New model in OGS2.0 | DPOGS204466  |
---|---|
Genomic Position | scaffold3362:- 9387-15829 |
See gene structure | |
CDS Length | 3141 |
Paired RNAseq reads   | 1091 |
Single RNAseq reads   | 2674 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007806 (0.0) |
Best Drosophila hit   | CG5859 (7e-91) |
Best Human hit | integrator complex subunit 8 (7e-22) |
Best NR hit (blastp)   | PREDICTED: similar to CG5859-PA [Apis mellifera] (5e-174) |
Best NR hit (blastx)   | PREDICTED: similar to CG5859-PA [Apis mellifera] (1e-126) |
GeneOntology terms    | GO:0005515 protein binding GO:0032039 integrator complex GO:0016180 snRNA processing |
InterPro families   | ND |
Orthology group | MCL13982 |
Nucleotide sequence:
ATGGATGTCGATTTACTGCGACCGGGCACTGTGCCCATATCGCCGGACACAGTGTTGTGG
TTTGAATTTCTATTAGACCCCAATTTGCTTAAAAGCCATTTAAGTAAACCCAACCCAGAA
CCTTCAGCTTGCGAATTAATAGAAGAATTTATAAATGTGGACACAAAACAGGCAACTTCT
AAACCTACTAGTGAGAGGATAGTTGATGTAGATGCTCCTCCGAGTCCACCAACACCAACA
CCTGGACCTCTTCAATTCACTAGAAAACAACTGGCCTTAAAGATTTTAGCCTTAAAAGTT
GCTGCTACATTGCACTGGAATCTAGACATATTTGAAACAAAGCTGCCACCACAAACTCAA
CAGCACCTCATGCAGGATCTGGTATACATGGCTACCGATACCAACTTTGCCATTCCCCCT
CAGGATGTGCCGGTGGAAATGTTTCACAAACCGCAAGCCCAGTTTGCTCTCACACTATAT
CACAGATGGGTATTAAGGTTTCCCGTTAAAACTGCATTGTATTCAAAATCCAATAAATTG
CCATTTGTGCATGTACCGGGTTTACAGGGAGATACTGCTTTTAGTCCTTTAAATCAAAAC
TTTGAAAAGATCTTACGTATGTGTGAAGCATCACGAATACAGAGTATCAGATATTTAGAC
AGTGTACTATCATACTATGAGACTACACTTGGTAGAAAAGATGCAAGAAAGATAAAAGTT
CCTGTTAGGGAAGCATTTGTTCATCTCACAGAAGATATTAATGATATGAATCATAATTGG
AACGCCGGTGATACAGTTATAAGCCAATATGAATTAGCAATGCAAATACATTTTGATCTC
TGCTACAATTACTTTTTTTACGGCCAACACGATCTTGCGAAACAGCACATTTTAGGTTGC
AGAGAAAATTCTAACTTACTTGAGAAAGAGGTTGCAAGTTACGGCTATGGGCCACATAAG
ACGGTACCATGGGGTGAATTTTATTACGCTAGTATGACCAAGGACGACATTTTGGGTTAT
ATAAGAGCTTTGAACTTAGGTTATGAGGTATTGAACGAAGAGCCTTCATTGCTACAAAAA
CTCCAGGAATCTATAGCAAACCATTATACTGGTATCATAGGTATATTGCAAGCAGACAAC
CTAGCAAGAGTTATTCCAATGGTTCATAGAGATGTGGTCGAGCTCGACATTCAAGGTTCG
GCTTCCAGTGGAGCGTTTACTGTGGCTAGGGATCTTTTGAATCGTGTTGCCGCTTTGAAT
GCTGTAAGATACTCCCTAGAAGGCGGAATACCATCTACACATCCAGATTTTCTAAACAAA
CTTAAGACGTCAGGTATTAAATTCTTCGATTTACTATTATGGGCCATGGCTCCGGTACTA
ATGTCTAACTTATCAGAGAAGGATTGGGAGAATCTGCGTGTATTTTTCCTTCATCTCGCT
ACATCGCAATACAAGTTACCAATCGACAGGTTAGACGAATATCTGAAGAAATACGTAGGG
GACGCCAGCGAGTCAATCAGGAGAAAACTAATACCAGACGAACATCTCAAAGAAATATTG
AACGACCCAAATAATATTGACGATGAGAACATTGATATCCCAAAAGAACTGTTGACAGAT
GACTGGGAAACACCAGACTTTGACTTTAAATCCGTACCTGAACTGGAAATGGGTAGATTG
AAGAAGCGTCTTATAGAGGCGTCTACCGCTGACGATGTACGGATGTGTCTTGTTAAACTG
GCAATGATGTCTCCGACTTCACCGTTATGGAAGCTGAGCCCATCTTGGAAACCTCCCTCG
AGCTTGGTTAATGCATTAATGGCCTTGCCTCGAGGCTTTCTTCAAGATTTTGGGTATATT
GTGTCAGGTACAGCAAGGGCTCGTCTAGAAGCTGGCTATGCAAAAACTGCTTTATCTCTT
TTGTCTGCGTTAGAAGGGGAAGCGAGAAGTCAATTGGGGGGAGGATCTGACCCCAATTTA
TATAGACTTTGTCGGCAATTGTCTTGGGAAGTTTTATTGCTACAAGTTAATGTAATGTTA
AGCGAATGGCCCCACCATCACATCAATCTAACGGTCCTGGCAAATAAATGTAAAGCATGC
ATCGCAGTAGCTACGTCAGGCGACAACGTTGTACCGCGACCTCAAGTGTTGGAGGCCTGT
TGGACGTGCCTGTTAAACGCATGCGAGTGGGAAGTGACAGGTGTCAGCGGGGGTGCGGGC
GAGACATCGGCAGCTTTATGTGCAGCATGCTTCGAGCTGCAGCGGGGGAAGGGGGCGAGG
AAATTCCCCCGCGCTTTGTGGGACTATGCCTTATCAGTATACAGTAATGGTTCGAACGTA
CCGGTGAAGCGCACAGCTGCTGGTATGCCGGCTCATTCACGCGACGCTCCGAACGCGGCG
GCCGAAGCTAGGAACGCCTTCAACTCGTTCCTCACAACCCTCAGAGAGCCTCTCGCCATC
AGCGTCATGATGTCCCTCCTAGCCAGGATACATAACCTCATAATAAACGATAACTCATTG
GAACTGAACGTGGAATACACGAATCTCTGGCCGCCGAACATCTCCAATATAAACAATTAT
AACTTAAAACATGTCTTGGAATCCCTCACTGAACTCCTTGAACGAAGTCTGAGGCTATAC
CCATACAATACCTCGTGGCTCCGTCTGTATGGGGACGTGGAAATGGCGGGCGGTAGATGG
GCGGCGGCGTTGCGTCGTTATTTATGCTCGTTAGCGGCGAACACGTGGCATTTCACCAAG
CGTGCACCGGACGAGGGCGGCATAGCTCGGCGCGCGGCTCGCTGCTGTCAGGCGTTGTGC
GCGCCCACTCAGGCCGCGGCCTTATGTCAGCTACCCGACGAACCGGATTACACCATCGCC
TTCAAGTGTCTCGCAGAAAAGACTGGTAACGCAGCGGACGCTATGGACGGTTATTATGGT
TGTCTATGGGACGGGACTCTGCTGGAGGTCGGCGTGGCGCTCCACGCTCGTAGAGGCGAG
GGCGGCAGACGAGCTCGGGCCGTCAAAGCGGCCGGAGCCCTGGAACTCAACGCCAACAAC
AGCGAAGACATCCAGAGAGAGGCCGCCGCCATACGAAGAGCTAGATTACTAAGAGCACTC
ACCAACCAATATGTCGTGTGA
Protein sequence:
MDVDLLRPGTVPISPDTVLWFEFLLDPNLLKSHLSKPNPEPSACELIEEFINVDTKQATS
KPTSERIVDVDAPPSPPTPTPGPLQFTRKQLALKILALKVAATLHWNLDIFETKLPPQTQ
QHLMQDLVYMATDTNFAIPPQDVPVEMFHKPQAQFALTLYHRWVLRFPVKTALYSKSNKL
PFVHVPGLQGDTAFSPLNQNFEKILRMCEASRIQSIRYLDSVLSYYETTLGRKDARKIKV
PVREAFVHLTEDINDMNHNWNAGDTVISQYELAMQIHFDLCYNYFFYGQHDLAKQHILGC
RENSNLLEKEVASYGYGPHKTVPWGEFYYASMTKDDILGYIRALNLGYEVLNEEPSLLQK
LQESIANHYTGIIGILQADNLARVIPMVHRDVVELDIQGSASSGAFTVARDLLNRVAALN
AVRYSLEGGIPSTHPDFLNKLKTSGIKFFDLLLWAMAPVLMSNLSEKDWENLRVFFLHLA
TSQYKLPIDRLDEYLKKYVGDASESIRRKLIPDEHLKEILNDPNNIDDENIDIPKELLTD
DWETPDFDFKSVPELEMGRLKKRLIEASTADDVRMCLVKLAMMSPTSPLWKLSPSWKPPS
SLVNALMALPRGFLQDFGYIVSGTARARLEAGYAKTALSLLSALEGEARSQLGGGSDPNL
YRLCRQLSWEVLLLQVNVMLSEWPHHHINLTVLANKCKACIAVATSGDNVVPRPQVLEAC
WTCLLNACEWEVTGVSGGAGETSAALCAACFELQRGKGARKFPRALWDYALSVYSNGSNV
PVKRTAAGMPAHSRDAPNAAAEARNAFNSFLTTLREPLAISVMMSLLARIHNLIINDNSL
ELNVEYTNLWPPNISNINNYNLKHVLESLTELLERSLRLYPYNTSWLRLYGDVEMAGGRW
AAALRRYLCSLAANTWHFTKRAPDEGGIARRAARCCQALCAPTQAAALCQLPDEPDYTIA
FKCLAEKTGNAADAMDGYYGCLWDGTLLEVGVALHARRGEGGRRARAVKAAGALELNANN
SEDIQREAAAIRRARLLRALTNQYVV