New model in OGS2.0 | DPOGS213117  |
---|---|
Genomic Position | scaffold320:- 14415-27878 |
See gene structure | |
CDS Length | 5136 |
Paired RNAseq reads   | 6868 |
Single RNAseq reads   | 15921 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000930 (2e-119) |
Best Drosophila hit   | brahma, isoform D (0.0) |
Best Human hit | probable global transcription activator SNF2L2 isoform b (0.0) |
Best NR hit (blastp)   | helicase [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | AGAP010462-PA [Anopheles gambiae str. PEST] (0.0) |
GeneOntology terms    | GO:0016251 general RNA polymerase II transcription factor activity GO:0016585 chromatin remodeling complex GO:0008094 DNA-dependent ATPase activity GO:0003713 transcription coactivator activity GO:0005634 nucleus GO:0048096 chromatin-mediated maintenance of transcription GO:0005515 protein binding GO:0035060 brahma complex GO:0048477 oogenesis GO:0035172 hemocyte proliferation GO:0005524 ATP binding GO:0045449 regulation of transcription GO:0003677 DNA binding GO:0004386 helicase activity GO:0007474 imaginal disc-derived wing vein specification GO:0048666 neuron development GO:0007517 muscle organ development GO:0048813 dendrite morphogenesis GO:0006911 phagocytosis, engulfment GO:0007409 axonogenesis GO:0008586 imaginal disc-derived wing vein morphogenesis GO:0008587 imaginal disc-derived wing margin morphogenesis |
InterPro families    | IPR018359 Bromodomain, conserved site IPR001487 Bromodomain IPR014001 DEAD-like helicase IPR001650 Helicase, C-terminal IPR014012 Helicase/SANT-associated, DNA binding IPR000330 SNF2-related IPR006562 HSA IPR006576 BRK domain IPR014978 Glutamine-Leucine-Glutamine, QLQ IPR013999 HAS subgroup |
Orthology group | MCL10987 |
Nucleotide sequence:
ATGGCGAGTCCTTCACCGCAAAGTAGTCCTATGCCACCGCCACAAGCTCCAAGCCCAATG
GGGCCACCAACTCAGAGCCCCGCTCCACCGCAGTCTCCACATAGTCCATATAATCAGCAG
CATGTTAATGGACCGCCACCTTCAGCTCATCCTCCCGGATCAGGCCCACCTCCAATGCAA
AATCATATGCCCCCCGGCCCGCCACACACTATCGCGTCCAATACTAATGGACCTCCAAGT
GTGGTGCAACATCCTGGCATGCCACCAAGCGGACATCAAATACCACCACATATGGTAGGA
CCACACATGTCTGGTCCTCCAGGGCATCCAATGAGTGCTTCTGGGTCTCATCCACCTGGT
CCAAATGGACATTCCAATATGCCAAGTAACCCGCAACACCCAAACATGCCTGGACAAGGC
CCCCCTCATGGTTATATGCAACATCAAATTGGACATATGCCCCCTAACCAGGGTTCCATG
GCAATTGGGGGTGGTCCACCACCACCTGGTAATGGGCCTCAAGGTCCCCCAGGTCCATCA
GGAGTACCACTGCCCCTTGGTGGACCTCCGCCGCATGGGGTACATCCACAGGGTATGCCC
CCTATGCCACCACACCATATGATGTCGTCTCAAGGTGGATACTCACATACGTCTTCGCCG
GGTGCTCCAACACCACCCGGTGCCCCATCCGGCCAGACACCTCCAGGAGGACCACAGCAG
CCTCCCACCGCACAAACCCCTCCTCATGGGTCTGCACCACCTCCGACCTCATCAGCCAAT
GGTGCACCATCGTCCTCCCCAATGCAAGCCTCCCTAGCTGCCTCGGGTCCGGACAATCTA
AATGCTCTACAGCGTGCTATTGATTCCATGGAAGAGAAAGGCTTGCAAGAGGATCCGCGG
TATTCACAATTGTTAGCCATTAGAGCTCGTTCAAACTCCCAGGACCCAAGCAAAGGACTG
TTTTCAAACACCCAGCTGAGTCAGTTGAAGGCTCAAATAGCAGCATACAGAAACTTGGCT
CGCAACCAGCCCATCACACAACAGATTGCAATGATGGCAGCCGGCAAACGTACTGGAGAC
TCTCCACCAGAGTGTCCTACACCACCAGCACAGCCGCCCTCACCATACAGCCAAGGACTA
AGCCAAGGCGGCTCCCAGAGCGGCGCGGGTGGGAAGGGAACAGCGGGAGATGCGGCCCGA
GGCGGCGGAGGAGCTCCGCCTACACCACTACCAATGACGGGACAGATGGCGCCACCTACA
CAACCAACACCACCCTTGGTCAATCCGAGCGGCGCGGGTGGGAAGGGGACAGCGGGAGAT
GCGGCCCGAGGCGGCGGAGGAGCTCCACCTACACCACTACCAATGACGGGACAGATGGCG
CCACCGACACAACCAACACCACCCTTGGTCAATCCGCCATTGGGCCCTGCTGGTCCTATC
CGTGGAACAGCTCCCCGTCCGCCCGGTCCCGGGGGACCAACGCAACAGACGCAACAACAG
CCAGGGGTACCGACTCCGGGAGCAAAACAAAATCGTATAACAGCGATACCTAAGCCGGTC
GGCATTGATCCACTACAAATACTCAACGAAAGAGAAAATAGAATTGCTGCCCGTATCGCT
CACCGTATGGAGGTATTATCAAATTTGCCTGCGAACATATCAGAGGATCTTCGTTTACAA
GCACAGATAGAACTACGGGCTCTTAGGGTGCTCAACTTCCAGAAGCAGCTGCGTGCAGAG
ATATTAGGACAAGTCCGTCGCGACACCACACTAGAAACCGCTGTGAACATAAAGGCGTAC
AAACGTACTAAGCGGCAAGGACTGCGTGAGGCTCGAGCCACCGAGAAACTCGAGAAGCAA
CAGAAATTGGAAGCTGAGAGGAAACGCAGGCAGAAGCACCAAGAGTTCCTACAGACGGTC
TTACAACATGCGAAGGACTTCAAAGAGTATCACCGCAACAACATCGCTAAGCTGTCGAGA
CTGAACAAGGCGATCATGACTCACCACGCCAACGCTGAGAAGGAACAGAAGAAGGAACAG
GAGCGTATAGAGAAGGAGCGCATGAGACGTTTGATGGCTGAAGATGAAGAGGGCTATAGG
AAGCTTATTGATCAGAAGAAAGACAAGCGTCTGGCTTTCCTTCTATCGCAGACGGACGAG
TACATCGCCAGCCTCACTGAAATGGTGAAACAACACAAACAGGAACAGAGAAAGAAACAA
CAAGAGGAAGAGAAACGCAAGAGAAAATCACGCAAGAAGAAGGTCTTGGAAGGTGGGGAG
ATAGATGCCTTGGATGATAGCTCACAGACATCTGACTCACGAGTCAGTGTTATGGATCCT
AAGAGTGGAGAGGTGCTGAAAGGGGAAGAAGCACCGTTGCTGTCTCAGTTAAAGGACTGG
ATGGAGACGCACCCGGGCTGGGAAGTACTATCAGACTCGGACGATTCGGGAGATGACAGC
CAAGACGAATATGGTCGAAAGGGAGGTCACAAGGCTGAAAACAAAGAAAAGAGTGAGGAA
GAAAAGAATCGCGAGTTGATTAAGAAGGCCAAAGTTGAGGACGACGAATATAAGACTGAG
GAACAGACGTACTACAGCATCGCTCACACTGTCCACGAGTCCGTCACAGAACAAGCTAGT
ATACTTGTGAATGGAAATCTAAAGGAATATCAAATTAAGGGTCTCGAATGGCTGGTTTCT
CTATTTAATAATAATCTCAATGGCATTTTGGCGGACGAAATGGGTCTGGGAAAGACTATA
CAGACTATAGCATTGGTTACTTACCTTATGGAGAAGAAAAAAGTCAATGGACCATTCCTT
ATCATTGTACCGCTAAGTACACTTTCAAATTGGGTGTTGGAGTTTGAGAAGTGGGCGCCG
ACCGTTCAAGTGGTATCATATAAAGGGTCGCCTCAATCGCGACGCCTCTCGCAGAGCCAG
CTGAGAGCTTCCAAGTTCAACGTCCTCCTCACTACTTACGAATATGTAATCAAGGATAAG
AGCACATTGGCCAAGATACACTGGAAGTACATGATCATCGACGAGGGTCACCGTATGAAG
AACCACCACTGTAAGTTGACCCAGGTGTTGAACACGCATTACGTAGCGCCGCACCGCCTG
CTGTTAACTGGTACCCCGCTGCAGAACAAACTTCCTGAACTATGGGCGTTACTCAATTTC
CTGCTTCCCTCTATATTCAAGAGCTGCTCCACTTTCGAGCAATGGTTCAACGCTCCGTTC
GCTACAACGGGAGAAAAGGTTGAATTAAATGAAGAAGAAACAATACTTATCATCCGTCGT
TTGCACAAAGTGTTGCGGCCGTTCTTGTTGCGACGTCTCAAAAAGGAGGTGGAGAGCCAG
CTACCTGATAAAGTGGAATACATCATTAAGTGTGAGATGAGTGGCCTCCAGAGAGTACTC
TACAAACACATGCAGTCGAAGGGCGTGCTACTGACTGACGGCTCTGAGAAGGGAAACAAG
GGCAAGGGCGGGGCGAAGGCTCTCATGAACACCATCGTACAACTACGAAAACTATGTAAC
CATCCCTTCATGTTCCAACATATCGAGGAGAAGTTCTGCGACCACATCGGTACTGGCGGA
GGAATTGTCACAGGACCCGATCTGTACCGTGTTTCTGGTAAATTTGAACTCCTGGATCGC
ATCTTGCCTAAGCTGAAACAAACCGGTCATAGGGTGCTAGTGTTCTGTCAAATGACCCAA
TGCATGACCATCATCGAAGATTACCTGTCTTGGAGGGGATTCCAGTATCTGAGGTTGGAC
GGTATGACGAAAGCCGAGGATCGTGGGGAACTGCTGAAGAAGTTCAACGACGTGGGCTCT
GATTACTTTATCTTCTTGTTGTCGACTCGTGCCGGAGGTCTGGGCCTCAACCTGCAGAGC
GCTGATACTGTTATCATCTTTGACTCTGATTGGAATCCCCATCAGGATCTACAAGCACAA
GATCGAGCACATCGTATAGGACAGCGAAACGAAGTGCGCGTTCTACGTCTCATGACGGTG
AACTCTGTTGAAGAAAGAATTTTAGCAGCTGCCAGATACAAACTGAATATGGACGAGAAG
GTTATTCAAGCTGGTATGTTCGATCAGAAGTCCACCGGATCTGAGCGACAACAGTTCCTG
CAGAGCATACTACATCAAGACGGAGACGATGAAGAGGAGGAGAACGAAGTGCCAGACGAC
GACTTGATCAATGAAATGATAGCACGCTCCGAAGAAGAATTGGAGATATTCAGACGGATT
GATCTCGAGCGCAAAAAGACTGAGACACAGACGCGGCTCATTGACGAATCAGAGCTACCT
GACTGGCTGGTGAAGACCGATGACGAGGTTGTGTGTAATAAGGGCCAAGGTTGGAATTAT
CCAGACGAGGATGAGACACTCGGTCGCGGATCGAGACAACGCAAGGAGGTCGACTACACC
GACTCACTCACTGAGAAAGATCTCCTGCAGGCTATTGACGAAGATATGGACGAAGAAGAC
GACGACGACGATGACGATGAGGTGTTGGATAAGAAGAGGCGGCGGGGAAGGAAGCGACGA
CGGAATCAAGATGATTCTGATGAAGACGAAGTGCCGTGCACCTCGAGGAGAAAAAGCAAA
ACTGAACTTAATCAGCTCAAGAAACGTTTGAAGAATATTATGAAAAAAGTCATTGATTAT
TCTGACGAGAATGGTCGCGTACTATCAGAACCGTTTATGAAGCTGCCGTCTCGTCGTGAA
CTTCCCGATTATTATGATGTCATTAAAAAACCGCTCGACATTAAGAAGATTATGAACAGG
ATCGAGGATGGAAAGTACACTGACATATCAGACTTGGAGCGGGATTTCTTCACTCTGTGT
GCAAACGCTCAAACTTACAATGAAGAACAGTCTCTTATTTACGAGGACTCTGTACGTTTA
CGGAACGTTTTTATAGAAATACGACGTCGCTATGACAGCGGTCAGAACTCGGACGACTCG
GATGAAAACGATAAAGACGACGACGATTCTGATGGGGAATCAAATCGGTCGGTTAAAATG
AAAATCAAACTGAAGAACAAGTCGAAAAGCGCACAGTCCAGAAAAGGCAAGAAACGTAAA
TGTATATCTGACGACGAAGAATACGAAGATGATTAA
Protein sequence:
MASPSPQSSPMPPPQAPSPMGPPTQSPAPPQSPHSPYNQQHVNGPPPSAHPPGSGPPPMQ
NHMPPGPPHTIASNTNGPPSVVQHPGMPPSGHQIPPHMVGPHMSGPPGHPMSASGSHPPG
PNGHSNMPSNPQHPNMPGQGPPHGYMQHQIGHMPPNQGSMAIGGGPPPPGNGPQGPPGPS
GVPLPLGGPPPHGVHPQGMPPMPPHHMMSSQGGYSHTSSPGAPTPPGAPSGQTPPGGPQQ
PPTAQTPPHGSAPPPTSSANGAPSSSPMQASLAASGPDNLNALQRAIDSMEEKGLQEDPR
YSQLLAIRARSNSQDPSKGLFSNTQLSQLKAQIAAYRNLARNQPITQQIAMMAAGKRTGD
SPPECPTPPAQPPSPYSQGLSQGGSQSGAGGKGTAGDAARGGGGAPPTPLPMTGQMAPPT
QPTPPLVNPSGAGGKGTAGDAARGGGGAPPTPLPMTGQMAPPTQPTPPLVNPPLGPAGPI
RGTAPRPPGPGGPTQQTQQQPGVPTPGAKQNRITAIPKPVGIDPLQILNERENRIAARIA
HRMEVLSNLPANISEDLRLQAQIELRALRVLNFQKQLRAEILGQVRRDTTLETAVNIKAY
KRTKRQGLREARATEKLEKQQKLEAERKRRQKHQEFLQTVLQHAKDFKEYHRNNIAKLSR
LNKAIMTHHANAEKEQKKEQERIEKERMRRLMAEDEEGYRKLIDQKKDKRLAFLLSQTDE
YIASLTEMVKQHKQEQRKKQQEEEKRKRKSRKKKVLEGGEIDALDDSSQTSDSRVSVMDP
KSGEVLKGEEAPLLSQLKDWMETHPGWEVLSDSDDSGDDSQDEYGRKGGHKAENKEKSEE
EKNRELIKKAKVEDDEYKTEEQTYYSIAHTVHESVTEQASILVNGNLKEYQIKGLEWLVS
LFNNNLNGILADEMGLGKTIQTIALVTYLMEKKKVNGPFLIIVPLSTLSNWVLEFEKWAP
TVQVVSYKGSPQSRRLSQSQLRASKFNVLLTTYEYVIKDKSTLAKIHWKYMIIDEGHRMK
NHHCKLTQVLNTHYVAPHRLLLTGTPLQNKLPELWALLNFLLPSIFKSCSTFEQWFNAPF
ATTGEKVELNEEETILIIRRLHKVLRPFLLRRLKKEVESQLPDKVEYIIKCEMSGLQRVL
YKHMQSKGVLLTDGSEKGNKGKGGAKALMNTIVQLRKLCNHPFMFQHIEEKFCDHIGTGG
GIVTGPDLYRVSGKFELLDRILPKLKQTGHRVLVFCQMTQCMTIIEDYLSWRGFQYLRLD
GMTKAEDRGELLKKFNDVGSDYFIFLLSTRAGGLGLNLQSADTVIIFDSDWNPHQDLQAQ
DRAHRIGQRNEVRVLRLMTVNSVEERILAAARYKLNMDEKVIQAGMFDQKSTGSERQQFL
QSILHQDGDDEEEENEVPDDDLINEMIARSEEELEIFRRIDLERKKTETQTRLIDESELP
DWLVKTDDEVVCNKGQGWNYPDEDETLGRGSRQRKEVDYTDSLTEKDLLQAIDEDMDEED
DDDDDDEVLDKKRRRGRKRRRNQDDSDEDEVPCTSRRKSKTELNQLKKRLKNIMKKVIDY
SDENGRVLSEPFMKLPSRRELPDYYDVIKKPLDIKKIMNRIEDGKYTDISDLERDFFTLC
ANAQTYNEEQSLIYEDSVRLRNVFIEIRRRYDSGQNSDDSDENDKDDDDSDGESNRSVKM
KIKLKNKSKSAQSRKGKKRKCISDDEEYEDD