGGCAGCGGCTGCCCACAATATAATAAATATA
CCCTCCTTGGTATATTTCCGAAAAAGAGTGCCAATGTTGTATGATGGTGACCTACATCAA
GTGGATAGAGTGTTACAGTGGCTGACGTCTCAAGATGTTTTTGAAATAAAGAATGAAATC
GAAGAAGTAAACAGGAAAATGCTTGATAAGTTATTGGAAGAAAACGAATTCCTCGCTGTT
TATTTCTATGAAAACTCTGTGGAAAGCCGTATCGTTTTGGATAAGTTAGAAAACATTGAT
AGCGAGACAGACAATTTAGATATCACGTTTGTTAAAATGCATGATCCCCGGTATGCAAGA
AAGTGGGGTGTCACTAAATTGCCCGCCATCGTGTACTTCAGAAAACGATTTCCAAGTATT
TACCGAGGGGAAATTATGGCCGAAGAGGAAGTTCTTGAATGGTTGAGGAAGAATAGATTT
AGGCAGCCGGAGCTTAACATATTCATGTACGCTTTGATAGCCTTATCAATAGCGTTTGTT
ATGTATACTGCATTTTTGCTGCAGTGTTTCAAACCTTCGCCTCAAACACAAACGCAGCAT
CCAAAACAAGCGTGA
Protein sequence:
MSSAGRCLRKAQDHIGKVMAVESVPGMAFVPQCVVRRVSLLRQILYLHSSWKLTTYLRVQ
HLCDADHVEAELQHVKHALTINNLPVPRQHRKNHLKSPTVERQPAILPYVKGVTDRIGNI
LKKVSIKTICKPHKKVSQFSRPINIPLQQAGVYKLDCDCGLSYIGQTKRSIDTRVKEHIS
DIKNRRASKSAVCEHTMDKPRHYIRFDKPQILARERQVYTEDESDWPNLCEFCNVFDCAC
AACIAREQGLRKAGGRFQLLRALAMARWVPLAALLLLVTVDAARKPAPPRSEPQIEEVTS
KQLERVLEDKDYVAVFWYARSCVTCDKVLEELEKIDDDTDTFGVDFVKINDKRLAKQYGI
TKFPALTYFREKEPIIYEGDLMDEESVLDFLTSLEAMDLPDRIEEVNQKILDKIVEDTEY
VAVLFYKPECKKCAKALQELENIDDEADQLGIGFVKIHDEELAEEYSLGDLPRLVYYRHQ
IPIIYEGELSREEDVLEWLIANKSTGDEEDVIEDVTAKTLNTLIGNVDNLVVLFYDHGDE
DSMTVLGELEKIDDDCDRHGIQFVKIDDPKAAVEFGIDDLPSLVYFEKQIPNVYDGELEN
EEEILEWLVDQLEKDEIEDVTDEMLDRLIKDGKTVAVLFYDNNDRKSQKVLNELENIDDE
CDQLGIAFVKIDNDEEAKEYGIEKVPTLLYFEKGIPTYYEGNLEEEEKVLAWLKHQTESD
EIEDITDEMLDLIIEKMPYVAVLFYDKDHKKSQKILAELENIDDECDQNDIAFVKIDDDK
EAKEYGIETIPTMVFFEKGIPHVYEGDLMKEEELLGWLIHQKRHNDKEDKQDIRILNELE
NIDDELEKEGIVIVRIDNEAEAKEYGIDHLPTLVYFEENIPAIYEGDLMNEDEVLEWLIE
QKNSATIEEVTDEILTDLIEEHEYVVVYFSGNCEEGDECDNILEELENIDDELDETGIIF
VTTEDITLAKKYGIKTFPTLVFFRNKEPLIFKGDIEDEDEVLAWLTDENTLEIPGKIEEV
NAKMLEKILEENEHIVVFFYKENDKKSQKILSELENIDDECEEQDIDFVKTSDEGIDKEY
DLPDLPALAFYRHKFRTIYDGDLMHEEAILKWVLELHTSHPDVIENVDRKTLKDLIDDVE
HLAVFFYNDNCDTCEEILEELETIDDDTDKHGIQFVKSKDSKLASDIGIFSFPALVYYET
GVPIMYDGDLKNENKVLQWLIDQKSEDSHQQNKPNPKSKANADERKSKFKGRNADLAKEA
SAKKLGSSRLNRELEISKKSHEGKLTHTEDDDDDDFDKDDDDGHYIMLLMMTMKMPMTMT
MTMTMKMTMTMTMTMTNDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDGDKGGGIFNRIK
KIITGDRCFYIGLGTKPAIPKITYEPYQCCPTKVQSPTKVAKATPTKVPAKKLEKERNPG
PEKPIKGKNKALAKPEKAGKGKKGNLLDETEVLDWMVKQKEDESIEEIDRNRLSKYIEAK
EFLAVVFYKEEDPLSPRILRHVELIDDEAAEYGIKIVKCSDRLMAKKYGFRNPPGITYFR
KTKYINYDGDMDDEEEILDWLTNPENMELTDHIEKVNKKMFQKIRQTSDYVAVFFYSNDC
KQCPKVLLEIEHIDDDADAAGINFVKINDWQMAKEFGVFALPAVLFFKLGSKDPVIYAGD
LYDGQQLLSWLLTQKNPAGDIIEALEGQELLDLISDSGSLAVYFWNRTLCELCSVKSSQP
KKPKKSFRENEDEELQEIDFDSLDCEQCSGILEELENIDDDCDRHGIKFVKTQDYSISES
YGVTDFPVLVYFENNVPNVYEGSLAEEEEVLQWLITQKTEDRIELITRVMLENMVEETQY
LAVYFYKLNCHICEHILEELEKIDDECDVYGIHMVKIQDPQLAKRYSIKTFPAMVYFRNG
NPLLFEGDLQNEESILEWLVDDDNRELADEIESVNDRMLERLLYESHLLAVFFYDEEDCP
ECQDILEALEQIDGEVDQYGIDFVKIASPEAAAAHNIINIPSLVYFRKRVPMLYDGDLHQ
VDRVLQWLTSQDVFEIKNEIEEVNRKMLDKLLEENEFLAVYFYENSVESRIVLDKLENID
SETDNLDITFVKMHDPRYARKWGVTKLPAIVYFRKRFPSIYRGEIMAEEEVLEWLRKNRF
RQPELNIFMYALIALSIAFVMYTAFLLQCFKPSPQTQTQHPKQA