New model in OGS2.0 | DPOGS216107  |
---|---|
Genomic Position | scaffold2852:- 14408-30501 |
See gene structure | |
CDS Length | 4665 |
Paired RNAseq reads   | 2565 |
Single RNAseq reads   | 6123 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA009225 (7e-07) |
Best Drosophila hit   | SET domain binding factor, isoform B (0.0) |
Best Human hit | myotubularin-related protein 5 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to SET domain binding factor CG6939-PB, isoform B isoform 1 [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to SET domain binding factor CG6939-PB, isoform B isoform 1 [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0019992 diacylglycerol binding GO:0008138 protein tyrosine/serine/threonine phosphatase activity GO:0016311 dephosphorylation GO:0023034 intracellular signaling pathway GO:0000278 mitotic cell cycle |
InterPro families    | IPR001194 DENN IPR005112 dDENN IPR017906 Myotubularin phosphatase domain IPR022096 Myotubularin protein IPR010569 Myotubularin-related IPR004182 GRAM |
Orthology group | MCL11257 |
Nucleotide sequence:
ATGTACGCTCCAAAGTGTATGGTCATAGTTTCAAGACAGGACTACATCGACACATTCCGG
AACTGCCTCGGAATTATTTACACGGTGTGGGTTGAAAACCTGGGTGTACCTCTGGAGACG
TTGGTCGGTAACCTGTTGGGATGCGTGTCGGTGCCACCGGCTGGCGGTCCTCAGGTCCGA
TTCAGTATTGGTGCAGGGGACCGGCAAGCCTTGCAGCCGCCGGCCGCGCCCCCCATGCCG
GTCACACACACCGCTGTGCATATGCTTCTGAGGTTGCTTGGTATCCATAATTCTATAACA
CTCTGGTGCGCTGTGATGAGTGAGCACAAAGTGCTACTGGTGTCTTTAGCTGCCGCTCGC
TTGTCGGCGGCGTGTCGCGCACTCGCCGCTCTCATGTTTCCATTCCGATACGCCCACGTT
TATATCCCGTTGCTACCCACGGGCCTGGCGGAGGTGTTGGCGACGCCTACTCCATTCCTC
ATCGGCGTACATGCTAGTTTGAAGGAGGAAGTTTCTGAGCTGCTCGATGTAATAGTAGCG
GACCTGGATGTCGGTTCCCTTCATATACCTGCAAGTGTGAACATCCCTCGTCCGGAAGGC
AAGCTCCTGTCGTCGCTGCAGGAGGCCCTTGCACTGGTGCTGCAACCCGAGCTCAAGTCA
GCGGACTCGGCCTTCGCCCCCCCGCCGCCCTCAGCATCACCACCACATATGTTAGATAAG
GAGATCAGAGCGGTGTTCATGCGCACCCTGGCCAAATTGTTACAGGGTTACAGACATTGT
CTCACAATCATCCGCATCCATCCATCTCCTGTGCTGACATTCCACAAAGCTGGGTTCTTA
GGAGCCCGCGGCTTGTCCCAGTGTCCCTTCGCCTCCCGTCTGCTGGACTCCATGTTCTTC
AACGGCCTGGTCGCTGAACGCGGCCCACCCTGGCGGCCCACAGACATATGGGACGAACTA
GTGCAAAATCTGCCGGAACAACTGAGGCTGGAGTCGTTGAACCCGGAGCTGGAGCTGCAG
CACATACAAGACTTGGCGATGCAGCTACATTTGAACGAAAATCCGAATCCACAGCCGTAC
GCTCAGCGTGTTCTCCGACCCCCTGAAGGGGCCTCGGCCCGCATACACCAGCCGCCTCTC
CCGACTCTGGACCCGCGCGCGGTGCACGCCGTCATGAGAGACCTCGCCGCAAGGAACACA
CCATCTGTTAAGATGTCATCACTCCGTCTTCCAGCTCCAAGGATTATACCACCGGGAGCG
TCTCCAACTGGTGCCGTGGAACACACGCAGCTTATACTCACTAACTCTGCGAGGAGACTC
GAGGTGTTGCGGTCGTGTATAGCGGCTATATTCGAGTGTCGGTACGCGGACGCTAGGAAG
TCTCTCCCGGGGGTGGTGCGCGCGCTGCGGGCTCCGGCGGCGAGGGCAGCGCTGGTGAGG
GACCTGGCCGCGAGGCTACCCACCAACAAACATCTGCTGCAGCATCATCAGTTCGAGCTG
GTTGTCAGGTTAATGAATAGCGCTCTCCAATCTGCGAGTGCTTTGGACGAGCACTCCATA
GCGGCGGCCATTTTGCCGCTGGCTACAGCATACTGCCGCAAGCTGTGCACTGGCGTTATA
CAATACGCGTATATGTGTATACAGGAACACCAAGTGTGGACCAGCCAGCAGTTCTGGGAG
GCTGCGTTTTACCAAGACGTCCAAAGGGACATCAAAGCTCTGTATCTACCAAGTCCTACA
CATCATAATAGGGTCTCCAGCCCAAGAGAGGATGACGAATACATATCTTTACTAAAAGCT
CAAGAACCTAGCGCATTAGAAATAGCAGCTGAACAAATGAGAATATGGCCGACACTATCA
CCTGAAAAACAACGCGAGCTATTAGCCAGTGAGGAGTCGACGCTGTACAGTCAGGCCATT
CACTATGCTAATCGTATGGTGTACCTGCTGCTGCCGCTGGAGGGCGCCGGGAGAAGGGAC
GTCCGGGATGACGACAGGAACAGCAATAGCATCACCAACAGTGTAGCTGAATCAGATAGT
GCAGATGCGGAGTCGGGATTCGAGGAGGCTGATCCCGGAGAGGCGGGGAACAATGTTATT
AAGATGGTATCGAGATTCGTTGACAAGGTGTGTACGGAAGGCGGCGTGACGGCGGAGCAC
GTGCGCTGTCTTCATCAGATGATACCCGGCGTCGTTCACATGCACCTGGAGACGTTGGAC
GGAGTGGCCAGGGAGAGTCGGCGGCTTCCACCCGTACAGAAGCCTCGGATAGCGTGGCCG
ACCTTAGTGCACGGCGAGGCCAGTGCGGGTGGCGCCCTACGCGCGGTGCTGCTCGCTGAT
GGCCGGAGTGCTGCACTGCCACAGCTGCTGCCAGCCGAGGGAGCGCTGTTCCTCACCAAC
TACAGGCTGCTGTTCAAAGGAGTTCCTGTCGACCCTTACGCATGCGAGGCGACGGTGGTC
CGCTCGTTCCCCCTGAGCGCCCTCACCCGCGAGAAGGGTGTCCGCGCCGCGCCCGCCCAC
CTGGAGCACGCGCCTCATGACGCCTTGCAGCTCAGGGCTGCCACCTTCCAGCTTATTAAG
GTGGCGCTGGACGAGGAGGTGAGCAGCGAGCAGGCGGAGTCGTTCCGTAAGGCGGTGTCT
CGTCTGCGGCACCCTCCCCACCCCCTGCTGCACTTCGCCCTCGCGCCTCGAGCTGCACCC
CCCAGCGACCTCGCTCAGCCTAAACACCACACACTCAAAGGATTCGCCAAAAAGACCCTC
CTGAAGACGGCTCGTCGTGCCGGGTTGAAGCCCAAGCCATCCAAGCGACAGAAGTACGTG
CTGCCGGCGGACGCTCGGTCATTGACTTCGCCACCCCTCATGGCTTCGCTCTCAGCTGAT
ACATTGTCCTTGGAGGAGTTAGAGTTGGGTGGTGTGAGTCCTGAGGCGGACGCGTGCCGT
TCCCTCGAGCGTGTCCGGGAGAGAATGTACGCTAGGGACTGGTCCCGGGTAGGACTCGCC
GCCTCGCCCTTCAGACTGGCGCACGCTAACGCACTCTACACACTCGCCAGGAGCTACCCG
GCCGTGGTGGCGGTCCCGGAGTCTGTGTCCGACGAGTCTCTGCGCCGCGTGGCGAGGTGC
TACAGACAGGGCCGGCTGCCCGTGCTCACCTGGAGGCATCCCAGGACCAGGGCGATACTG
GCCAGGTCGGCGGCGTCTCACCACAAGGGCGTCATGGGCATGTTGAAGAGCTCCAGTCAT
CAGACACCTGCTCCGAGCGGCACAGAGACTAACTCCAGCTTAGAACAGGAGCGCTACCTA
TCGACACTAGTAGCTTTGACACCAGCTGCTCGCGGTGAGCTGGACGACTCCAGCCTAAGT
CTGGACAGCTTGCTGCTGTGCTGTGAGGATAGTCACGTCAACCACACACCGCTGCTCACT
AAGGCGGCTGGCACCTTGGGTGTCCTGGGTCGTGGTAGTGGGGGCAAGGGCGCCGGCGGA
CGGCACTTCGGTCGGTGGGGCTCCCTCAAGGATCGGCGACACGCCTCTCACCTCGAACTG
TACACCCCGCGACAAAGACTCTCCACAGCTGACCTTGACTCCGTATCTGGTGAAGGCGGT
AATTCCCGCCGCGCGGCCCTGTACGTGTTCTCGGAGAAGGGCTCGGGTGCTCCGTGTGCG
GGGGCGGAGCCCGTGCCAGTGGAGTACCCGGACGCACGAGCCACAAAGCACGCTTTTAAG
AAGTTACTACGGGCCGCCGCCCCCTCAGCCCCCGGGACCGATGAACCAGGATTTCTAAGG
CTGGTGGAGGAGTCGGGCTGGTTGTGGCAGCTCCGTCAGCTGTTCCAGCTGTCGGGGGCG
GTGGTGGACCTGCTGGACGTGCAGGCCGCCTCCGTACTGCTGTCACTGGAAGACGGCTGG
GATGTCACCGCACAGATATCATCTCTCGCTCAAATATGCCTTGACCCCTACTACCGGACC
CTGGAAGGCTTTCGGATCCTAGTCGAGAAAGAGTGGCTCGCTCTTGGACACAAGTTCCAA
CAGCGCTCCAACCTGGCCGCTACACCTCAGCAGGGATTCACTCCCACCTTCCTCATGTTC
CTGGATGCCGTTCATCAGCTCCAGAAACAGTTCCCGCTGGCGTTCGAGTTCAACGAGATG
ATAGAGGCAAAGCACCGCATCCACAGTGTGTCGTGTCGCTTCCGAACGTTCCTCTTAGAC
AGCGAGGCTCAGAGAGTGGAGCTGGGACTCGCGCCGGGACTCGAGAGGAGGCCTGACGCT
TCCAGGCTGGGTGTGGATACAGGAGGAACAGGGGGTGCGGTGGGAGGTTCCGGGGAGTCA
GAGGAGGCGCGCTCAGCTCTGGGGCTGTTCGAGTACATAGAGAGACTTCATCAACGAGCT
CCGCTGTTCTATAACCTGCTGTACACACCCGACCTGGACAACCCGGTGTTGCGTCCAGTG
AGTGCCGTCAGTAGCCTGGAGGTGTGGGAGTACTACGTGAGCGAGGAGCTGTCTCACGGA
GCGCCCTACGAGCCCGACCTGTGGGGGGACGAGCGCGGAGCCCCGGCACAGAGAAGACTC
CAGCACCGGCCCATGCTTCTACACATTTACATAGATATAGTGGAAGAGAATCCTCACACA
CAAACATTAATACGTGTCTTTGTTTTTCATTTGAGTTATTTCTGA
Protein sequence:
MYAPKCMVIVSRQDYIDTFRNCLGIIYTVWVENLGVPLETLVGNLLGCVSVPPAGGPQVR
FSIGAGDRQALQPPAAPPMPVTHTAVHMLLRLLGIHNSITLWCAVMSEHKVLLVSLAAAR
LSAACRALAALMFPFRYAHVYIPLLPTGLAEVLATPTPFLIGVHASLKEEVSELLDVIVA
DLDVGSLHIPASVNIPRPEGKLLSSLQEALALVLQPELKSADSAFAPPPPSASPPHMLDK
EIRAVFMRTLAKLLQGYRHCLTIIRIHPSPVLTFHKAGFLGARGLSQCPFASRLLDSMFF
NGLVAERGPPWRPTDIWDELVQNLPEQLRLESLNPELELQHIQDLAMQLHLNENPNPQPY
AQRVLRPPEGASARIHQPPLPTLDPRAVHAVMRDLAARNTPSVKMSSLRLPAPRIIPPGA
SPTGAVEHTQLILTNSARRLEVLRSCIAAIFECRYADARKSLPGVVRALRAPAARAALVR
DLAARLPTNKHLLQHHQFELVVRLMNSALQSASALDEHSIAAAILPLATAYCRKLCTGVI
QYAYMCIQEHQVWTSQQFWEAAFYQDVQRDIKALYLPSPTHHNRVSSPREDDEYISLLKA
QEPSALEIAAEQMRIWPTLSPEKQRELLASEESTLYSQAIHYANRMVYLLLPLEGAGRRD
VRDDDRNSNSITNSVAESDSADAESGFEEADPGEAGNNVIKMVSRFVDKVCTEGGVTAEH
VRCLHQMIPGVVHMHLETLDGVARESRRLPPVQKPRIAWPTLVHGEASAGGALRAVLLAD
GRSAALPQLLPAEGALFLTNYRLLFKGVPVDPYACEATVVRSFPLSALTREKGVRAAPAH
LEHAPHDALQLRAATFQLIKVALDEEVSSEQAESFRKAVSRLRHPPHPLLHFALAPRAAP
PSDLAQPKHHTLKGFAKKTLLKTARRAGLKPKPSKRQKYVLPADARSLTSPPLMASLSAD
TLSLEELELGGVSPEADACRSLERVRERMYARDWSRVGLAASPFRLAHANALYTLARSYP
AVVAVPESVSDESLRRVARCYRQGRLPVLTWRHPRTRAILARSAASHHKGVMGMLKSSSH
QTPAPSGTETNSSLEQERYLSTLVALTPAARGELDDSSLSLDSLLLCCEDSHVNHTPLLT
KAAGTLGVLGRGSGGKGAGGRHFGRWGSLKDRRHASHLELYTPRQRLSTADLDSVSGEGG
NSRRAALYVFSEKGSGAPCAGAEPVPVEYPDARATKHAFKKLLRAAAPSAPGTDEPGFLR
LVEESGWLWQLRQLFQLSGAVVDLLDVQAASVLLSLEDGWDVTAQISSLAQICLDPYYRT
LEGFRILVEKEWLALGHKFQQRSNLAATPQQGFTPTFLMFLDAVHQLQKQFPLAFEFNEM
IEAKHRIHSVSCRFRTFLLDSEAQRVELGLAPGLERRPDASRLGVDTGGTGGAVGGSGES
EEARSALGLFEYIERLHQRAPLFYNLLYTPDLDNPVLRPVSAVSSLEVWEYYVSEELSHG
APYEPDLWGDERGAPAQRRLQHRPMLLHIYIDIVEENPHTQTLIRVFVFHLSYF