| New model in OGS2.0 | DPOGS208953 |
|---|---|
| Genomic Position | scaffold350:- 85239-95569 |
| See gene structure | |
| CDS Length | 5112 |
| Paired RNAseq reads | 739 |
| Single RNAseq reads | 1710 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002427 (1e-21) |
| Best Drosophila hit | CG7922 (4e-129) |
| Best Human hit | Fanconi anemia group M protein (3e-103) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL009460 [Aedes aegypti] (6e-151) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL009460 [Aedes aegypti] (4e-140) |
| GeneOntology terms | GO:0004004 ATP-dependent RNA helicase activity GO:0004386 helicase activity GO:0005524 ATP binding GO:0003677 DNA binding |
| InterPro families | IPR006935 UvrABC complex, subunit B IPR014001 DEAD-like helicase |
| Orthology group | MCL10225 |
Nucleotide sequence:
ATGGATCATGGACCCGCCAATCAGACAAATGAACACAAAAACAGTATCAATATTGATGAG
GACCTTTTCGACGATTCTATCTTGGAAATTTTTGAAAATTCAGATTTTGAGGAAACAGCA
GAACAAACAAAACATGAAAAAAATAATACCTTAAATAAAAATGCACTTAATGTTAGTGCA
CTGTGTTGTGATGAAGAACTCAATGGATATGATAAAATGTTAGGAAAGACATGGATCTAT
CCAACCAACTACCCCATCAGAGATTACCAGTTCAATATTATAAAGGCAGCTATGGTAGAA
AATTGTCTGGTAAGTCTGCCCACTGGATTGGGCAAGACTTTTATAGCAGCTGTGATTATG
TATAATTTTTACCGATGGTATCCATTAGGTAAGGTTATATTCATGGCGCCCACAAAACCC
TTAGTGGCCCAGCAGATAGAAGCCTGCTATAATATTGTTGCCATGCCTCCTAAAGATACC
ATTGAAATGACAGGTCATATGCAAGTCAACACTAGAAAAAGTCATTGGCAAACGAAAAGA
GTATTTTTTGCCACCCCTCAAGTTATCTACAATGATATCAAGTCCGGAACTTGTCCCAGT
GATAAGATCAAATGTCTTGTCATAGACGAAGCTCACAAAGCGAAGGGGAATTATGCTTAC
AGTAGTATTATCAAAACTTTGACAGAAATGGGATACTTTATATATAGAGTGCTGGCACTT
TCTGCAACACCTGGTAACAAGGTCGAAGATGTTATACATATAGTGAAACATCTCCATATA
TCTCGTTTAGAATTAAGAACGGAGAACTGCTCGGATGTGAAGGCTTACAGTCATGCGAGG
AACATTAACACTGTGGTAGTTGAACTCGGCCCTGAACTAACGAAGCTGAGAGAACAATAT
GTGGAGATCCTAGACGGATATACGAGAAAGTTAACAAAATTCAATATAATACAGAACCTG
GGAAATCTATCGAAAGGTCGGATCGTTATGTTGTACAAGGAGTTTCAAAATCGGGAACGT
GGTGCGAGACACCCACAGCACAGCTATATAATGCGAATATTCACACTTCTAATAACCCTG
TACCACGGTCTGGAACTGCTGGTGAAGCACGGCTCGAGGGTATTCCTCAACTTCTTCGAC
GAACATCCAGAGAAGACTTGGGTACATGAAGACAATGAACTGACAGCTTTCTTTGACAAG
CTCAGAGACAAACTCGGCCTCAATCCCCTTGACCTCGACAGAAGTGTCCTACCTGACGGA
ACAGTTCCAGAGGTGCCATCCAATTTAAATTTCGGTCATCCGAAATTTTCTAAGCTTAAA
GAGATCATAATGAGACATTTTGATACTGCCAAAAATAAGGGTCAAGTCACTAAAGCAATA
GTGTTCTGCGAGTACCGAGAGAGCGTGAACTTGGTGTACTGCCTGCTTCTTCAATGTCGT
CCAACTATAGTGCCGGAAATGTTTGTAGGACATGGCGCTTCCGGTAAAGACGGTAAAACG
GTTATATCTCAGAAGCAACAGTTGCGTGTGATGCGTAACTTCCGGTCGGGTGTGTGTAAC
ACGCTGGTGTGCTCCTCTCCCTGCAACGCAATGGACCCGGCACCCGCACGGTGCGGTCGG
ACCGGTCGGGAACGAAGCGGGCAAGTGTTCATCCTGGTCACCGAGGGCAGAGAACATAGT
ACTCTGTTAGATTGTATACGACAGAACGATGGCTTGAACCAGAAGATACTCACGTCGGAG
GAGGTTAAGAAAAGTTTGTTTAAGTCCAATCCACGCATGATACCGGCGGATTTCATGCCG
GAATGTCAGAAAATGTTTATAACTGTCGCTAAAAAGGAATCGAAAGAAACATCTAAAGAC
ATCAAAGAAAAGTCCAAAGGAAAAAAGGAGAAAGCAAAGGACAAACTCTTGAAGGGTCAA
AAAGATTTAAGGAGCATGTTACTCCAGAAAGGTACTAGTTCGATAATATCTCAACGAGAC
GACACTACAAGTGAACGGACAAAACTGATATCTAAACAAGAATTTGATGTTCTGTTCCCT
GAAGGATACGAGGATAGCAATATCTTTTCACAACCCAACGACTGTTGGGCTCTGAACGAG
TTTTTGAAAGAAAATAATGACACCAAACAAATAGTGAGGCCGTCGCCACAGTGGGAACCA
CAGAAAGCATTACAGAATACTTTCAAAGTGAAAAATTCGTCGGATACTAAAATGTTAATA
GAATTATTTGAACAAACTAAAAACACCCCAATGACAAAGTCACCGGTCAAAAAAGACGGC
GACATCCGTGTTTTATTCAGTAAATCCACGAAATCTATAAAGAATTACACCAAATCCATG
AACGAGCTAGGTATAGATAGTCATTCGAATATATCAAACGACGTCCTGAACTTGTTGGTC
GATCTGAGTCTAGAAAACAAAAACATGGAAAAACGTTGTTACATATGTAGTGTGGTTTGT
AGATGTTCAGGACTCGTAAAGAGATCAGGTCATAGATTTACCGATTTGTACTTCCATGAA
CAACCTGACCTGCCGGATGTAGAATTGGTTGATTATTTAACAAAAGAATCTATAAAGGAT
CTATGTGAGGAAATTAATACTAGAAATATTAATAACGAGTCTGATATTGAGACAGACGTC
ACTTATGTTGGTAAAAGTGAAATGAAAAGTACAGATTTGAATATATCAGTTGGAAACGTA
AAGAAAGGTAGCGGGACATCAGATGCAAGGCAATTTGATGTAAATTACAGTGACGATGAT
TTATTTGAAGAAAGTGATTTATTCGATGAAATCGATATACCTACGGAGTCGTGTGATAGA
CTCTCTAAGGACAGCAAGTGTATGGATAAAGCTGTGACTGAGTTAGGCTCACGTGACACA
TCTACAAACAGTGCAGATATAGCTGATAATCATTTAAATGAATCGTGCAGTAAAATAAAC
ACTGAAATAAAATCTCATGCAGATGAAATGTATAGTGTGGGAACAACTAGAAATAAGGCT
AACACTAATAACAGTATGATAACAGGTTACGTGAATGATGTCAGGAATGAAAACACAGAA
GACTGCAATATAATAGAGGTAGAAGACGTTTTCGATGATTTCGATGAATTTAACAACAAA
ACGACTGAACTAACGCCGCCATTAAGATATAAAGATGAAAATGAATTAGAAAAATCACCT
ATTCTGTGTACAGTTAGGACTAGTTATATTGAAAGGGGAGATAGAACAGTTAATAGGAAT
GAAAAATGTGATCAATACGACATGCTGGAAGTGAATGATATCTTTGATGATTTAAACACA
TCAGACCTTACATCCGCTAAAACTAAATCTACAAACAATAACAATAAATACTCTGAATTA
GCGATACGAGACACAAATGAGGATTTTGAGTGTATAATAATCAATAATGAAGATACCACT
GACATGCACACACGCGAGAACGGTTTGACTTCCGGTGGTGACGCTCATAAAGATACTGAC
ACATCGGATGATACAATTACAGAAACATCAACAGCTTCCAATAAAAAAAACGATATAAGA
GATGTCCTAAAATATTTTTATATCGATAAAATTTCTGATATATTCGAACACGGCTATTAC
AGCTTTCAAGGAAGTAATCGTATTGATTTTAAAAGAAAAAATGCTAAACCATCGAATGAT
TTACATGATGTTACTGAAATTTATAACAAAAATAACGATATAATAGAAATCAAGGATGAC
GGAACTTACGAAATGTTCAATGATACAGCAATTGATGGTAATAAAATTTATATTAAAAAT
AACGATATAATAGAAATCAAGGATGGCGGAAGTCACGAAATGTTCAATGATACTGTATTA
GAAGGTTCTCTGAGTCCGTCCTTGTTGTCTGGTAGAAGTCAAACTGTGCTCCCGTCAAGA
TCGGCTTCACCTATTCTAAACACTCAAAGGTCCAAGAAAAATCTTAGCTTGAACAAACAA
ACTTCTCCAATATTAAGCAGTCAACGACGTAAAATGTCCTTAAATATCAACAGAAGTGAC
AAAAAACACAACGGTCCCATATCAAGCGTTGGACAGACGAGTTTAATACAAAAAGTTAAC
AGAACATCGCAAGTGGAACCGGACCATAGAAAAACAGTCAAATTAGAGATGGATAATAAT
AACAAGAGCAACACTTCCGATATCATCATATTAGATAGCGACGAGGACGATGGAGACGAG
AAACACGTGAAACATAATACAACAAAACGTAGACTTGTAGAAGTTGAATGTGAGTCGCCG
TATTTTAAGAAAAAACCAAAACTCGAGGGAAACAATACTAAACCGACATCGATAAAAGAA
AAGGTCATGGCTGCGCTGACCTCCCATCACAATCTCGATGCGACGTTCCATAACGACGCA
CAAATAAACTACGCCCTGACGTCACCCATGAGAGACTCGGTAAAAGAAAACAAAGATCCG
CTCCGAAGTAAACTGGACGTGTTAAAAAAGTTTCAATATGATAGCAAGAATAGATCGAGC
ACAGTTTTAAAGGAAAACAAACGTAATGTATCGGCAAGAATTAGCGAGAGTGATGACGAT
TTTGTGTCCCAGGTGCCGTATAGAAAGAAAATATTAACAAAATTAAAAAGAAAGCCCGCT
AAGAGCAAAACGAGAGAGGCGAAAAAGCCAAGTGAATTCCTGGACCTGGAGGCTGAGTTA
TCAGAAGACGAGGACGTGAGTGAAGACGAGCTCTCAGATGATAGCACAGACAGCATCAAG
AACTTCATATGTGACGACACTGTGGCGAGGGATGGCGACATACAAGCGATATACCTCGAG
TCTATCAAGAGTCCAGTCAAAGGTGTTTTCAAACTACCACAACTACCGGCCTTGAAGAAA
CATGAAGTCTTATCACAGTACGTCGAAGAAGACACTTATGAAATGGATAGTTTTTGTGTG
GACTCGCATGTAGTATTAAATGAAACCCATGAAATGTCGGAGTTGGAACTGGCCGAGATG
ATATTAGAGGAAAGAAGACGAAACAGAAGAAACAGAAATCAAGTTGAAGATACAGAGGAA
AGTCTGATAATTAAGAAGACTTGTAGGAAGATCAAAAGACAGATAAACAGTGATTCTGAA
GATAGCAACTGA
Protein sequence:
MDHGPANQTNEHKNSINIDEDLFDDSILEIFENSDFEETAEQTKHEKNNTLNKNALNVSA
LCCDEELNGYDKMLGKTWIYPTNYPIRDYQFNIIKAAMVENCLVSLPTGLGKTFIAAVIM
YNFYRWYPLGKVIFMAPTKPLVAQQIEACYNIVAMPPKDTIEMTGHMQVNTRKSHWQTKR
VFFATPQVIYNDIKSGTCPSDKIKCLVIDEAHKAKGNYAYSSIIKTLTEMGYFIYRVLAL
SATPGNKVEDVIHIVKHLHISRLELRTENCSDVKAYSHARNINTVVVELGPELTKLREQY
VEILDGYTRKLTKFNIIQNLGNLSKGRIVMLYKEFQNRERGARHPQHSYIMRIFTLLITL
YHGLELLVKHGSRVFLNFFDEHPEKTWVHEDNELTAFFDKLRDKLGLNPLDLDRSVLPDG
TVPEVPSNLNFGHPKFSKLKEIIMRHFDTAKNKGQVTKAIVFCEYRESVNLVYCLLLQCR
PTIVPEMFVGHGASGKDGKTVISQKQQLRVMRNFRSGVCNTLVCSSPCNAMDPAPARCGR
TGRERSGQVFILVTEGREHSTLLDCIRQNDGLNQKILTSEEVKKSLFKSNPRMIPADFMP
ECQKMFITVAKKESKETSKDIKEKSKGKKEKAKDKLLKGQKDLRSMLLQKGTSSIISQRD
DTTSERTKLISKQEFDVLFPEGYEDSNIFSQPNDCWALNEFLKENNDTKQIVRPSPQWEP
QKALQNTFKVKNSSDTKMLIELFEQTKNTPMTKSPVKKDGDIRVLFSKSTKSIKNYTKSM
NELGIDSHSNISNDVLNLLVDLSLENKNMEKRCYICSVVCRCSGLVKRSGHRFTDLYFHE
QPDLPDVELVDYLTKESIKDLCEEINTRNINNESDIETDVTYVGKSEMKSTDLNISVGNV
KKGSGTSDARQFDVNYSDDDLFEESDLFDEIDIPTESCDRLSKDSKCMDKAVTELGSRDT
STNSADIADNHLNESCSKINTEIKSHADEMYSVGTTRNKANTNNSMITGYVNDVRNENTE
DCNIIEVEDVFDDFDEFNNKTTELTPPLRYKDENELEKSPILCTVRTSYIERGDRTVNRN
EKCDQYDMLEVNDIFDDLNTSDLTSAKTKSTNNNNKYSELAIRDTNEDFECIIINNEDTT
DMHTRENGLTSGGDAHKDTDTSDDTITETSTASNKKNDIRDVLKYFYIDKISDIFEHGYY
SFQGSNRIDFKRKNAKPSNDLHDVTEIYNKNNDIIEIKDDGTYEMFNDTAIDGNKIYIKN
NDIIEIKDGGSHEMFNDTVLEGSLSPSLLSGRSQTVLPSRSASPILNTQRSKKNLSLNKQ
TSPILSSQRRKMSLNINRSDKKHNGPISSVGQTSLIQKVNRTSQVEPDHRKTVKLEMDNN
NKSNTSDIIILDSDEDDGDEKHVKHNTTKRRLVEVECESPYFKKKPKLEGNNTKPTSIKE
KVMAALTSHHNLDATFHNDAQINYALTSPMRDSVKENKDPLRSKLDVLKKFQYDSKNRSS
TVLKENKRNVSARISESDDDFVSQVPYRKKILTKLKRKPAKSKTREAKKPSEFLDLEAEL
SEDEDVSEDELSDDSTDSIKNFICDDTVARDGDIQAIYLESIKSPVKGVFKLPQLPALKK
HEVLSQYVEEDTYEMDSFCVDSHVVLNETHEMSELELAEMILEERRRNRRNRNQVEDTEE
SLIIKKTCRKIKRQINSDSEDSN