New model in OGS2.0 | DPOGS202200  |
---|---|
Genomic Position | scaffold121:- 41646-61866 |
See gene structure | |
CDS Length | 6423 |
Paired RNAseq reads   | 4019 |
Single RNAseq reads   | 8881 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013512 (0.0) |
Best Drosophila hit   | ND |
Best Human hit | neuroblastoma-amplified sequence (1e-146) |
Best NR hit (blastp)   | PREDICTED: similar to neuroblastoma-amplified protein [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to neuroblastoma-amplified protein [Nasonia vitripennis] (3e-174) |
GeneOntology terms    | GO:0003674 molecular_function GO:0005575 cellular_component GO:0008150 biological_process |
InterPro families    | IPR015943 WD40/YVTN repeat-like-containing domain IPR011046 WD40 repeat-like-containing domain IPR013244 Secretory pathway Sec39 |
Orthology group | MCL18065 |
Nucleotide sequence:
ATGGCAGAAAAAAAATCTATTTTACATGAATTATATGTCTTTTCGGAATGGAAGCCTGAG
CCTGAATATATACAAAAAACCGACACTTTGTTGCCCGAAAATATATCAAGTATTTGGCGG
TGGCTTAAGTTTTTTGGGCTAAAAAAAAGCCTTATAGACAGTGTAACCGCCCATAAGGAG
AAGCAACAAAAATGGCATATGGCACTAGGAGATGAAGGGAAGGTGTTGGCCATCCTCACA
GATAACATACTGGAAATAAGGACAAAACGTTCTGAATATGCCACAATCGGGGCTAGGACC
ACAGTGGCTCGTGATCCTTATCCGCAATGGAGAAAGCTTGTGTGGAGTCCGGACTGCACA
TTCCTCGTGGTGGCCTATGGCAATGGCATTGTTAACTTTTTTGATCTCACAGCTTCTAAT
CTATTCTATATACCCGCTGACTGTTCCCGACCCGGAGGTCTAGAATGTTCGGACAACACG
CATGCGGTCTCCGACGTGATATTCATGCCTCTCAGAGTGAAAGACACTAAGTGGAACTGG
GAGGTGTTGGTGGTAACCTTCGACGGTCGTCTCCGAGGGTACCTGGTATCCGCCTCCGAG
GGTTTCAAGCTACATCACACGTTCTCGTTCCCGGGGGGTGTGGCGGCCGCCGTCTTCTGT
CCGGCTCATGGGGTGCTGTATGTAGCTGGACCTCCTGCACCAGCAAGGAAGGAGTCGTGG
TGCGCGAGCAGTGCCGGCCTGTCCGCGTGGCGCGTGCTGCTGGACGAGCCGTTCTATAAG
CTGTCCGTGGTGTCGAGCGAGCTGCACGACAAGCTGGCCGCTGACTCCTGGAACTACCTG
CCGCTGCTGTTCAATAACAACCTGGACTTTATAGTGCGCATGTCGCTGTCCCCGGACAAT
CAGTCGCTTGTGTGTGTTCACTCCTCGGGCGAGTTGTCTCTGTGGCGCCTGCCGGTGCTG
TCGCCGCTGCGGCGCTTCGCCCTCGCCGCTCAGCCGGGACACGCGCTCCCCCACCCCCGA
CGGGGCGCCGCCCTCGACCCCACCGCCAGCCACCCCGCTGACGTCACCTGGTGGAGCAAT
GAGGAAATCATTCTATCCAGGTTCAGTGGGGCGGTGTCGGTGTGCGGGCTCGAGGACATG
GTCAACATCCTCGGCAAGGGGCCAGAGTTCTTCGAGGGAACACCTCAGGTGTCGTGTGCC
CACGACGGCTCCCTCCTGGCGTTGGAGTGCGAGTCCAGCACGGTGCCTCACAAACACCAG
AACTCCGAAGTGTCAAAAGATGAAACGGAATCCGAGGATTCAGTGTTGGAAGTCACCAAG
GAGTTGTTGAAGTCGGTGTTGTACGCCATCACCGACATAGAGGCCCTGCAACCCAAGCCC
AAGAGAATAACCGTGGTGTCCAGGATATACAGACTGCTGGCCATCAAGAGCACTACTCCC
ACTGAACTGTTCTCGAGAAAGATAGAGAGCGGCAAGTATAACGAGGCGCTGGCCCTCGCG
GCGACCTTCGACCTGGACCGCGACCTCGTGTACCAACAGCAGTGGAGGAGGAACCCCGTC
TCCACGGACGCCATACACAATTACCTGAGCAAGGTGTCCAAGAAGATCTGGGTGGTGCAC
CAGTGCGTGGACCGCCTCCCGGAGAGCGCCTCGGCCGCCCGCTATCTGCTAGACTTCGGA
CTGGAACTCACCAACATGCATATACTAGAAGAGATCAACAAAGACCTCCCTGATGATGAG
CAGTGCCAGGACGTGGAGGACATCACCCTGGGACATCTGAACGCTTACACCAGCGAACTG
TTGCGATGCAGGCACGTCATGTTGTTCTACCAAGAAAGACTGCAGCTGTACGAGGCAATT
ATTCGTTGCGAGAAATCCACTTACGTCAAGGATGAGTACGACCGGCTGAGGAGCAACAGC
ATAGTACACAGTGCCATGGAAATAGCCAAAGAAGGTCGTACAGAGGCTCTCACCTGTCTC
TGGCCGTACATCAGGAGTCTGCCAATGCAGCAGGAAGTGTTGGACATGATACCGGAGACG
CTGTACCCTCTGGACTACCAACATCTGCTACCTACCAAGGAGCCGCTCACCTGGTTCGAG
AAGAAATCTCCCATTAAGATCAAACCCTCGGAGAACGATAACGATTGGTGCAAAAAAGAT
ATATTCAGATCAATATGGAGCTCGAACTGGTCGGAGGACAGTTCACCGGAGAGCGAGACG
GCGAGTCGTATAGACGGTGACCTCGCCAAGTGGTACGAGAAAAGGGCGAGGGTCATTGAG
GGTCGCTGCGGGCTGGTGTCCCACGCCCTCACACTGGTCACCATAGCGACCGTGGGGGGT
GCCGTTGAAGGCCTGGAGAATATCATGTTCCACCTCCTGACATTGGACACGCTGATATAT
GACATCAATGTAGAAGGTGTCACCCTGGAACAGCTGGAGAAGATGTCCTACTTGGATACC
TGCAAACTCCTCATGAAGATGTCCAAACCAGCCACGTTCGTGTCGGATCTAAAAGAGTAC
GTGATACCGTTTCTGAAGCGCTACGAAAACCTGACCAAACGGAACGGCGTCTGCCTGACC
GGTATGATGGAGTTCCTGGAGAGCACCAGCGTCGAGGACCTCTCCTACATACTGCTGGTG
TTGCAGTCCCCCCGCGAGTTCGAGCTGGACGTGCATACACACCTGGAGCTGGTGGAGCGC
TGTCTGTACGCGCACACCGGCACCGACCAGCTGCACATGGCCTGCGACCTGCTGGCCACG
ATACTCAAGGAAACCGATGGTAGCATCTCCCGGTCGTCGCTGGTGCGGCGTGCGTCGGAG
TTGGAGCGAGTGGTGGCGGGGAGCGGGCGCCTGGCCTGGCGGGGTCTCAAGGTGCCCCCC
GCCGCGCTCAGAGACCTCCACTCGGACCCCCCGCGGGCACACACCCTGCTCGCACGACTT
GCGAGGTCCTTACACGATAGGGAGGACAAACCGACCCAGCAGGACTGGGAGAACCTGCTC
AAGGATATCCTGGAGCTGCGCGAGTCCTTATTGGAGTGTATCACTGAGGAGCAGTGCTAC
GAGGCCTACGCCTCGGCCTTGTTGACGTGCGGGGTCGAGGAGGGCATCCGGCTGGGGCCC
TCGGTGTTGTCCGTGTCGGCGGACCGGAGCTCCCCCCGCCGACAGGTGGACGCCGCGCGT
ACGGTGCAGCTCGTCATGGACGCCGCGAGGGAATATTTCAATTCAGCCTCCAGTCTGACA
GACCCGGCGCTGGAGCTGGCTAAGTGCTGTTTGTTACTGATAGAGGACGGCAACAAAGAT
ATAGAGGAGGAGCTGGATCTCATCTCAGCTCTCCCTCTACTCGGCGCCTTCAACCTCACA
CTGCTGCCCATCCAAGTGCGACTCTGCGAGGATAGAATGAAGTTGATTCAGGACTGTCTC
AACCTGGACCCGAACGCCTACCTGGCGAGCCATAAGCTGCTGAAGCTGGCTAAGTTGTTG
AGAATCGCCGGAGACGACGAGCAGACCAGGGAGGGGCTGGTGCTGGTGGAGGTGGGTCGC
AAGGCGCTGTCGGCGGGCGCGGCGGGCGGCGGCGCGGCCAGCACCGCCTATGCACACTCG
CATGCAGACACGGCTGAGAGGAGGTACCTGCTGGCCGCCGCCCTCACACACGACACTCCG
GCTCGCCTGCACCAGCTGCTGAAACACAGAATGAACCTGGAGCTGGAAAGTTTCCAGCAG
ATGGGAGCAGCTGCCAGAGAGAACAGACGGCTGGAGGCGAGGTGGCCGTCCACCGACGAT
GAGTTCTCAGATGCCATCACTACGCCCGTCATCGAGGCTAAGGACCTGGTGCCGGCGGCA
GAGAAAAAAATACCTCTGCTGAATTACTTCCTGGAGACGTTCCAGAACAAAAGCGCAGCA
GAGAGCGAGAAGTGTTCAGAGAGCAGCGAGCGTTCCGTGCTGTGCCAGGAGTTCTACCGC
GACCTCTACCCTCAGCACGAGGGCTCCCCCCACTACTACCGATACGACTGCTTCTCGGTC
CCGGACGACCTCGCCGAGCCGGGACAGGCCGCGCTCAAGTGGTTCTACATGAAGAGCTGC
ATGGAGGGAGGGGATGTGGACCAGCTGGAGGCGGAAGTGGTGAGCAAGTGCGGCGAGGAG
CTGGTAGTGAAGGACACGCCCCTGAGCGTGTCGTGCCTGGTGCTGGGCGCTCGCAGGGGC
CGCGCCTCCGGTTCCAGGGCGGCGCTGGTGGCCGCCATGTACGCCGCCCTGCTGCACTGC
AACGACCCTCACTTCAGGGACGCCGCCTACCGCACCAGACCCGTCAAGATGGCGTGCTCC
ACACTGACGCAGAATGACGCGTCAGATCAGCAGAGGGCCATCATCAGGCAGTACATCGAC
CGGCTGAGCGGAGTGGGGGAGGTGGAAAAGATAAGGGGCTACGGAGTCACAGTCAACGGG
GTCATGTTCCAGGCGGACGCGGACTACCGCACCGAGGTCATATACAGGCTGGCCAAGTCG
GGTAAAGAACAAGCGAAGTTAGCTTGTTATCTAGCTCAAAAGCACGGCCTGGACGCTCTG
GAGGTTTGGCTGCAGTACGCTGGAAATGCTGTAGGTGACCTGGACACGGAAATATTACCG
CCGGTGGGAGACGACGCTGCTCAGAGGATATCTGAATACCTGTGGCCCCTGATCCCGGGG
ACAGACCACTCGGCCCTCATACACTTCTTCAATGTGTTGAAGAAGGTGGACGAGAAGCTG
GTGCTGCACGGCCTGTCGTCCGCGGAACACGTCAAGCTGCTGAAGAAAACTAGAGCCGCC
TCCAAAGAGCTGGACTACAAGTTGCTGGTGAGTGCTCCGGCCGGCGACCAGTTGTGTTCG
CACGTGGTGTCGGTGTCCCGACCCGACACAGTGGGTCTGGTGTCGAAGCTGCTCCGCTCG
CTGCCCGCTCCGCTCCGCTCCCCGCTGCCGCCTCACACCCTGTACACCGCCTGGCTCACC
AAGTACTTCTTCAGCGTGGGCGAGTCGACCGTGAGCAGTAAGAAATGGATGCAGCAGTGG
CGGCAGTGCGCGAGCTACTTCAACAAGCTGTCCAGCGACGAGCTGCTGAAGTTCGTCTCC
AACACCTGCTTCACGGAGGAAGCCATACGGAGGGTCCCGGCCGCGACTCGCAGCCTCATG
ATCATGCAAGCCGTCGACTACTGCCAGCAGGAACAAGAGAACGAAATGAAATTTACCAAG
AACGAGCAGGGTTGGTCTGAGACGGGCCAGGAGCTGAGCCGCTGGGGGCGCTTCCTCGAT
AACTACCACTCGGACAGCGTGTCTTCTCTGAGGACCATCAGCGAACAGAACGACGTGTGG
CCGGCCCTGGAGCTGAGCCGCGGCGAGGCGGGGCCGGCGCTGGAGGCGCTGTCGACCCTG
TGCACGGGCGGTCTGCGAGCGTCCGCCCTCACCTCCCTGCTGCGGTGTCTCGGCCTGCCC
TACGACGAGCCCGCCGTGCTTCAACACGCGCTCACCAGGATACGGCACAAGGAAGACATC
CAGAGCGTGGTGGCGCGCGTCATCCAGTACCACAAGGACGGCATCAAGTTCAGCGAGGAC
TTCATAGAGGAGGTGCTGCAGGTGGCCGGCCAGCTGAGTCTGGAGCCGCACAAGCTGCTG
GGCGTGTTGGCGATCAGCCGCCGCGCCCGCCTCCGGGACGAACACGACTTGGCGAACATA
GCGCGCTCCTCCGCCGACCTCTTCAAGACCGAGTGGCCGGACTCCGAGTACGCCAAGGGA
CTGACCGAGGTAAAGCTGATGACCGCGGAGGGTCGCGAGGAGGCGTACCTGGCGCTGGCG
GCGGACGGCGACACCTGGCCGAGGAAGAAGGCTCTCGTTGATGCTCTGGCCTGCTGGCCG
CGGACACCTCTTGCTGGCGGTATGAGCGCCCAGGGCTCCCTGGCACAGAAACTCTGCCTG
GAGCCGCCGCGGGAGGCGCGTATGCTGCTGCAACTGCTGCTGAGGAGGCCGATGATTACG
GACGAGGAGCTAAAGATCATAGCCACCGAGGCCTGTGAAGACGCAGCGCTAAACACGGTC
TGGGTCATACTGCTCAGTAAATGTGAATGTGCGGTGGACCTCTTAGTACAGTTCGTGGAC
AAACATAAGGAGATAATTAAAAATGAGAATATAGGCGACGACTTAATCAGGGAGCTCCTG
GATCAGGGGATGTTTATTAAAATGGTGTGCAATCCTCTGTATTCGTTTATCATCAACTAC
ATCATCAGAAGAAATATGAGTGAGGGCAGCGGCGGCTACTCCGTGACGTGGGCCACCAAC
GAACTCATCAAAGCCAACTACTTGGCGGAGGCCGGCCACCTGCACCTGCTGGCCTCGGGC
GTGCCGACGGGCCTGCGGGGCTTCACGCAGACGGTGTTGCAATACACTAATAAATTTCAT
TGA
Protein sequence:
MAEKKSILHELYVFSEWKPEPEYIQKTDTLLPENISSIWRWLKFFGLKKSLIDSVTAHKE
KQQKWHMALGDEGKVLAILTDNILEIRTKRSEYATIGARTTVARDPYPQWRKLVWSPDCT
FLVVAYGNGIVNFFDLTASNLFYIPADCSRPGGLECSDNTHAVSDVIFMPLRVKDTKWNW
EVLVVTFDGRLRGYLVSASEGFKLHHTFSFPGGVAAAVFCPAHGVLYVAGPPAPARKESW
CASSAGLSAWRVLLDEPFYKLSVVSSELHDKLAADSWNYLPLLFNNNLDFIVRMSLSPDN
QSLVCVHSSGELSLWRLPVLSPLRRFALAAQPGHALPHPRRGAALDPTASHPADVTWWSN
EEIILSRFSGAVSVCGLEDMVNILGKGPEFFEGTPQVSCAHDGSLLALECESSTVPHKHQ
NSEVSKDETESEDSVLEVTKELLKSVLYAITDIEALQPKPKRITVVSRIYRLLAIKSTTP
TELFSRKIESGKYNEALALAATFDLDRDLVYQQQWRRNPVSTDAIHNYLSKVSKKIWVVH
QCVDRLPESASAARYLLDFGLELTNMHILEEINKDLPDDEQCQDVEDITLGHLNAYTSEL
LRCRHVMLFYQERLQLYEAIIRCEKSTYVKDEYDRLRSNSIVHSAMEIAKEGRTEALTCL
WPYIRSLPMQQEVLDMIPETLYPLDYQHLLPTKEPLTWFEKKSPIKIKPSENDNDWCKKD
IFRSIWSSNWSEDSSPESETASRIDGDLAKWYEKRARVIEGRCGLVSHALTLVTIATVGG
AVEGLENIMFHLLTLDTLIYDINVEGVTLEQLEKMSYLDTCKLLMKMSKPATFVSDLKEY
VIPFLKRYENLTKRNGVCLTGMMEFLESTSVEDLSYILLVLQSPREFELDVHTHLELVER
CLYAHTGTDQLHMACDLLATILKETDGSISRSSLVRRASELERVVAGSGRLAWRGLKVPP
AALRDLHSDPPRAHTLLARLARSLHDREDKPTQQDWENLLKDILELRESLLECITEEQCY
EAYASALLTCGVEEGIRLGPSVLSVSADRSSPRRQVDAARTVQLVMDAAREYFNSASSLT
DPALELAKCCLLLIEDGNKDIEEELDLISALPLLGAFNLTLLPIQVRLCEDRMKLIQDCL
NLDPNAYLASHKLLKLAKLLRIAGDDEQTREGLVLVEVGRKALSAGAAGGGAASTAYAHS
HADTAERRYLLAAALTHDTPARLHQLLKHRMNLELESFQQMGAAARENRRLEARWPSTDD
EFSDAITTPVIEAKDLVPAAEKKIPLLNYFLETFQNKSAAESEKCSESSERSVLCQEFYR
DLYPQHEGSPHYYRYDCFSVPDDLAEPGQAALKWFYMKSCMEGGDVDQLEAEVVSKCGEE
LVVKDTPLSVSCLVLGARRGRASGSRAALVAAMYAALLHCNDPHFRDAAYRTRPVKMACS
TLTQNDASDQQRAIIRQYIDRLSGVGEVEKIRGYGVTVNGVMFQADADYRTEVIYRLAKS
GKEQAKLACYLAQKHGLDALEVWLQYAGNAVGDLDTEILPPVGDDAAQRISEYLWPLIPG
TDHSALIHFFNVLKKVDEKLVLHGLSSAEHVKLLKKTRAASKELDYKLLVSAPAGDQLCS
HVVSVSRPDTVGLVSKLLRSLPAPLRSPLPPHTLYTAWLTKYFFSVGESTVSSKKWMQQW
RQCASYFNKLSSDELLKFVSNTCFTEEAIRRVPAATRSLMIMQAVDYCQQEQENEMKFTK
NEQGWSETGQELSRWGRFLDNYHSDSVSSLRTISEQNDVWPALELSRGEAGPALEALSTL
CTGGLRASALTSLLRCLGLPYDEPAVLQHALTRIRHKEDIQSVVARVIQYHKDGIKFSED
FIEEVLQVAGQLSLEPHKLLGVLAISRRARLRDEHDLANIARSSADLFKTEWPDSEYAKG
LTEVKLMTAEGREEAYLALAADGDTWPRKKALVDALACWPRTPLAGGMSAQGSLAQKLCL
EPPREARMLLQLLLRRPMITDEELKIIATEACEDAALNTVWVILLSKCECAVDLLVQFVD
KHKEIIKNENIGDDLIRELLDQGMFIKMVCNPLYSFIINYIIRRNMSEGSGGYSVTWATN
ELIKANYLAEAGHLHLLASGVPTGLRGFTQTVLQYTNKFH