Genomic Position | scaffold3119:- 1210-12558 |
---|---|
See gene structure | |
CDS Length | 3570 |
Paired RNAseq reads   | 288 |
Single RNAseq reads   | 688 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006586 (1e-153) |
Best Drosophila hit   | CG30357 (4e-38) |
Best Human hit | influenza virus NS1A-binding protein (1e-19) |
Best NR hit (blastp)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (1e-128) |
Best NR hit (blastx)   | conserved hypothetical protein [Pediculus humanus corporis] (2e-119) |
GeneOntology terms    | GO:0008150 biological_process GO:0005575 cellular_component GO:0005515 protein binding |
InterPro families    | IPR011333 BTB/POZ fold IPR015915 Kelch-type beta propeller IPR000210 BTB/POZ-like IPR006652 Kelch repeat type 1 IPR011705 BTB/Kelch-associated IPR013069 BTB/POZ |
Orthology group | MCL12768 |
Nucleotide sequence:
ATGATAAGGAGTAATAGTTTGGAAAAAGTTCACAATACCAATGTTTCAAATTCAACCAAC
GATAATGTCCATACGGGGCCAGGTTCTGGACTGAAAAAGCGGTCTAAAAGATATCAGTTA
CAGGAACGTTACCATATAACAATTAAGCCTAAACTCCATAGAAGTAGCTCATTATCTGAT
CTCTCTCCGAATTCAAGCGATTTTTCACTAGATTTTCTAAACGGCACGAAAAATTATTTA
TATAAAAATCGTTTGGATAAAATAGTATATGAAACATCTGGAGACGCCGCAGAAATATAT
TGGTCTAAAGATTTAATAGAACAGCCATTTATGTCTCTAAAATTGAAAGGAAAAAAATCT
AAAAAGAAGTCTCAAATGCTTTCTACTAAAACATACGCTTCAAAATTTGCCACTGAATAT
ATTAGAAACCTCGAAAAGGATAACAGTGTGTCATCTTGTGGTGAAAATTTCAGTATTTGC
AGCATGGAGGAAATGAACGCCCAAAAAGCTGCATTCCCATTTAAACCTACGCCTAGTGGG
AATTTAAAAGTACAATCAAATCAGGTAGTGTTTCAATCGTCAACTGTTGGCGTCCTTTTA
GCGGATCCAACTCAAGCTAAAGTGAAAGTAAAATTTGAAGGAAAAGCAACAGAAGATCAA
ACTGACCGCCAAATTCCTGATGACAGCAATGACTCTGAGCCACAACTCCAGTTCGGACCT
AAAGTTGCAATCGCAGCACAAGCCAAAATCGCCGGTACTTTTAGAAATTCAAATAAGAAA
TCACATGGAGTGAAAGAAGAAAAAGGAAGAGATTTAACCAGCCTTGGCTACGTACAAACG
GAGACACTTGATTGGACAAGAGTACAATTACCAAAAAAACAAGATCTTTTTCAAGAATTT
TATCGAAGAATACATAATTTTATCAATACAGATACAGTTGTACGTATTGGTAAAGATGAA
TTTCTCTGCCATCGTATAGTTCTCCAGATATATTCGGCCTTTTTTGACGTCAATAACCAA
CAAGTAATTGAATTGTCCAAAGACAACGTAACATCAGAAGCCTTTCATATCATTTACGAA
TGGATGATATCAAACGGTCAAGAAAGTAATCGTATTTTTAGAAAAGATAACATTCTGGAT
TTATTTTGTGCAGCTCAGTTTTTGGCCATAAAAGATTTGGAAGACCAATGTTGGTCATTT
ATTGTCAACGAACATATTTTTAACGAAGACACGGCCTTTGTTTTGTATAGAAAGGCGAGA
GTCAGAGAACTGGTGCCCGTTATGGATATCATGGTACCACGTGTTATGAAATTTTTCTTA
CCACTAGTGGCATCTAATGATTTCCTTCAATTGGAACCGGATGAAGTGATGACATTCTTG
AAATCTAATTATATAAACGTCACCAGTGAAATAGAAGTTCTGATGGCTGGCATCAGGTGG
TTGTACGGGGACTGGGCCAATAGAAAACGACATTCCATAGAAGTGATGAAATGCGTTCGC
TTTGGACTAATCTCGCCCTGGCAATTGGTTGACATTAAGAGAAACCCAGACAATGCTGAG
ATTTTGGAAATCATTAACGAAGCCGAGATACAACAGATGGTGGATGATGGGCTCGCGTAT
GTTATAATTAAATATTGGTATGGTAACAATTCAAAAAATTATTACCATTGGATCGACGTG
CTGGGTCTAAGTGAGCCATGCGAAAGAAACTGGATAGGCGAAGAAAAGAATCACGGCACA
TACAGGGATTTCTTAAAATATCTCGAGCAGTTTTTATTACCAAAGGAACAGATGTATCAA
CATATGGCCATGATGCAAACCACGAAGCGTGATGATTGTCCGGGTAACATGCGTGGTCTA
GACAATACTATGGACATGAAGAGACCGAAAATGGACTTTCCATTACCGGCAACTTTAAAA
GGCCTAACTGGCGATAAGGAAAAGTTTCCTACAATGGGTGATTTTTACGAAGTTCGTAAT
AAGGAAAGAGGAAAAAGCCAATGTCCGTCCCCAAGTCGGTCGCCACCTTCGGTTGATACC
GCAGCGCAATCCGTTTCGCATGAGCGAAAAAACGCTAACATCGAGCAAAAACCAAAAAAA
AACGAAGAAAATCGTACGATACAATCACCGTCATCACAGCAATGTTGCAAGCAAATACAT
GAAATACACATGTGCAAGTTACAGCCATCTCATATTCCTTTCACCACAAAAATATATGAG
CAACCGGAAAAGGATTCTGCGGAGGATCTCAACACTACGAGTGAGGCGAGCAGCGAAATG
ATGGGTACCAGCACCAGTGATAATATGGGGTACATACATAGGCAAAGCGAAAGGAAACAT
AGTATCGCGGCCAGTTACCTCGCTGCAGCCACCGCAGCGCTAAGTGGATCTAGGAGAGAT
TCTCAAAGCCCAACACTTCGTGGTCAAACTACGAACACAAGCAGAACAGAGGCAAATACA
TCCCCAACAGCTACCAAAAAATTTAGTCCACAGGCTTCTATATTTAACCAATCTAAAGAA
TCGCTGGCGAGGATAAATATGAATAAATTATCGACTTCGATACTTGGCCCATCGAACAAG
AACTACATCGCTGAGGGTTCCCTTTTCAATTGGGATAGGGAAACAGTTTTGGTGTTTGGT
GGTATAGATCCACATACCTCCTATGGCGTGGCGGGAAACACTGGCAAAGATATTTATAGA
TTCGATCCCGTTACAAACACATGGGATTTGGTCGGTGAACTTCCAGAGCCAAGACATCAT
CATTCAGTCGCTTTTTTGAGAGGAAGAGTCTTTCTCGTTGGTGGAGCAGATCCTCGTGAG
GATGATCTTCGAGGTAAATCGGTGGTGGTGTCGACAGTGTGGAGCTTTGAACCGGTAACA
CGCTCTTGGTACAGTGAATCAGGTTTAGCGACACCCAGGAAGAACTTTGGATTGGTGGTA
CATCGGATGGCATTATACGCGATTGGTGGTCAGGATAAAAAAGGGAGGGTGCTTCGGTCA
GTGGAGCGCTTCGACCCGAAGACCGGTTCTTGGAGCGAAGTCCGCGGGATGTGCGCGGCT
CGTATGGCAGCTGCGGCGGCCAAGCACCGTGACTATATCTGGGTCGCTGGCGGCATGACC
GGCGAGAAGAGGCGACCGGTCTGCGGCGTCGTTGAATGCTATAACTCTAATACCAACCAG
TGGACACAAATTCATAGCCTCCGTTTTCCAAGATGTTTCGCTACGTTGTTCTCTATGAAC
GATAAGTTATACATCATCGGTGGTGCTGGCAAGATATCAGAAAAGGACAAAACTCCGAGT
AGCGTTGGAGCGATAGACGTTTGGGATTGGAAAGACCGCGCTTGGAAACTTGAAACAGAA
ATGTCTATCCCGCGACACGGCCACGCCCTTGCTTACTTAGGCACTCAACTTATTATTATA
GGGGGTGTCACGACGATTTATATGCGTGCCCTTAGCAATGTGGAATCGTTCTGTTGCGAG
CGTGGCGCCTGGATCCGAGGGGTTTCGACCCTACCGTCACCTCTATCAGGGCATGGGGCT
GTGACACTACCTCCTGCGTCTCTCATGTAG
Protein sequence:
MIRSNSLEKVHNTNVSNSTNDNVHTGPGSGLKKRSKRYQLQERYHITIKPKLHRSSSLSD
LSPNSSDFSLDFLNGTKNYLYKNRLDKIVYETSGDAAEIYWSKDLIEQPFMSLKLKGKKS
KKKSQMLSTKTYASKFATEYIRNLEKDNSVSSCGENFSICSMEEMNAQKAAFPFKPTPSG
NLKVQSNQVVFQSSTVGVLLADPTQAKVKVKFEGKATEDQTDRQIPDDSNDSEPQLQFGP
KVAIAAQAKIAGTFRNSNKKSHGVKEEKGRDLTSLGYVQTETLDWTRVQLPKKQDLFQEF
YRRIHNFINTDTVVRIGKDEFLCHRIVLQIYSAFFDVNNQQVIELSKDNVTSEAFHIIYE
WMISNGQESNRIFRKDNILDLFCAAQFLAIKDLEDQCWSFIVNEHIFNEDTAFVLYRKAR
VRELVPVMDIMVPRVMKFFLPLVASNDFLQLEPDEVMTFLKSNYINVTSEIEVLMAGIRW
LYGDWANRKRHSIEVMKCVRFGLISPWQLVDIKRNPDNAEILEIINEAEIQQMVDDGLAY
VIIKYWYGNNSKNYYHWIDVLGLSEPCERNWIGEEKNHGTYRDFLKYLEQFLLPKEQMYQ
HMAMMQTTKRDDCPGNMRGLDNTMDMKRPKMDFPLPATLKGLTGDKEKFPTMGDFYEVRN
KERGKSQCPSPSRSPPSVDTAAQSVSHERKNANIEQKPKKNEENRTIQSPSSQQCCKQIH
EIHMCKLQPSHIPFTTKIYEQPEKDSAEDLNTTSEASSEMMGTSTSDNMGYIHRQSERKH
SIAASYLAAATAALSGSRRDSQSPTLRGQTTNTSRTEANTSPTATKKFSPQASIFNQSKE
SLARINMNKLSTSILGPSNKNYIAEGSLFNWDRETVLVFGGIDPHTSYGVAGNTGKDIYR
FDPVTNTWDLVGELPEPRHHHSVAFLRGRVFLVGGADPREDDLRGKSVVVSTVWSFEPVT
RSWYSESGLATPRKNFGLVVHRMALYAIGGQDKKGRVLRSVERFDPKTGSWSEVRGMCAA
RMAAAAAKHRDYIWVAGGMTGEKRRPVCGVVECYNSNTNQWTQIHSLRFPRCFATLFSMN
DKLYIIGGAGKISEKDKTPSSVGAIDVWDWKDRAWKLETEMSIPRHGHALAYLGTQLIII
GGVTTIYMRALSNVESFCCERGAWIRGVSTLPSPLSGHGAVTLPPASLM