New model in OGS2.0 | DPOGS207597  |
---|---|
Genomic Position | scaffold150:- 77961-92312 |
See gene structure | |
CDS Length | 5676 |
Paired RNAseq reads   | 3700 |
Single RNAseq reads   | 8808 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004674 (0.0) |
Best Drosophila hit   | CG8858 (0.0) |
Best Human hit | proteasome-associated protein ECM29 homolog (0.0) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC012120 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | conserved hypothetical protein [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0005634 nucleus GO:0005769 early endosome GO:0005770 late endosome GO:0005783 endoplasmic reticulum GO:0005813 centrosome GO:0016023 cytoplasmic membrane-bounded vesicle GO:0030134 ER to Golgi transport vesicle GO:0030433 ER-associated protein catabolic process GO:0005802 trans-Golgi network GO:0000502 proteasome complex |
InterPro families    | IPR016024 Armadillo-type fold IPR011989 Armadillo-like helical IPR000357 HEAT |
Orthology group | MCL12758 |
Nucleotide sequence:
ATGTCTGAAATGAATTTAACTGAGAGCAGTAATGATTGCTCAAACGATTCCCTTCTTCTT
GATAGAGTATTTTTACGACTTGGAAATGCCAACACGGATGAGCAACTTGAAAATTGCTTA
AATAGATTCTTGCCTCCTGTCATTCTTAAATTGTCTTCTCCTCATGAACAGATCAGAACA
AAGGTGATGGAATTATTGATTCACGTCAATAAAAGAGTTAAGTGCCGTAATGAAGTCCAG
CTACCAGTTGAAACACTTCTACAATCCTACAAAGACCCCAATGCTAATAGCTTCATAATT
AATTTTTCTATTATATATATTACCATGGGTTTTCCGAGGTTACCCAAAGATCGACAAGTT
GATTTGGTTCCATCATTGCTTGAGGCTATAGAGAATAAACCAGTCGCACATCAGGATAGT
ATTTTAATGTTAGTAATGCCTTTACTTGGAGACATTAAAGAAACAAATCTTAAACTGAAG
GAAAAGCCTAAAGTTGCCAATCTAATATTGAAATTTGCAACGGATATCCTTTTGCTTCCT
TACCGAGCACTACCTAACTCAGGCGAGAGTGAATTCCAAGTCCCCCCTGGTATGAGTATG
AAATCCTACAAGAGAATTGTAGACAAGAATCAAATAAATCCTAACCAGCTTGAAGAGATG
AAGCTGTCGATTGTGAACTTCATCGGCAAGGATGTGTTCAGTGCGAGTGAGGCTCTAGTC
CCATTAGTGGTAGCGGCCGCAGACTCTAGATTCAGTGTTGCCAACCACGCCAACAGCCCA
CTTATCAGAGTTAACAGCTCAGTGGACTGGTCTCAGCAGTCAGTAGTAGCGCCGCTGTAC
TCACTGTACTTAGGGACATGGGGAGGCATGACGGTACACCCGGACGACCGTAAGATTCCA
GCGTGCACGAGACTGCGACTGAAATTGATACAATATTTAAACAAAGCAACGGGTCCAGCA
ATTATATTTCCACACTGTGTTCAGGTGGTATTTTCATCGATATTTGTTACCAATACGAAT
TCTCGTCTCCGCAACATGGCGCTCATGTTCCTCTTGAACGTCATAAATAATGGTAACGAG
GTTCAGCTCAGGCAAGTAGCGTCTGTGTTTCTTCAAGGACTGTTGAAGCTCATAAGAACA
GAAGAACACGCGGAACAACACGCTAAAGCTTATATGTGTTTGGGCAGATTGGCGATGAAA
TGTCCGAGCTGCTTCAATAATCAGTTTGCATTGTTGGAGGAATTAGTCAAGAAGATTCCA
GACGCTGTACCGGAAATAAAGACAGCCCTGAGGGATGCGCTATTGGAAATGGCGACTGCT
TATAAGATTACACCCGAAGATAAAGGCGAACCCATGGAGTGTGAGGAGGCAGGTCCGTCA
GGTGTAGAGGCTGCGGAGGGCGGGGAGAGTAAGAAACCTAGACCGAGCCCCTTCGATGAA
CCACACGCTCTAGCACTGTTCGCCCTCCTAGACCATTACATGCACTGTGAGGAATCTATG
ATCAGGTACATCGCGATGCGTTACGCCTCAGCTGTGTTCCCACAGGACTACGTGCCGTCT
AGATACTTACTATTATTGGCCAGTGGAGACAGCCAAGACGAAATCTCAACGGAGGCCCTC
AAGTGTCTGTACGGAACATCAAGAGCGAATGAAATAGAAGACGTCGTGAACAATGTGGCT
AAGAAAGAGAAAGAGACTATCGGTATCGACGAGGAAGGTTCAAAGAAAGACAGTGCTGGG
ACACAGGAAGAAAAATTCAAAGTCCCGGGATTCATTGAAGTGGTTGACTATGTGTGGGAT
CAGATGCAGAAACGGAAAAAGGGCTCCAATGTTAAACATAGATTTGTTATTGGCAATCAA
GTTCTACAATTTCATCCACAGTCATATCAAGAAATTCTAAGATATTTAAGAATGTGTTTA
AATAGGAACGCCAATTTGAAAGATTGTTCCAACCATCCGAACGCCACCTCACCTTTACTG
TCACGGTATATTCATGAACATTTGTTGGAGACGGAAGCCCTGGATAGATATTTGACTATG
ATAACGAGCCTTCTAAACGCATGTCCAGGTGTCATGCCGCTGACATGTTTCTTGGACATC
GTGGGGTGTATACCGGATAAAATAGCGGACAAATACAAAACTATCTTGCCGTTTTTGAAA
CAACTCTTCACAAATAGCACAAGGGAGGAGATCCGAGAGACCTCGGCGGCCATCTACGCT
ATCATAACGGTGCACACAAGCGATAAGTCATCCATAGACAAGGAAATCAAAGAATTCGTC
GATCAAGCACTTAATAATAAGAGTTTGGAATCTCAATGCGGATATGTGATGGCATTCACG
TATCTCTGTGAGAGATGCGTCGTGTTGTGGAAGAGGAAGAAGTTTGGTGGCAAAGGTTTC
AGTCCGAGTAATTGGGAGCCTTATAGGGAAGGTGTTCTATGTCTTGCTACATTCCTCTGT
CACTCTCAGTCGTTGTTGGTCAGCACGTCGTGTATCGCTATGTCCTTACTCGTTAGATGT
ACGTCACTACCACTACCGAATATATCGTCGAAGCAAGAACAGTTGTTAAACAGCGAAAAT
CCATTCAAAATAAATCAAGCCGATGTTATAATGCCAGACGACGAAGTGACCAAGTTCAGT
GTAGCTGACAGGTTGTTCAAAATTGTTGGTAACGCGAAACTACCCTCCAAGGTTAAAGAA
AGATCGCTTTATAATCTCGGCCTTATGTGCTGCGGGGAAAGGTTGAGTTTTGCAAAGCAA
ATAGTTAAAGGATTCCTTCAAATGGCGAGGGATAGCAAAGAGTTTGAAATACATTTACAA
ATAGGCGAGTCGTTGGTTTTGTGTGTTGAAGGCGTTAATTCCAATGAGAACAGAGATCTG
TGGACCGAACTGCCTAATGAGGTAGAATCTAAAATAAAAGACTCGGAAGCATTGAAAGAA
AACGACGAAATATTGAAATGGCTATTGTTGGAGTTGTTCAAGATAGGCAAACATCCACAT
CCCCACTCCAGACAGGCTACTTGTATATGGCTGCTGGCTCTACTGAAGAATTGTCCCGAG
CGAGCTCCCATAAAGAATTCCCTGCAGCAGTTACAGGACACGTTCATGGAATACCTTTCG
GAGAACAGCGATATAGTCCAAGACGTAGCGAGCAAGGGTTTGAGCTTAGTGTATCAGAAC
TCGGACGAGGCTCAGAAGAAGGCTCTAGTGGGTCAGATCATAGACCAACTTACTAGCGGG
AAGAGAGCCGTCGCACAGGTCACAGACGACACGAGGCTGTTTGAAGAGGGACAGCTAGGC
ACCGCGCCCACTGGTGGAAACCTTTCAACTTACAAAGAACTGTGCTCCTTAGCGTCCGAT
TTGAACCAGCCGGATCTTCTCTACAAGTTCATGCATTTAGCACATCACAACTCCATTTGG
AATTCCAAACGAGGCGCGGCGTTCGGTTTCCAATCTCTAACAGCGGCGGCGGGGGGGTCC
CTGTCGACCCACCTGCCTCGTATCGTGCCCCGTCTGTACCGGTACCGGTTCGACCCCACG
CCTCGCATACAGAACTCCATGGCCGCCATATGGAGCGCCCTCGTCTCCAACACGCCGGCC
ACGGTGCAGAAATACCATAAGGAAATATTAAAAGACTTGGTGAGCAACTTGACGTCCAAC
CAATGGAGGGTGCGGATGTCGTGTTGCAATGCACTCGCTGACCTTTTGAGGGGCGCGCAG
AGTCTACACGATTCTTTGGAGCATTTACCGACTATTTGGACTCAACTGTTCCGAGTCATG
GACGACGTCCACGAGGGGACGCGCCAGGCGGCGACATCTACAGCCAACGTGCTTTCCAAA
CTATGTATCCAGGCTACAGACGTGAAGCAAGGCAAAGACGGAAAGGAAATATTGTCAGCC
ATACTACCGGTGTTGTTGGACACCGGCATCACGAATCTCGTTAAAGAAGTCAGAAGTGTG
AGTCTGCAGACGGTGTCGATGTTGGTGTCGTCAGCGGGGTCGTCCCTGGCCCCCCTGCTG
CCCCGGCTGGTGCCAGCCCTGGCGGCGGCAGCGGGGGACCTGGAGCCCGCTCGTCTCGGC
TACCTGTCAACGGCCATCACTGACGGCGCCACACGAGACGCTATAGACGACCTGCGAGCG
AGCGCCGCGAGGCAGCACTACACCACGGACACTGTCGTCAAGTGTATGCCGTACATCACC
ATAGATATAATGAAGGAGATGTTACCGAAGATTCTGGAACTGACTAAGTCTCCACAGCTG
GGTACTAAGGTCGCGTGCGCGCATTTCTTAGTACTGGCCGCGCATTACTTGAGGGCCGAC
CTCGAACCCGTAGCTGGGAAGATTATGTCTAGTCTCTTGAACGGCATATTCGATAGAAAC
GCCACCGTAAGAAAGAATTATGCCGAGGCTTTGGGACAAGTATCCGCTTATGCTAAGCCG
CAGTCCATAGACAAACTGATGAAGAAGTTAGTCAATCTGTACGAAACGAAGGAGGATGAC
GCGTCTCGGTCTGCGGTCGCGCTAACTTTAAAGGCGGTGGCGAAAGCTAAGATCGAACAT
ATCAAGGATAATGAAGAAACTTTGGTGCCTGTTGTGTTTTTGGCCATGCACGCTTCCAAA
GAGGACGATTCGTCTACGGTGGAAATGTTCTCCGAGCTGTGGTCGGACGTGAGTCCCAGC
GCGGGCCGCGGAGTGCGGGCGCACGTGCGGGCTCTGAGGACCGCCGTGGAGCAAGCACTC
GCCTCCGGCAGCTGGACCAAGAAGATACAGGCAACCAAAGCGGTTAAAACTATATGTAAG
GAGCTGTCCGGCGAGCTCGGCGACGAGAGGGAACCGTTCATAAGATCCTTACTCGCCGCT
GTCCAAGGAAAGACGTTCGATGGAAAACATCACGTTATAGAAGCGCTGGCTGAATTATGT
GTTGTCCCCGAGGGAGAAAAGGTATCGTCATCTTTAATATCAGAGGCGGTGGACGCGCTC
GTGTCCGAGAGTCGCAAGCAGGAGCCCTCGTACAAGAGACACGCTCTCTTGGCTCTGAGT
CACGCTCTGCCCGCGGCCGACCATCAGCGGTTCACCAGTCTATATGAAATCGTCAAACAG
ATACTGACCAAGGATGAATTTTCGATGGACAAAGATTCAGATGAGGAGGATAATGAGGGC
GTCAGACAGAGACGAGAACAGCTCACTGCTTTGAAGGAAGCAGCTTACGATTTATTGGGC
AAAGCCTGGCCGAAGGATCCTGATACTCAAGAAAAGTACCAAGAATTATATTTCGAGCAT
TGTTCGAAATCGTATCCGACAAGTTCAAGATCAACTCAATTGGCAATTCTGGCGTCCATC
TCGAAGGTTCTGGAACGACTGGCGGTGTTGAATGATCCGGAGCCGATGGAAACCGACAAC
TCGTCCGCGTATACCAGGAACCAAGTCATAGCTACTGTCACGGAACACGTCACAAGTATC
ATCGAATACACGCTCAAGAATAGCAACCAAGTAAGACACCGACGGGACGCCTTAAACCTT
ATGGAAATTTTGATTAAACAATTGAAAGAACTTCACAAAGCGGAGGAATTGAATAAACTA
AAAGCAATTTATCAGACACATGTCCAAGACTTGTCGAGAGAAGAATCTCATGAGTTGAGA
GCAAAAGTAGACAACATTAAAGTACACTTCAAATAA
Protein sequence:
MSEMNLTESSNDCSNDSLLLDRVFLRLGNANTDEQLENCLNRFLPPVILKLSSPHEQIRT
KVMELLIHVNKRVKCRNEVQLPVETLLQSYKDPNANSFIINFSIIYITMGFPRLPKDRQV
DLVPSLLEAIENKPVAHQDSILMLVMPLLGDIKETNLKLKEKPKVANLILKFATDILLLP
YRALPNSGESEFQVPPGMSMKSYKRIVDKNQINPNQLEEMKLSIVNFIGKDVFSASEALV
PLVVAAADSRFSVANHANSPLIRVNSSVDWSQQSVVAPLYSLYLGTWGGMTVHPDDRKIP
ACTRLRLKLIQYLNKATGPAIIFPHCVQVVFSSIFVTNTNSRLRNMALMFLLNVINNGNE
VQLRQVASVFLQGLLKLIRTEEHAEQHAKAYMCLGRLAMKCPSCFNNQFALLEELVKKIP
DAVPEIKTALRDALLEMATAYKITPEDKGEPMECEEAGPSGVEAAEGGESKKPRPSPFDE
PHALALFALLDHYMHCEESMIRYIAMRYASAVFPQDYVPSRYLLLLASGDSQDEISTEAL
KCLYGTSRANEIEDVVNNVAKKEKETIGIDEEGSKKDSAGTQEEKFKVPGFIEVVDYVWD
QMQKRKKGSNVKHRFVIGNQVLQFHPQSYQEILRYLRMCLNRNANLKDCSNHPNATSPLL
SRYIHEHLLETEALDRYLTMITSLLNACPGVMPLTCFLDIVGCIPDKIADKYKTILPFLK
QLFTNSTREEIRETSAAIYAIITVHTSDKSSIDKEIKEFVDQALNNKSLESQCGYVMAFT
YLCERCVVLWKRKKFGGKGFSPSNWEPYREGVLCLATFLCHSQSLLVSTSCIAMSLLVRC
TSLPLPNISSKQEQLLNSENPFKINQADVIMPDDEVTKFSVADRLFKIVGNAKLPSKVKE
RSLYNLGLMCCGERLSFAKQIVKGFLQMARDSKEFEIHLQIGESLVLCVEGVNSNENRDL
WTELPNEVESKIKDSEALKENDEILKWLLLELFKIGKHPHPHSRQATCIWLLALLKNCPE
RAPIKNSLQQLQDTFMEYLSENSDIVQDVASKGLSLVYQNSDEAQKKALVGQIIDQLTSG
KRAVAQVTDDTRLFEEGQLGTAPTGGNLSTYKELCSLASDLNQPDLLYKFMHLAHHNSIW
NSKRGAAFGFQSLTAAAGGSLSTHLPRIVPRLYRYRFDPTPRIQNSMAAIWSALVSNTPA
TVQKYHKEILKDLVSNLTSNQWRVRMSCCNALADLLRGAQSLHDSLEHLPTIWTQLFRVM
DDVHEGTRQAATSTANVLSKLCIQATDVKQGKDGKEILSAILPVLLDTGITNLVKEVRSV
SLQTVSMLVSSAGSSLAPLLPRLVPALAAAAGDLEPARLGYLSTAITDGATRDAIDDLRA
SAARQHYTTDTVVKCMPYITIDIMKEMLPKILELTKSPQLGTKVACAHFLVLAAHYLRAD
LEPVAGKIMSSLLNGIFDRNATVRKNYAEALGQVSAYAKPQSIDKLMKKLVNLYETKEDD
ASRSAVALTLKAVAKAKIEHIKDNEETLVPVVFLAMHASKEDDSSTVEMFSELWSDVSPS
AGRGVRAHVRALRTAVEQALASGSWTKKIQATKAVKTICKELSGELGDEREPFIRSLLAA
VQGKTFDGKHHVIEALAELCVVPEGEKVSSSLISEAVDALVSESRKQEPSYKRHALLALS
HALPAADHQRFTSLYEIVKQILTKDEFSMDKDSDEEDNEGVRQRREQLTALKEAAYDLLG
KAWPKDPDTQEKYQELYFEHCSKSYPTSSRSTQLAILASISKVLERLAVLNDPEPMETDN
SSAYTRNQVIATVTEHVTSIIEYTLKNSNQVRHRRDALNLMEILIKQLKELHKAEELNKL
KAIYQTHVQDLSREESHELRAKVDNIKVHFK