New model in OGS2.0 | DPOGS205284  |
---|---|
Genomic Position | scaffold445:- 29693-40058 |
See gene structure | |
CDS Length | 4452 |
Paired RNAseq reads   | 1183 |
Single RNAseq reads   | 2797 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011028 (4e-157) |
Best Drosophila hit   | Apaf-1-related-killer, isoform B (4e-21) |
Best Human hit | apoptotic protease-activating factor 1 isoform b (3e-47) |
Best NR hit (blastp)   | PREDICTED: similar to apoptotic protease activating factor-1 long isoform 4 [Ornithorhynchus anatinus] (2e-56) |
Best NR hit (blastx)   | PREDICTED: similar to apoptotic peptidase activating factor 1 [Tribolium castaneum] (3e-57) |
GeneOntology terms    | GO:0042981 regulation of apoptosis GO:0005524 ATP binding GO:0006952 defense response GO:0005515 protein binding GO:0005622 intracellular GO:0006915 apoptosis GO:0000166 nucleotide binding GO:0008233 peptidase activity GO:0005737 cytoplasm |
InterPro families    | IPR002182 NB-ARC IPR001315 Caspase Recruitment IPR019781 WD40 repeat, subgroup IPR011047 Quinonprotein alcohol dehydrogenase-like IPR011029 DEATH-like IPR001680 WD40 repeat IPR015943 WD40/YVTN repeat-like-containing domain |
Orthology group | MCL18378 |
Nucleotide sequence:
ATGGATATCAAGAAGCGGATGCTATTGCAACACCACATGCAGGATATCGTCAAAGATCTA
GACGTTAATCACATACTTGATGAACTGTTCACGAAAAATGTCATATCCAACGAGGATTTC
GATCACATATACAACTTGCCGGATAGGGTAGAACGTGCTAGATTTCTCATAGGCATTATA
CTGACCAGCAATAATAATGCATATGAAGCTTTCGTGGGTAGCTTGCAAAAGGATTACAAA
TGGTTGTATGAAAAGTTGTCAGTAGAAAACAACCAAGCCATGATAGAAGATAGCTTCGAA
GACTGTCTAAGTAGGGGGGATGTGCCGCGGCTGCCAGATCACTTTATCAGTAGAGCTTCT
TTGGAAAGGGAATTACATTCTAAATTAAAAATCCTTTCGCGTCATAAGATCCTGGTTCTC
TATGGGATGCCAGGTTGTGGTAAAACGGTGTTGGCTATCAGCGTTCTGAGGAAAGAATCA
ACGCTCATCATGAACGACTTCAACGGCGTTGTATTCTGGCTCAACCTTAGCAACTGTAAG
ACTGAAGACGATGTCATTGCTCAACAGAACAGGTTATACCGCAAGGCGTCGCTAATGTTC
AACCAGAATTCGTTCATGAATTCATCGATGTCTCTATCCAGTGCGTGTTCAAGAGGAGAT
TCGTTATCTAATTATGATCATACCAGTGAGGAATTGAAGCATAACTTAAAACTGCAATTT
TCCGGAGAGCCCTTGAAGGAGGCCTTGCTGGTGTTGGACGAAGTCAATGAAAAGAACATT
CTAGAAGCTTTCGATATCGGCTGCAAAATACTCGTAACTACTAGAGACAGAGAAGTCTTC
GTCAACTTTGATTCCCAGATTGTAGAAGTAGAAAATCACTTTTCTGAGACGGAATCATTA
GAGTTGTTTGCTTCGTGTCTTGGTGTAGAGGCTGCGAAGCTACCCAGACAAGCGAAGAAG
TTACACGAAGTTTGTAAAGGAAGTCCATTTCATATAGCATTGATTGTGGCTGAACTAGCC
GAAAATAAAGAACGTCTGATAAACGACCCGCAGAGGTGGAATTATTATATTGATAAGCTG
AGAAAAAAGGAACTTTTCTCTCTACCGAGACGAGAGAAACCAATGAAGACCGTCGAAGTG
TGCATTAACTTGCTCAAACCGGAAATGCTGGCGTTATTCAAGATGCTAACAATATTGCCA
TACAACACTAAGATATCAACTAAAGTACTCAGCAGACTGTGGAACAAAAGCATAATAGAA
GTTGAGAGCATAACGAAACAGCTGAGAAGTAAATCATTGATCATGGAGTTCTACGACAGG
GACCAAAAGAATTACACCTACGAAATACACGACTTGATCATGAGCTATCTCATATCGAGT
TCCAACGACGACGAAGTTAGGAATATGCACCTGAATTTCCTCAGAAACTATGATTACGAT
GTCTCGAACGGCGTGCCTGTAGAAATAGCCGATGACGGATACATAGCGTTCCACATCGGT
TACCATTTAGCCAAAACGAGAAACGCAGGCAATATGTGGGATTTGTTCAATAAACTGTAT
CTAGATTTGAGATTTTTAGGTAACAAAGTCAGACTAACCGGCTCAGCTGATGTTATATTG
GATTTGGAAACTTACGAAAAGTATATTACGAAAAATTGTGAGCTCGATACAAGACTATTA
TACAGTATCAAAGAATTTCTCATAAGACACGGAACGGATCTCTACAGGTATCCATGCACG
GATATAGTACAAAGTATACTACAGAACGAAAGCAAGGGAATCCTCTATACTAAAGCCAGT
CAGATCGCTAAAGAGAGATGCGCGAAAAACGAACTGTACTTTGAGTTTTTACACGAACAA
AATGTAGAAGAAATCAAACATTCCACAATAGATGTGAAGGAGAAAATAACTTGTGTGTGC
TTCTTCTTCAAATATGTTCTGATTGGAACTGCCACAGGGGCTATTAAGCTGTTCGAGCTG
AACACCAACAAGCTAGTGCGCTCTCTCCAGCTGCAATCTTCAGTACGTGCGATGTCTCCG
CGCCTATCGTCCCCTGCAGCGCTTGCAGCGCTAGAACACAGCGGTGTGTTGCGGCTGTGG
TACGACCTGCAGCCGGAAAGTGATCACGACAGTGACGTCATCGAAGAAGAATGTGAAGAA
AGCTTCAACAATAACTACCTTACCAACAAAACAATACAACCCAAACTGGGACCGTTTCTG
AACTGCCGCTGGGCAAATGACTTCCTAGTAACACACACTTCAGAAATAATCATAATATAT
TCAATAAACGCTGAGGTACTTCATATCCTGTGCTGTATTCCATGTAACTTTGATAAAAAC
GTTATATTCGCAACGCCGCGGAATCTAGAAATCGTCAATTTGAAGACTAAAGAGAAACAA
GTCTTTGAAACAACGGACATCGTTTTAAACATCCTGACTGTACCCGGCAGTAACAGAATT
CTTACCTTAAATGAAAATGAAGTCACAGAATACGAATTCAAAATGTCTTTCAAACACAAA
GAGAACAGGAGAGGAAAGACTGTCGTTTCAAGCAACGCTGTTAAAGAGAACATATTATTT
ATATCGATGGCCGTCAACAACACCGGCACGCTGCTGTTCGTGTCAACAAACGACAACAGA
ATTATTTGTGTCGATCTAAAAACGAATTCATATATATTTGATCTACAGAATAGGAGAGGG
AACGTGACATGTATGTCTGTATGCGAGGTGTCCGAGCCTGAATACTTAGAAGGATCGGAT
CTGTTGTTGACTGGCTCCGGACAACACGAGGACACCGCGAAGGTTTGGTACATGGAAGCT
GGCTACGTCGCCGCTAACACTCATAGGAATAGCAAAGCTCGTCTAACAACTAAATTCGAC
GCTAATTTTGTAGCTGTATCGACACCGAACGATACTTCAACCAACAGTTCCACAACGACG
CCGAAGAGACATCATTCGTTTGCGAACCAACACGAGGTTGTCAAAAAAGTTGTCAAAACC
ACCATGAGCCTTGACAGGCATACGCTGAAACCGTTGAACTTGGATGGGATTTGTAACGGC
ATTAGCAGCAATGGGATGCAACCCTTATTGGCGATTGTTGATGACAAAAATAACATACAG
ATAATGCGTGGCAGGAAGCTCATAGCAGAGATATCTTCTTATTCAGACCAACAGGTCACA
GCGGTTCGTATATCGCCGTGCAACCACTACGTTATATACGGACTCAGTTCCGGTATTGTG
AAGAAATTTATCGTTCGCTCCAAGGAGACCAAGGATATAATGGACGTGAACAGCCCCGTG
ATGTATATGAGCTTTGTTAACAGCAACATGTTGATAGTGGCCGGGGAGAACAAATGTCTG
ATGGCCTATAGACTCACTGACAACGGTGAATGGGAACCGCTCATGCTGATGAGGGGTAAC
ACTGATCTAGGATCGCAGGAACTATTGAATGATATACAAGGAGTTAAAAAGAAACCGCAA
CAGTTGTCAAGTATAGACAGCGAGAGCAGTATCAACTCAAGGGAGTTTTACTTCAATTCC
GTCACATCAAAGCTCTGCAAGGGAAGTAGTTTGGTGGACTGTTACTGGATACAAGGCATG
GGCCTTGTCACCATAGAGTCAAACGCAACCATCAAGCTGTGGGACGAAAACCTGGAGTTA
GACAAAGTGTTGCACGGAAAACAAACAGCCCCCATACAGAGCAAAGACGTACGACTGTGT
TGTTCCGATTACAAGAAGAATATACTGGTCATATGTGACTATTCCAATGAGTGTTTTCAG
ACATTCGAAGTCAGACACGGACAAATGAATCTGATACAAGAATACGAACTCAAGAAAAAG
ATATACTCATGTGCTCTCACAGATGACGGAAATATACTGGCGCTGGGACTTGAATCAGGG
GATGTTGTGCTATGGAGCGTGGCGAACAAACGTTTGCTGGAGGTGTTGAAGCATCATTCG
TCGCGGGTCCAGTGTTGTTGTTTCTCTCCGGTGCCATATAGACGCGGCCGGCCGGGAGCG
CTCTCCCCCGCGGGGACCCCCGGGGACGACGAGCCGCCTCTAGTACTAGTGACCATGACA
GCTGATGTAGTATGGTGGGATGTCAGCTATATCATACGGAGAAGACTCAATAGGAACTTG
AGAACGGGCAGAACCATACTCACACCTCTACCAAGTCCAATGGAATTCAAAAATGAAATA
CAATCAGACGATAACGCCAACAAGAATAACTATTTCTTCAACGATAACTTACTGAATCCA
ACGCAAATGTGGAAAGCTAATTGGAAACATAAAACATATAAAGAGGGTTCAAAGAGGAAG
GAAATCCTTGCGTGTATCAAGCTATCAGGGATGAACGCCAAGAAGATCTGCCACGATGAA
AAGTTCTCCTGTTTCGTGACAGTCGACAACCCTGGCCTTATATACATTATGACGCTTATG
GGTTCCGTTTAG
Protein sequence:
MDIKKRMLLQHHMQDIVKDLDVNHILDELFTKNVISNEDFDHIYNLPDRVERARFLIGII
LTSNNNAYEAFVGSLQKDYKWLYEKLSVENNQAMIEDSFEDCLSRGDVPRLPDHFISRAS
LERELHSKLKILSRHKILVLYGMPGCGKTVLAISVLRKESTLIMNDFNGVVFWLNLSNCK
TEDDVIAQQNRLYRKASLMFNQNSFMNSSMSLSSACSRGDSLSNYDHTSEELKHNLKLQF
SGEPLKEALLVLDEVNEKNILEAFDIGCKILVTTRDREVFVNFDSQIVEVENHFSETESL
ELFASCLGVEAAKLPRQAKKLHEVCKGSPFHIALIVAELAENKERLINDPQRWNYYIDKL
RKKELFSLPRREKPMKTVEVCINLLKPEMLALFKMLTILPYNTKISTKVLSRLWNKSIIE
VESITKQLRSKSLIMEFYDRDQKNYTYEIHDLIMSYLISSSNDDEVRNMHLNFLRNYDYD
VSNGVPVEIADDGYIAFHIGYHLAKTRNAGNMWDLFNKLYLDLRFLGNKVRLTGSADVIL
DLETYEKYITKNCELDTRLLYSIKEFLIRHGTDLYRYPCTDIVQSILQNESKGILYTKAS
QIAKERCAKNELYFEFLHEQNVEEIKHSTIDVKEKITCVCFFFKYVLIGTATGAIKLFEL
NTNKLVRSLQLQSSVRAMSPRLSSPAALAALEHSGVLRLWYDLQPESDHDSDVIEEECEE
SFNNNYLTNKTIQPKLGPFLNCRWANDFLVTHTSEIIIIYSINAEVLHILCCIPCNFDKN
VIFATPRNLEIVNLKTKEKQVFETTDIVLNILTVPGSNRILTLNENEVTEYEFKMSFKHK
ENRRGKTVVSSNAVKENILFISMAVNNTGTLLFVSTNDNRIICVDLKTNSYIFDLQNRRG
NVTCMSVCEVSEPEYLEGSDLLLTGSGQHEDTAKVWYMEAGYVAANTHRNSKARLTTKFD
ANFVAVSTPNDTSTNSSTTTPKRHHSFANQHEVVKKVVKTTMSLDRHTLKPLNLDGICNG
ISSNGMQPLLAIVDDKNNIQIMRGRKLIAEISSYSDQQVTAVRISPCNHYVIYGLSSGIV
KKFIVRSKETKDIMDVNSPVMYMSFVNSNMLIVAGENKCLMAYRLTDNGEWEPLMLMRGN
TDLGSQELLNDIQGVKKKPQQLSSIDSESSINSREFYFNSVTSKLCKGSSLVDCYWIQGM
GLVTIESNATIKLWDENLELDKVLHGKQTAPIQSKDVRLCCSDYKKNILVICDYSNECFQ
TFEVRHGQMNLIQEYELKKKIYSCALTDDGNILALGLESGDVVLWSVANKRLLEVLKHHS
SRVQCCCFSPVPYRRGRPGALSPAGTPGDDEPPLVLVTMTADVVWWDVSYIIRRRLNRNL
RTGRTILTPLPSPMEFKNEIQSDDNANKNNYFFNDNLLNPTQMWKANWKHKTYKEGSKRK
EILACIKLSGMNAKKICHDEKFSCFVTVDNPGLIYIMTLMGSV