New model in OGS2.0 | DPOGS210646  |
---|---|
Genomic Position | scaffold2140:- 3951-11661 |
See gene structure | |
CDS Length | 5091 |
Paired RNAseq reads   | 3164 |
Single RNAseq reads   | 8086 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001646 (7e-12) |
Best Drosophila hit   | ND |
Best Human hit | ND |
Best NR hit (blastp)   | triglyceride lipase [Manduca sexta] (9e-17) |
Best NR hit (blastx)   | triglyceride lipase [Manduca sexta] (2e-07) |
GeneOntology terms   | ND |
InterPro families   | IPR004170 WWE domain |
Orthology group | ND |
Nucleotide sequence:
ATGTTAAGCTTAAAGAACAAAGATCAAATATCTGATGATAGTAAGAATTGCCAACACGCA
CAACTTCAGGATTTGACGGTCTCTGCACCAGGACCTGAACCCTCGGCTCCGAGTGCACCA
CCGCTGACGGAACCGCCCGTATCAAGTAACACATCAAATTACCGCATCACGACTAAGAAG
AAGGTCTACGCACAGATACCTGGAATTATCTCCAGTGATAATAATGTACACACGTTCAGT
ATGCCGTCTGTCGGTCAAACGACGAACTATTTCACACCAGACATGAGTATCAAAGACGGG
AAAGAAGAGAATGTGGCGGAAGAGGAAGTCATAGATAGGAAGGAAGAAATGAAGGCTTAC
GATATGTTCAATGAAAATGCTCTTCAAACAGAACAGTTCTCTCACAGTATGAATTCTGAC
CAGCATCAGGAAGGGATAAACATGAATGTATTCCATAATATGCCCATTCAACAGCGAGAA
ACTTTAAATATAAAAGAAAATATGTATAATAAGAGTCACACAGAAACTGCGACTTCTGAT
ACAGAAGCGTTAGGCCACACAGAAGAAATAAATATTCAGGAAAATCTACAGGACACCATC
AATAACTCGTTCAACAAATTTATTCCGATATCCCAAGAACCATCCGCAATAATTCCACCA
CCGCCAATGTTTAGTAGTTTACCGCGAAGAGACAGTCAATCATCAGGGAGATCTGTGCTC
CCGCCGTCAGTAGCAAGGCGTATAGGCGCGCATCAGCCAGTAATCAAGAATCAAACCTCA
AACATTCCTTTGCCTGATAATATTTTTGTCCCAAACGTGTCTGATATTGGTCCGCTAGGT
GCAAGTAAAGAACCACAAACCATTTTAACGCAATATCCGCAGAAAGATTCCATATACAAC
GCTCCAATAGTCCAAACAGAAGGTTCTGGACTTTGCAATCCGTATATGCAAACAACAGGA
ACGTTTCCTTCTCAGGACGTTGTTAATTCATCATTTTTCACCCAACCAACAAGTAAAATG
GATGTTCCACTTCAACAAAATAATCCCATTGAATCAAAAGTAGGGTCAGAGGTCAATAAA
CTTCCTAATGTATTTAGTCCATACTCAGAAGCTACTAAACCGGTTAATATAGTAAACCAA
AATGTAAATCTAAATCAACCCGAAAAGACTGAACAAATCTTAGCTCCACTATTCTTCAGC
CCCGCAAATATATCGCAAACAACTTATAACTCCCCCCCACAAGAAGGCCAAACCGGGTCC
ATTGCACAAAGTACAGTAACTCCATTTCACAGCACGAGTACGGTCCCAGAGCCTCCAAAA
GCGATCCCAGAACCACCAAAACTAACTGGCAACCTCAACTATAGAATGATCAAAAAAAGA
CCTCAGTATTATTCTGGTCCAATAGAAGGGTTTGGGAGCATTAGTAATAACATAAAACCA
ACGATACAGCCAGTTGACGCTACTCCTTTTTCGGGATCGCTGTTCCATAATGACCCCTTG
TCAGTTCCTCCATTGTCTGTAGATTACAATCCACCAGTCATCCAAAACCCGTCATACGAC
ATAAACAGCTCGATACATTTAGCCGGCCAGTCAGCGGTCGATCCATATTTACCGCAAGTA
AAAACTCACGAACAAACCGATTTTAAAACGGCATTCGATCTAAGCAGACCGACTACAGAA
AGATATGAACAACCCCCGCCCCCGCCCCAGCCCTCAGAACCGAAAGGATTCGGCATTATC
GGATCATTGAAGTCTAAACTCAGCTCGATCGATATCAACAAAATACAAAACACCGTAACC
ACATTCTTCGACCCCGCTTACAATGAATCGAAAATTGATCAAAACAATCCAACGGAATCT
AGCTTCCATTCAATCTCTGGGAACTATCAGAACTTTCCACAGCACGAAAGCGCTGCCTTA
GAAGTATTTGTACCCAACATAGAAAACGAATATCAGCAGTCAAATCCGTACAATTACCAA
CTACAGACCCACCAGCTGTACAACAATCAACAGTATTATCCCAAACAAGAGTATTTCAAT
CCACCCCAGGGTTACTCAAACGATTTCTACTCAAACTATCCGTCCAACACAAACTTATCA
ACAACAGATGCTTACATACCAGCGACCCCGATCAATAACGATAGCGTTCAGCCCACAAAC
GTCCAACCATTGATGGGTACCGCCGCATCATGTAGTCCGGAGTACGTTCAGTCTGGTGGA
AATCCTCAAGAAAAGGAAAAACAGACAGCCATTGACGGTACAGAACTAGTAGAAACTGCC
AAAAGCGCACTTGACGAATTCGGAATAACAGGCAACGTTGTACATAGTGAAAATGTCGTA
CCTAATTTTAATCCGGTAAAAATAACTGAAAAATGTGACGTCGAGGGAATAGCAGTTACT
GACTCCCTTGAAAGCAATTACGGTTTCCCTGACAAAGTGATACAACCACCACAAAAATCA
TGCAAGGATGTTAAACCTGTCAACTTTAACACGGATGATAAAACTTTGACGTCCAACAGT
GACATCATAAAGGAATTACAATCCGTGGCGGATTCCACCCTGAAGAAAGTCTTCGACTGC
CAAACGCCGGTCGTGGTGGAATCTGCTCTGGAAAATGATAATTATATAACATCAGCCGCC
CCTGGTGCTGCTTTGGATCCCTTGAAATCCTTTTTCGACTACCCACATCCAATATGCCCA
CTGGCTACTTCTAAAAAGGACTTTATCGAAGTCGCTGATTGTAATCCATTGGCAAATGAC
TCCTTGAAATGCTTCTTCAATTCTCCAGCTCCAACAGCTAGTCATGGATTGGAATTAAAG
AATGAATTTATTAATCAAAATACTCAAAGCGTAATAAGCACCAGTCACGTTATCCAAGGC
CTTTCAGAATCAGCTGATTTCAAAGGCTTATGTACGGTATTAAAGGCTAAAAGTGAAAAT
CTTCAGCCCCCCACTCCGTCTACTGTTCAAAATGCTTTAAATGAGACTCCATTGTTTTCA
TTATTTGACCAACCACCTCTGCTACCCCCTGTGCCTTCATTCGATTTATCGAAGATATCC
TCCTCATCGCTACCAGCATCAAACAACGAATCATCTGCTATACAAAACATAGAAAATAAA
ATGGATAATATCTCTCTATACGATAATGTCGATAATATGGCAAAGTTTGAACGGAGGTCG
AGCTTTTTTGACAAAACTATGCCAATAGAAAATGAAAAAAAACCGCTCGATAGTCAAACC
ACTGATCTCAATATTTGTGAAACCTGCAGAGAGGTCAACAAACCCGAGGATAAGGGAGCG
GATTTAACCACACAGTTAATTGAGAACATTACCGCGCCTATACAGTTAGCATATCCGGTT
GACTTCCCGACTGCTGTAGGTGCAGCGATCGTCACCACCGTGCCGGATATATCCAATTTC
TCGAATCAGTTTGCAGAAATATCTCATATACCAGAAGACATTATAGAAACTATGAAGCAA
CCGCCCTCCGTCGAACTTAAAGATAACAATTTCCCCGCCGCCATTAACTTTGGATGGTCA
GTGGGTGAAACGGCTCCAGCTATCGGCTTCTATGGCGACAATTCATTATTTTTCGAAAAA
GTTCCCGCTAATGCCAGTGACGAAATTATTGAATACAAAGAAAGGGAGAAACATTCAGAA
GATGCGCCGCAAGATGTCGACACGTTTACGAATAGAGTGGAAAGGTTCAAACAAATGGAA
ACGTCCACGGATGTGATTGATGACGGTGAGCTGCAGAAAGCCGTTAAACCCATAACCTTA
GCCACATCCACTAGTCCAGCAGTGACGATCGCGTCATATTTCGATACTGGAAATTACGCG
GTCGAGAATCATTACAGAAATTCCCTGACCTCACCAACGGCGATGGCATTCAACGCTAAT
ATAACATCGACCATTCCACCGGGATTCGAAGATGAGTTCAATAAAAACCTCGCAGGGATT
CCATCCACGGAACCAGCAGTTGAGTTTAAGATGGGAAATATAGTTCACGTACCAGAAACG
TCCACTCAAACTTCTTTATCGATTTCGAAAACTTTTTCGCAAGCTAGCAGCACTCCGTTA
AACGTTGTGGCGACAGAAATTGAGACGATAAGTTCTTTTGATCATGACACTACAGCAACA
AAAGCGGACAGATTGTCAGATTTTTCAAGTATTATTGAACCGAAACGTGAAATTTCCGAC
GATGTACCCTCAGTATTCGACAACAAAACCGTAGAGACTACGCCTGCTGCTAATACCTTG
TCCGAATCTTCAAATTCATTTACATTCACAGAAAATTCTGCTAATGCAGATGTTTACAGC
AATTTCAGTCGGCTCTCTAGCTATTTTTCATCACCGCCTCAGCCAGACCACTCGAAGTCT
TTTTTTGAATTAAGCCAATCACAAAACCATTACAGGCACAAACCCGAACATTTCGATTCC
ATTCAGAGTAGTGTAAAAAATTTCTTCCAATCAGATTCCATCAAAGGGCCAAGCATTCCA
CAGAACTCATCACAAATGAACCTAGTTCGCGATTTAGCGTCCTATAAAAGTTTCACCCCA
AACGACGTAGTCAGGACCGTAAACTATTTCACAGTCGAATACGATATAGACACTATAAAA
GTCGGCGAACCGAAATCATCGATAGATTTAAGCGAAAATCATATTAAAACCAACTACGAC
TACGACCAACCCAATGAATTAGGCAACACGAACGGCGCAAGCCTTAACATAGACGACGTT
ATAAAGAATTGCAAATATTGCTGTGACACAATCAAACGAGACTTAAATTGCAATTATTCC
AAACCAAAAACCTGCATGGATACGTCCGACAGCAAAAAAGGCGATGCGAATATGGAAACC
AAAAAAGACGACATAAAGAGATCTGTGACTATAAACTTTTGCGACCCCTCTTACAACGAC
ACAAACGAAGGTGTCGTTGTATCTTCAGAGAACCGGAGTTCGTCTGAGTACTCGCCGGTG
AAGCATCACTGGTTCTATCGAGTCGACTGCGAGGGGAAATCGATATGGCGCGGGTTTTCA
GTCGCCGATTCCAGAGCACTGGAAAACGCGTTCATGAGCCGTGAGTTGTGA
Protein sequence:
MLSLKNKDQISDDSKNCQHAQLQDLTVSAPGPEPSAPSAPPLTEPPVSSNTSNYRITTKK
KVYAQIPGIISSDNNVHTFSMPSVGQTTNYFTPDMSIKDGKEENVAEEEVIDRKEEMKAY
DMFNENALQTEQFSHSMNSDQHQEGINMNVFHNMPIQQRETLNIKENMYNKSHTETATSD
TEALGHTEEINIQENLQDTINNSFNKFIPISQEPSAIIPPPPMFSSLPRRDSQSSGRSVL
PPSVARRIGAHQPVIKNQTSNIPLPDNIFVPNVSDIGPLGASKEPQTILTQYPQKDSIYN
APIVQTEGSGLCNPYMQTTGTFPSQDVVNSSFFTQPTSKMDVPLQQNNPIESKVGSEVNK
LPNVFSPYSEATKPVNIVNQNVNLNQPEKTEQILAPLFFSPANISQTTYNSPPQEGQTGS
IAQSTVTPFHSTSTVPEPPKAIPEPPKLTGNLNYRMIKKRPQYYSGPIEGFGSISNNIKP
TIQPVDATPFSGSLFHNDPLSVPPLSVDYNPPVIQNPSYDINSSIHLAGQSAVDPYLPQV
KTHEQTDFKTAFDLSRPTTERYEQPPPPPQPSEPKGFGIIGSLKSKLSSIDINKIQNTVT
TFFDPAYNESKIDQNNPTESSFHSISGNYQNFPQHESAALEVFVPNIENEYQQSNPYNYQ
LQTHQLYNNQQYYPKQEYFNPPQGYSNDFYSNYPSNTNLSTTDAYIPATPINNDSVQPTN
VQPLMGTAASCSPEYVQSGGNPQEKEKQTAIDGTELVETAKSALDEFGITGNVVHSENVV
PNFNPVKITEKCDVEGIAVTDSLESNYGFPDKVIQPPQKSCKDVKPVNFNTDDKTLTSNS
DIIKELQSVADSTLKKVFDCQTPVVVESALENDNYITSAAPGAALDPLKSFFDYPHPICP
LATSKKDFIEVADCNPLANDSLKCFFNSPAPTASHGLELKNEFINQNTQSVISTSHVIQG
LSESADFKGLCTVLKAKSENLQPPTPSTVQNALNETPLFSLFDQPPLLPPVPSFDLSKIS
SSSLPASNNESSAIQNIENKMDNISLYDNVDNMAKFERRSSFFDKTMPIENEKKPLDSQT
TDLNICETCREVNKPEDKGADLTTQLIENITAPIQLAYPVDFPTAVGAAIVTTVPDISNF
SNQFAEISHIPEDIIETMKQPPSVELKDNNFPAAINFGWSVGETAPAIGFYGDNSLFFEK
VPANASDEIIEYKEREKHSEDAPQDVDTFTNRVERFKQMETSTDVIDDGELQKAVKPITL
ATSTSPAVTIASYFDTGNYAVENHYRNSLTSPTAMAFNANITSTIPPGFEDEFNKNLAGI
PSTEPAVEFKMGNIVHVPETSTQTSLSISKTFSQASSTPLNVVATEIETISSFDHDTTAT
KADRLSDFSSIIEPKREISDDVPSVFDNKTVETTPAANTLSESSNSFTFTENSANADVYS
NFSRLSSYFSSPPQPDHSKSFFELSQSQNHYRHKPEHFDSIQSSVKNFFQSDSIKGPSIP
QNSSQMNLVRDLASYKSFTPNDVVRTVNYFTVEYDIDTIKVGEPKSSIDLSENHIKTNYD
YDQPNELGNTNGASLNIDDVIKNCKYCCDTIKRDLNCNYSKPKTCMDTSDSKKGDANMET
KKDDIKRSVTINFCDPSYNDTNEGVVVSSENRSSSEYSPVKHHWFYRVDCEGKSIWRGFS
VADSRALENAFMSREL