New model in OGS2.0 | DPOGS205960  |
---|---|
Genomic Position | scaffold3744:+ 12535-25867 |
See gene structure | |
CDS Length | 6264 |
Paired RNAseq reads   | 6092 |
Single RNAseq reads   | 14076 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005883 (1e-29) |
Best Drosophila hit   | CG8677 (5e-44) |
Best Human hit | remodeling and spacing factor 1 (6e-31) |
Best NR hit (blastp)   | hepatitis B virus X associated protein, hbxa, putative [Pediculus humanus corporis] (9e-59) |
Best NR hit (blastx)   | PREDICTED: similar to CG8677-PA [Apis mellifera] (8e-57) |
GeneOntology terms    | GO:0008270 zinc ion binding GO:0005515 protein binding GO:0016564 transcription repressor activity GO:0005634 nucleus GO:0045892 negative regulation of transcription, DNA-dependent GO:0005705 polytene chromosome interband GO:0005700 polytene chromosome GO:0031213 RSF complex GO:0070868 heterochromatin organization involved in chromatin silencing |
InterPro families    | IPR019786 Zinc finger, PHD-type, conserved site IPR011011 Zinc finger, FYVE/PHD-type IPR019787 Zinc finger, PHD-finger IPR018501 DDT domain superfamily IPR013083 Zinc finger, RING/FYVE/PHD-type IPR001965 Zinc finger, PHD-type |
Orthology group | MCL39383 |
Nucleotide sequence:
ATGGCGTCTGATGGAGAAATTTCGTGTACGAATGATCCTAATTTCGCCGTTATTTACTCG
TTCTTAAAAGTTTTTGGTAAACTGTATAGTTTAGAAGTGCCCACTATAGCCAAATTGCAA
GAATCGATAGAAAACACACAGGAAGTTTCGGATCCGTTAAAGGACTTACACTTGAGATTG
TTACGACGCGCTCTAAAATCCGTACAGACAAATCGATGGGAAAGATCTCTTATAAAGTTC
TGTCATCAGCAATCTTACCATCAAGAGGCATGGGAGTTAGAAAGGTTTTCTTACAAGAAA
GCTAGCACACAAGTTAAATTACGAATATTGAAACTCCTTCTAGAATATCAGTTTACATGT
CATACAAAGTTCAAAAATGCCGTCAATGCAATATCATGTAAGGAGTTGAGGTTGGATCCT
ATCGGTAGGGATAGGAGCGGTTGTGTGTACTGGCTGCAAGTAGACCATGAGGCAAACTTG
TGTCTGTACAAAGAAGATCAGGATGAAGAGACATGGCAAATGGTTGCGAGTAATCGAGAT
GAGCTGGTAAAGATTATATCTCAATTGAAGGGTGAAGAAGAAGTGATTGAATTGGCGGGC
TCTAATCCCATTGTGGATTCTAGCGGAGATGCTCCAACTCAAACACAGGCTGAGCCTGAA
AAACCATCAGTTGTTGAAGAAGACAATGAAGAAGAGTTCCTAAGTCCTGAATCTGAATCA
GAACATGACAGTGATGATCAAAAAGATAACAAAAACGAAAAGAAAGACGAATCTGATGAA
GTTAAAGATAATGTAAATGTAGAAAATGTAGAGAATAAGGACAATGTAAAAGACAGTAAA
AGTAGTGATGAGGAAGTAGTGGAACATAAAATAGATGATGGAGAAAAAAATGATGAGAAG
TCTGAATCTGAAACAGTATCCAAGGAAGAAGAGGTCGGAGAAGCTATAGAGGAACCGGTC
ATGGTTGTCACCGGAGAAGGAAACGGGGCTGAGTGCGAGAGCTCGTTCATTATATATGGT
GAAGAAATCTCCGAGCCTGTCATGTATTTCTACGGTGATGGCTGGGGAGAAGAAAACGAC
ACTGGCAACCCTGAAATAGAGGAACAGCATCATAGTGATGATAAAAGTGACGAAGAGAAT
CCTCCAGAAGAATGTAACGGGGAAAACTATAACCCATCTAACACAAACAAAAAAGCAAAA
ATAGGTAAATGTGTCAAATTAAAAAATAAATCGGTCGTCAACAAACGGTCGTTGAAGAAG
CAACCGAATGACGTCATCGAGAACTCTAAATCCGATTGCAAGAAACATTGTATTCGCGAT
TTAGATAAGTCGAACGGATCTAATTCCAGCTCCGTCATCGACAACAATAGTATTAACGAT
AAGAGCACACTCGAAGGGGAAAAGAACGACACAGCGAACAGGAAAGTCAAGAGTAAAGTG
AAAAAGGAACAATTGGCGAGCAAAGATAAGGAGAGCGGCGGCGAGGAGACGTTGAACTCG
CCGCCAGCGTCTGATAATTGTCAGAACAGTAAAGTCAGTATTATTGAGAAAAGGAAAAGC
AGTCTGTCTTCCGACCAAGACGACAACGTCGAGCAAGACAATAAGAGTTCAGATAAAGAG
GTCAAAGAGGATGACCTGCCTACGAAGAAGTTACGCCTAGAAACGACTCCAGATGAGACC
GAGACGCAACCCAAAGAAACGACCAACAAAGACGACACGTCCAACGAGAATATAGAGAAC
GACACATCAAATACGAACGTGCAAGCCGAAAACACGCCCAGGAAGAAGATGAAAGCGAAA
AAAGGCAAGTTCAAAGCCAAGAAGATTGTACAGAAACCTATAACGGAGTCCGGCGGGAAC
GACCGAGATTGTGATATTAAGAACGAGAGCAAAGCCGTCAAGCGAACTCTCGTGAACTCT
AACGCTAGCGATAAGACGAACGAATCTCAGAGCGAGACGGAGGAAGACGAGCAGAGCACG
AGCGGCAAGAGACTGAAGATTAAACCTAAGAAGATAAACACGACCACCAGGAAAAAAGTT
GAGGCGAAGCATATGGCGAAAAGTTCCAGCGACTCAGAAGAAGAGACGCTGTCTAGTATA
GGGAAGAAATCGACGAAGAAAGTATTAAAGAAGAATCCGAAGGGTAAAGAAAAAGGCAGG
ACTTGCGACGACGACTGCGCGCCCGTGCGACAGTCGCGTCGCATCGCGCAGATGAAGATC
AAGGAGGAGGCTGAGAGGAGGCACGCGGAGGAAGTGGCGCTCAGGGAGCTCAAGATGATA
CACAACAAGAGAGTGACGAAGGAGGATGAGGAGGAATGGCGGGCCAGCAGTCGGGATAGC
TCCGAGTCGGAGTCCCGGCCTCGCGAGCCTCGGAGGGCGAAGGACGAGTGGCGCGAGGGG
GATTCCTCCGCCGACCTGGACTCCGAGCCGGACTCCGAGCCGCTGTTCGAACACGACGAG
CCCGACTTGGATTTCTCCAAGTCTGATCACGAGTTCTCACCGGAGTCGGATCTCGAAGAC
GGCGAGCCCTCTGAGCCCATCAAACGAGCCAGGACTCTACAAGAAAACTCGTCCGAGGGT
TCCTGTACCCGCTGCGGCAGTGGCGAGCAGCCTGAATGGATTCTGTTGTGTGATCGTTGT
GACGGAGGCTACCACGCAAGTTGTCTCAAGCCGGTGCTGCTCCTAGTGCCGGAGGGAGAC
TGGTTCTGTCCAGAATGTAGCCATATGATGTTAATAACGGAATTGGAAAAAGAACTGGTT
AAGTATGACGAGCTGCTCGCCGCTGTAGAAGAAGAGAGAGCGAGGAAGAAGTTGGAAGAG
ACGGAACAGTCCAGCGACCTGGAGAAGACATCCGACAGGGAGGACGATCACGACGACCAA
TCAGATTCCAACTCTGGATCAGGTTCAGACGTGTCTTGTAGTAGTGGCTGGTCGTCCCCG
GGGGCTGTGTATCGTCTGCGAGCTCGTCGTCAGTTACCCGTCTCATACCGGGCGCAGGAA
TATGATAGACTCATCAGCTCCGCCATTAAGGAAGAGTACGTGGAGCCGACTACTAGCGCA
GGCAATCAGGGTCGAGGCAAGGATATCTCTACCATCATAGAGGCCGCCGAGGAAGAGAAG
ATGAAGGCTGAAAGAGAGCTCATTGAACAGGGGAAACCAGTGGACAACAAAAAGACTAAG
AAGAAACAGAGGAGGAAGCCGAGGAAGCTGAACTCACTGGACGTACCCTCGGAAGACGAC
GACGAGACCGACGAAGACTTTAAAGATACCGGTATGGAATCATCGTCTGAAGAAATATCT
TCGTCTGCTGAGCGCGACAGTTCGTCACATTCGTCGGACTCACTGCCTATACGACGGAAA
GATCGAGCAAAACAATCAGAATCGTCTCCGGAAGTAAAGAAGAAGAAGAAAGGTGTGTTT
GAAGACAGTTCCAGTGAATCCGGTGATAAGGAGATAAAAAAACCGCCACGTCCCAAAGGC
CACAGGTCAAAGAAGCGCCTCACCCAGTACGACTCCGAGGGTAACGTTATCAGAGCCAGA
GTCACGTACGGCTCCCCCGGAACCAGAGACAATGACTGGTCACCGAAACACAGAACCAGA
CAGAAGAAAATCAACTATACGGAGATGCCCAATACAGAGTCAGAGGATGAGATGCATAAA
TCAAGCGGTAAACACATGCCGGATAGCTCCGACGAGTTTAAAATAGATTCGTCGGCAAGT
TCCGACTCTGAGGCGGATACACGTGACCAGTCCGACGAGCGGGCGCGCGCCCTCTGCGAC
CTCGTCAATAAAACAGCCGTGGTCCCGCTGACCAAACTTCCCGATGACGTCACCAGCCTC
AAGACAAACGAAGGAGAGTGGTGTACGGAGAGTGTGACGTCACGGGGGCGGGGTCGAGGT
CGTGGGCGTGGCAGCAGAGGTCCTCGGGGTCGGGGTCGCGGAGGATCTACCGGCTGCTCT
GCCCAGTCCACTGACGACGCTCTCTCAAAGCTTGTTGGTGTCAAAATCAAAGGTATATTT
TATTATAGTTTTTCAAATTTTTTTTCAGAATTAAGAACAGATGGCACCTCTGGCCCTCTG
CGACCTAACCAAACTGAACGTGATAAAAAAAGACAAGAAAGAGAGGCTAAACTGGCCGAG
AAGGAAGCAAAGAAGATGGAAAGGATACAGAAGAAAGAAGAGAAAGAGAAACTAAAAGAG
CAGAAAGCGAAGGAGAGGGAAGAGAAGAGATTGGCAAAGATAGCTTTACAGGAAAGTAAA
AAGAATAAGAAAGAAAAGGACTTTATGCCCATATATGGTATGAGGCCACAGGAGTATAAC
AGTCCCATGCCGAGGCATCCTGAATATCAAGACAGATTCCCACCTCCAAGATTACAGGTG
CGTCCGGAGCTTCGAGGTATATCAGACGAGCGAGCTCTGCACCGCCCGGAGATACCTCAC
AACGTTATGAGAGAAGGAACCCTGTCGGTGGCGGGCTCCCCTCAGCCCTTCGCCCCCGCG
CCCGAGGAGCCCTCCGTCATCACTCGCATGCCGCACGTCATCAACTACAGGGGCCAAATG
ATGTATCCGGGCGGCAACTCGTCGTACGGTCCGCGGGGTCAGCCCGTCCCCGTGTATCAA
ATGCACCCCGGCCTGCACGCCCGCCAGTACCCGCCGTACTTCCCTCATCTGCAGCCCATC
AATTACCGTTCCTCTGGTCCACCCGCCTCGCCTCAGCCAAGACCTCATGGACCCCCAATG
CACCCCCACGGGCCCCCAGGGCTCCCTCATGGGCCTCCGGGCCCCCCACACGGTCCACCG
GGACCTCCCCACGGACCCGGCGGTCCTCCACACGGGCCCCCGGTATCGCTCCATGGCACG
CCGCACGGGCCCCCGGGACCGTCTCACGGTCCGCCGGTGTCGTCCCCCCTCGTACAAGGT
AGCCCCATGCCCCCTGGCCCATCCCCCGGATTGATGACGGGAGGGAGCATGCGTCCCGGC
GCACCGTACACCGGACCTATACCCTTCCGTACCGCGCCGCCCGCGGCCCCGCCCGTGACT
CCGCCCGCCCTGGAGCCCGAGAAGGAGCCACTCGTTACCATCAAAGCCGAGGTGAAGACG
GAGCCCGAGTACTCCTCACCCCCGCCCTCGCCCGCTCACCGACCCTCACCCGAGCCGCCG
AGGAACCACCCCAAAATCAAACACACGGAGAACAAGGATGGCCGGCCGCGGTTCCCGCTG
GGACCGTACGCACCCCACTACGGACCCTACGGACCTTACGCTCCGGGCACGCCGGGCGAC
CCACAACCTCCGCCAGACGCTTTACTTAATTTACAGACGAGAATACACCATAACCCTATG
CACCGCGCGCCGGTCAACGTCCGACAGTACATGTCCAACGAAGTGAAGCCCGGGGACCCT
GGCGCCGCGCCAGCCCCAGGGGACAGGTTTCCTGATCGTCCCCCCGGGCCTCACGAGGTA
CCGCGACCGAGCTCCGTGGGAGGACCTCCCGACAGGCCCGTCCTGCACGACATGCTCCGA
GCCCCCGGACCCGACAGGATCATGACACACGACCTATCGAGGGTCCCGGACAGACCCCTG
CTGCACGACCTTCCGCGACCGCCGGGGCCCGACAGACACGCCGTGCATGACATGACAAGA
CCTCCCGGGCCTGAGCGATCAGCGATGCACGACATGCAGAGGTCGCCCGGACCCGACCGC
CTCGTGATGCTCAACATGCACAGACCGCCCGTCCCGGATCGCCCGCTCATGCACGACATG
CACCGCCCACCTGGTCCCGACCGCCAGCTCATGCACGACATGCACAGGTCGGCCGCGTCA
GAGAGACTGTCGATGCACGACATGCACCGTCCGCCGGGACCGGGTCGGCCGGCCATGCAC
GAGTTGCCGAGACCCCCAGGCCAAGAACGGCCTCCTGGGCCCGACAGGCCACCCATGCAC
GACCTACCTCGACTCCCGGGACCCGAACGGCCACCGATGCAGGTGCCGCCGCCGGAGCGC
CTCATGGGCCACGAGATGTCCCCCCACTACCCGTACGTACGACCGCGAGCGCCCTACGCC
GGAAGCGGGCGGCCGGAGCGGACCTGCCCGACGCCGCCCCCGGAGCGCGAGTCCCCCCCG
GACGTCAAGCCGCCGACGAGAGGCCCCCCGGCGGCGTGCAGGCCTCTCGTCAAAGTTGAG
TCGGAGGCCCGCGAGGAGGACGGCGTCTTCGGGGGCCTCGTCAGCTACTTCTCTAGCCAG
CGCGAGGACGACATAGACGCCTAG
Protein sequence:
MASDGEISCTNDPNFAVIYSFLKVFGKLYSLEVPTIAKLQESIENTQEVSDPLKDLHLRL
LRRALKSVQTNRWERSLIKFCHQQSYHQEAWELERFSYKKASTQVKLRILKLLLEYQFTC
HTKFKNAVNAISCKELRLDPIGRDRSGCVYWLQVDHEANLCLYKEDQDEETWQMVASNRD
ELVKIISQLKGEEEVIELAGSNPIVDSSGDAPTQTQAEPEKPSVVEEDNEEEFLSPESES
EHDSDDQKDNKNEKKDESDEVKDNVNVENVENKDNVKDSKSSDEEVVEHKIDDGEKNDEK
SESETVSKEEEVGEAIEEPVMVVTGEGNGAECESSFIIYGEEISEPVMYFYGDGWGEEND
TGNPEIEEQHHSDDKSDEENPPEECNGENYNPSNTNKKAKIGKCVKLKNKSVVNKRSLKK
QPNDVIENSKSDCKKHCIRDLDKSNGSNSSSVIDNNSINDKSTLEGEKNDTANRKVKSKV
KKEQLASKDKESGGEETLNSPPASDNCQNSKVSIIEKRKSSLSSDQDDNVEQDNKSSDKE
VKEDDLPTKKLRLETTPDETETQPKETTNKDDTSNENIENDTSNTNVQAENTPRKKMKAK
KGKFKAKKIVQKPITESGGNDRDCDIKNESKAVKRTLVNSNASDKTNESQSETEEDEQST
SGKRLKIKPKKINTTTRKKVEAKHMAKSSSDSEEETLSSIGKKSTKKVLKKNPKGKEKGR
TCDDDCAPVRQSRRIAQMKIKEEAERRHAEEVALRELKMIHNKRVTKEDEEEWRASSRDS
SESESRPREPRRAKDEWREGDSSADLDSEPDSEPLFEHDEPDLDFSKSDHEFSPESDLED
GEPSEPIKRARTLQENSSEGSCTRCGSGEQPEWILLCDRCDGGYHASCLKPVLLLVPEGD
WFCPECSHMMLITELEKELVKYDELLAAVEEERARKKLEETEQSSDLEKTSDREDDHDDQ
SDSNSGSGSDVSCSSGWSSPGAVYRLRARRQLPVSYRAQEYDRLISSAIKEEYVEPTTSA
GNQGRGKDISTIIEAAEEEKMKAERELIEQGKPVDNKKTKKKQRRKPRKLNSLDVPSEDD
DETDEDFKDTGMESSSEEISSSAERDSSSHSSDSLPIRRKDRAKQSESSPEVKKKKKGVF
EDSSSESGDKEIKKPPRPKGHRSKKRLTQYDSEGNVIRARVTYGSPGTRDNDWSPKHRTR
QKKINYTEMPNTESEDEMHKSSGKHMPDSSDEFKIDSSASSDSEADTRDQSDERARALCD
LVNKTAVVPLTKLPDDVTSLKTNEGEWCTESVTSRGRGRGRGRGSRGPRGRGRGGSTGCS
AQSTDDALSKLVGVKIKGIFYYSFSNFFSELRTDGTSGPLRPNQTERDKKRQEREAKLAE
KEAKKMERIQKKEEKEKLKEQKAKEREEKRLAKIALQESKKNKKEKDFMPIYGMRPQEYN
SPMPRHPEYQDRFPPPRLQVRPELRGISDERALHRPEIPHNVMREGTLSVAGSPQPFAPA
PEEPSVITRMPHVINYRGQMMYPGGNSSYGPRGQPVPVYQMHPGLHARQYPPYFPHLQPI
NYRSSGPPASPQPRPHGPPMHPHGPPGLPHGPPGPPHGPPGPPHGPGGPPHGPPVSLHGT
PHGPPGPSHGPPVSSPLVQGSPMPPGPSPGLMTGGSMRPGAPYTGPIPFRTAPPAAPPVT
PPALEPEKEPLVTIKAEVKTEPEYSSPPPSPAHRPSPEPPRNHPKIKHTENKDGRPRFPL
GPYAPHYGPYGPYAPGTPGDPQPPPDALLNLQTRIHHNPMHRAPVNVRQYMSNEVKPGDP
GAAPAPGDRFPDRPPGPHEVPRPSSVGGPPDRPVLHDMLRAPGPDRIMTHDLSRVPDRPL
LHDLPRPPGPDRHAVHDMTRPPGPERSAMHDMQRSPGPDRLVMLNMHRPPVPDRPLMHDM
HRPPGPDRQLMHDMHRSAASERLSMHDMHRPPGPGRPAMHELPRPPGQERPPGPDRPPMH
DLPRLPGPERPPMQVPPPERLMGHEMSPHYPYVRPRAPYAGSGRPERTCPTPPPERESPP
DVKPPTRGPPAACRPLVKVESEAREEDGVFGGLVSYFSSQREDDIDA