| New model in OGS2.0 | DPOGS206766 |
|---|---|
| Genomic Position | scaffold2911:- 28582-35237 |
| See gene structure | |
| CDS Length | 2415 |
| Paired RNAseq reads | 639 |
| Single RNAseq reads | 1479 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010840 (0.0) |
| Best Drosophila hit | maleless, isoform C (0.0) |
| Best Human hit | ATP-dependent RNA helicase A (0.0) |
| Best NR hit (blastp) | MLE protein [Bombyx mori] (0.0) |
| Best NR hit (blastx) | MLE protein [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0008026 ATP-dependent helicase activity GO:0003682 chromatin binding GO:0000785 chromatin GO:0007549 dosage compensation GO:0009047 dosage compensation, by hyperactivation of X chromosome GO:0045433 male courtship behavior, veined wing generated song production GO:0016456 X chromosome located dosage compensation complex, transcription activating GO:0005694 chromosome GO:0005634 nucleus GO:0003725 double-stranded RNA binding GO:0004386 helicase activity GO:0016457 dosage compensation complex assembly involved in dosage compensation by hyperactivation of X chromosome GO:0003724 RNA helicase activity GO:0005524 ATP binding GO:0048675 axon extension GO:0008340 determination of adult lifespan GO:0000805 X chromosome |
| InterPro families | IPR001650 Helicase, C-terminal IPR007502 Helicase-associated domain IPR002464 DNA/RNA helicase, ATP-dependent, DEAH-box type, conserved site IPR011709 Domain of unknown function DUF1605 IPR014001 DEAD-like helicase |
| Orthology group | MCL13390 |
Nucleotide sequence:
ATGCCCCGTCCGTACGGCTCCATACTGTTCTGCACTGTAGGAGTTCTGTTGAGAAGATTG
GAGGGGGGCCTGCGGGGAGTTAGCCACGTGCTAGTCGACGAGGTGCATGAAAGAGACGCA
GAAACAGACTTCGCCCTCATCCTCCTACGTGACATGGCCCACACGTATCCCGATCTACGT
GTTATACTTATGTCAGCTACGGTCGATACTTCGCTTTTTGTTGAATATTTCGGCAATTGT
CCCGTTATAGAGGTGCCCGGTCGTTCTTATCCAGTGAAGCAATATTTTCTGGAAGATTGT
ATCGAATTGACCAAATTTAATCCCCCCCCGGATACTAGGAAACGGAAAATGTCATCTAAG
AAGCCTGGCGAGGACGACGACGATGAAGGTTTCGGAGTCGACGACGAGGAGGACTTGAAC
AAAAACAACGAACTCAGCCCAGCGGAGTACTCGCGACACACTATAGACGCCATGTCTAAA
TTGTCAGAAAAAGATTTGAGTTTCGAGCTGATCGAGGCGATACTGACCTACATCAGCAGT
CAGGATGTAGAGGGCGCTGTGCTTATATTCTTGCCGGGCTGGAATCTAATATTCGCGTTG
ATGAAGCATTTGATGAAGAACAGCGTGTTCGGTGATCCCCAGAAATGTTTAATCCTGCCA
CTACACAGTCAGATACCGCGGGAGGAGCAGAGGAAAGTGTTTGTAGCCCCCCCGCCCGGG
GTGATGAAGGTTATAGTATCAACGAACATAGCCGAGACGTCAATAACTATCAACGACGTG
GTCTACGTCATAGACTCGTGTAAGGCGAAAATGAAGCTATTCACTTCACACAACAACATG
ACGTCATACGCCACGGTCTGGGCGAGCAGGAGTAATATAGAACAGCGGTCAGGTCGGGCG
GGTCGTGTCCGGGCCGGTGTTTGTTTCACTCTGTGTTCCAAACGACGATTTTCGCGTCTC
GACCAACATCAGACAGCCGAAATGTTCAGGACGCCATTACACGAACTCGCTCTAAGTATC
AAATTACTTCGCCTGGGTAACATCGGTCACTTCCTGTCCAAGGCGCCGGAGCCACCGCCC
CTAGACGCGGTCATAGAGGCGGAGGCCCTACTCCGAGAACTCGGCTGTCTCGACTCCAAA
GACAATATCACTCCACTAGGGACCATACTCGCGAAACTACCCATAGAACCTCGTCTCGGC
AAGATGATGGTGCTGGGTTTCGTGCTGGGTGTGGGTGACGCCCTTACCACGATGGCGGCT
AACTCGACAACCTTCCCCGAGATTTTCGTGGTAGAGGGTCGGAGGCGGTTGTCGGGACAA
CAGAGAGCGCTCGCCGGGCACAGAAGCTCGGATCATATAGCTATGTTGAATGCCTTCCAG
ATGTGGGAAGGGGAGAGATCTAAGGGGGAGGATGCGGAAATTGCGTGGTGTGAGTGGAAG
GGACTCCAACAAACAACCTTGAGGGTCACCTGTGAGGCTAAATATCAGTTAATAAATATT
CTCACGACGTCAATCGGTTTTCCCGAGGAATGTTGTCTACCGAGGAGGTGGCTTCCCAAC
GTATCAGATCCTGAGCTGGACCTGGTTATAGCACTGCTTTGTATGGGATTATACCCTAAT
GTATGTTTGCATCAAGGGAAACGGAAGGTATTAACAACAGAGGGTAAGCCGGCCTTGATT
CATAAGACATCAGTTAATTGCAGCAATCAAGAACAATGTTTCCAGTCTCCGTTGTTTGTC
TTCGGTGAAAAGGTTCGTACTCGCGCGATTAGCTGTAAACAGACCACCATGGTGGCGCCA
CTGCATCTGCTGTTATTCGCCAGCAGGAAGGTTGAATGGATAGACAACATGGTCCGTTTA
GATAATTGGTTGAATTTGGAGATGTCACCTCGCACGGCAACCCTGGTGACGTCACTCCGA
CCAGCCATCGAACGCATCGTGGAGAGAGCGGCAGCGAAACCGGATGCAGCATTACAATTC
TCACCTCAAGAAATACAGGTAATAGATTGTTTAAAAGAACTGTGCGTCATGGATGCTGGC
GACTATAATATTCAGCGACAGACCCCGACAGTAGCTTACAGACCTAACGAATACAAGAGA
GGGCATACAAGAGGATGGGGCACTAATGCACCAAGAGGCTCTACAGGTTTTCATGCAGGT
TACAGCAACCAGCCAAGTGGTTTTGGTAATGTAGGTTTTAGAGGTCAGCGCAGAGGATTT
TCAAACCATGGGATCGGATATGGAAACCAGGGAGAGGGCTTCGGAAATCAGAGAGGTTTC
GGCAACCAAAATAGACCTCGTTTTGAAGGCAGTTTCAGAGGTAGAGGTTTTTACGGCAAC
ACTGATGATAGATATGATTCTATAAGAGGAAGAGGTTACGGCCAAAGAGGTTTTAGAGGC
AGAGGGAGATGGTGA
Protein sequence:
MPRPYGSILFCTVGVLLRRLEGGLRGVSHVLVDEVHERDAETDFALILLRDMAHTYPDLR
VILMSATVDTSLFVEYFGNCPVIEVPGRSYPVKQYFLEDCIELTKFNPPPDTRKRKMSSK
KPGEDDDDEGFGVDDEEDLNKNNELSPAEYSRHTIDAMSKLSEKDLSFELIEAILTYISS
QDVEGAVLIFLPGWNLIFALMKHLMKNSVFGDPQKCLILPLHSQIPREEQRKVFVAPPPG
VMKVIVSTNIAETSITINDVVYVIDSCKAKMKLFTSHNNMTSYATVWASRSNIEQRSGRA
GRVRAGVCFTLCSKRRFSRLDQHQTAEMFRTPLHELALSIKLLRLGNIGHFLSKAPEPPP
LDAVIEAEALLRELGCLDSKDNITPLGTILAKLPIEPRLGKMMVLGFVLGVGDALTTMAA
NSTTFPEIFVVEGRRRLSGQQRALAGHRSSDHIAMLNAFQMWEGERSKGEDAEIAWCEWK
GLQQTTLRVTCEAKYQLINILTTSIGFPEECCLPRRWLPNVSDPELDLVIALLCMGLYPN
VCLHQGKRKVLTTEGKPALIHKTSVNCSNQEQCFQSPLFVFGEKVRTRAISCKQTTMVAP
LHLLLFASRKVEWIDNMVRLDNWLNLEMSPRTATLVTSLRPAIERIVERAAAKPDAALQF
SPQEIQVIDCLKELCVMDAGDYNIQRQTPTVAYRPNEYKRGHTRGWGTNAPRGSTGFHAG
YSNQPSGFGNVGFRGQRRGFSNHGIGYGNQGEGFGNQRGFGNQNRPRFEGSFRGRGFYGN
TDDRYDSIRGRGYGQRGFRGRGRW