New model in OGS2.0 | DPOGS200534  |
---|---|
Genomic Position | scaffold86:- 190146-205724 |
See gene structure | |
CDS Length | 5460 |
Paired RNAseq reads   | 3239 |
Single RNAseq reads   | 7422 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007052 (0.0) |
Best Drosophila hit   | TBP-associated factor 1, isoform C (0.0) |
Best Human hit | transcription initiation factor TFIID subunit 1 isoform 2 (0.0) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC002507 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC002507 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0005669 transcription factor TFIID complex GO:0016563 transcription activator activity GO:0016251 general RNA polymerase II transcription factor activity GO:0006367 transcription initiation from RNA polymerase II promoter GO:0004672 protein kinase activity GO:0003677 DNA binding GO:0005634 nucleus GO:0006461 protein complex assembly GO:0006355 regulation of transcription, DNA-dependent GO:0051726 regulation of cell cycle GO:0008270 zinc ion binding GO:0016573 histone acetylation GO:0035174 histone serine kinase activity GO:0000117 regulation of transcription involved in G2/M-phase of mitotic cell cycle GO:0043565 sequence-specific DNA binding GO:0045944 positive regulation of transcription from RNA polymerase II promoter |
InterPro families    | IPR001487 Bromodomain IPR009067 TAFII-230 TBP-binding IPR018359 Bromodomain, conserved site IPR022591 Transcription initiation factor TFIID subunit 1, domain of unknown function |
Orthology group | MCL10216 |
Nucleotide sequence:
ATGTGTGATAGTGATGACCCAAATGAAAACGGCCGGTCTGGAATGGACCTGACTGGCTTT
TTGTTTGGTAATATAGACGAGAGTGGACAGCTCGAAGATAATGGGATACTAGATGATGAA
TCCAAACGCATGCTGTCGTCTCTTAACAGATTGGGACTTGGTTCTATAATATCAGAGGTG
TTGGATGAAAATGATATTATAAAGGAAGAGGAAGAAAAAGATTATTCAGAAAAAAGTCCA
TCAGCTGTTGATTTCTTTGATATTGATGATGCTGTTGATGAAGAAAAGGACATAGAAACA
AAAGTAGTCACTAATGATGATGTATCCGTCAAAAATGAATGTGAAAATCAGTCCGAGGGT
ATTAAAAGTGATTCTTCGCAGAATGAAAAAGATACTGTTGAAAACTGGAATGAGCCAAAT
GTTGAGAAAAATGAGAGTAACAATGATGAAGGTTATGAGGGTGATATGGAAGGTGATGGT
GAACTTATGCCTCCCCCGTCAACTGTGCCGAGACAGAAAACTGAAAAGCCTAAGAAATTG
GAGACACCTCTAGCTGCAATGTTACCATCAAAGTATGCTGGTGTTGATGTAACAGAGTTA
TTCCCTGACTTTAGACCAGACAAAGTGCTATTGTTTTCGCGGTTGTTTGGTCCGGGGAAA
CTTTCCAGTCTGCCTCAGATATGGCGAGGCGTGAAGAAACGTAGGCGAAGAAAACGTAGT
GGCAGCACCAGTAGTGACACACCACCACAGATAGAATTACAGGAAATTCAGTATGCTAGT
GACGATGAAGAGAAATTTCTCAAGCCTATGGAAGAAACGCCTCAAGTATCCACACAAGAG
ACGAACTCACAGTCCTCTGGCGATAAATCTCAAAAACCAACACCCGCTCACTGGCGTTTT
GGTCCAGCTCAGGCTTGGTATGATATGCTCAATGTACCAGAGACGGGGGAAGGTTTCGAT
TATGGATTTAAATTAAAGGCGCAATCTCCAGAACGAGAAAAAACAGGTGAAGAAGTTATT
GATGAGGAGTGTGAGAAAGCTGACAGTCCTGATAGTGGGTTCCCTGATGACGCTTTCCTT
ATGGTCTCCCAATTACAATGGGAGGACGATGTCGTCTGGGATGGCAGTGAGATAAAACAT
AAGGTGCTGGCTCGATTAAACAGTAAGAGTAACGCTGCTGGCTGGGTCCCTACTTCTGGA
AGTCGAACCGCTCAACAGTTTTCTCATGGACGACCGCCTCCCGCGCCGCTAACAGCTAAG
CCATCCTCAAGCTCGTCATCTACACCGATTAATCCTGGAACGAATGGCGAGGGTGAGGAC
AATACATGGTACAGTATTTTCCCCGTGGAAAATGAAGAATTGGTCTATGGCACGTGGGAA
GATGAAGTTATATGGGACGCTGAGAACATGCCCAAGATACCCAAACCAAAGATACTTACT
CTGGACCCCAATGACGAGAATATTATATTGGGTATACCCGATGACGTGGATCCATCTAAG
ATTACGAGAGAACGAGGACCGGCTCCAAAAGTGAAAATACCTCATCCACATGTTAAGAAG
TCTAAGATATTGCTCGGTAAGGCGGGCGTCATAAACGTGTTGCAAGAAGACGCTCCCCCT
CCACCGCCAAAGTCACCAGACAGAGACCCCTTTAATATATCCAATGACGTATATTACCAG
CCGAAATCTCAGAACCCTCGTCTTAAAGTTGGCGGAGGTCAGTTAATACAGCACAGTACT
CCGGTGGTTGAGCTCAGGGCACCGTTCATCCAGACCCACATGGGCCCCGCGAGACTCCGC
GCCTTCCATCGACCAGCCATGAGAAAATTGTCCTATGGACCTCTAGCCGCCCCAGGACCA
CATCCCGTGCAACCGCTACTGAAGCACATTAAGAAAAAGGCCAAACAACGCGAAGCCGAA
CGTCTAGCATCAGGTGGTGGGGATGTCTTCTTCATGAGAACTCCTGAAGACCTAAGCGGC
AGAGATGGTGATTTAGTACTGGTTGAATTCTGTGAAGAACATCCCCCACTCATAAGTCAA
GTGGGCATGTGTACTAAAATCAAGAACTATTACAAGCGTACAGCTACTAAAGATAACGGT
CCTAAGCCAATGAAATACGGTGAAATAGCCTACGCTCATACATCACCGTTCTTGGGTATA
TTGCCGCCGGGCGCGACGCAACCGGTCGTTGAGAACAATATGTACCGAGCACCGATATAC
GAACACACACTTTCCTCCACAGATTTCCTCATAATAAGAACGAGACAAGCATACTATATC
CGAGAAGTTGATGCATTATTTGTTGCTGGTCAAGAATGTCCACTGTATGAGGTGCCTGGA
CCAAATTCCAAGAGAGCCAACAATTTTGTTAGAGACTTTTTGCAGGTTTTCATATACAGA
TTATTCTGGAAATCTCGGGATAATCCTCGCCGTATAAAGATGGATGATATTAAAAGAGCT
TTTCCGTCTCATTCAGAAAGCTCAATACGTAAACGTCTCAAACTATGCGCTGACTTCAAA
AGAACCGGAACAGATTCTAACTGGTGGGTGATAAAGCCAGATTTCCGTCTACCCTCCGAA
GAGGAGATTCGAGCTATGGTTTCCCCGGAGCAGTGTTGTGCGTACTTTAGTATGGCGGCG
GCGGAACAACGTCTCAAGGACGCCGGCTATGGGGAGAAGTTCATATTCACGCCCCAGGAG
GACGATGATGAGGAACTACAGCTCAAAATGGATGACGAAGTGAAAGTAGCTCCTTGGAAC
ACAACTCGCGCCTACATCCAGGCTATGCGAGGAAAATGTCTCCTACAGCTGACGGGCGTT
GCAGATCCCACTGGTTGCGGTGAAGGGTTTTCATACGTCCGGGTTCCCAACAAACCAACC
CAGCAACCGAACGAGGAACAGCAACCTAAGAGAACTGTGACCGGTACTGACGCTGATCTG
AGAAGGCTTAGTTTGAATAACGCTAAGGCCTTGTTGAGGAAATTTGGTGTGCCTGAGGAA
GAAATAAAAAAACTGTCTCGCTGGGAAGTCATCGACGTGGTGAGAACTTTGTCAACGGAG
AAAGCCAAGGCCGGTGAAGAAGGAATGACTAAATTCTCTAGAGGAAATAGATTTTCAATA
GCCGAACACCAGGAGAGATATAAAGAGGAATGTCAACGTATATTCGAATTACAAAACCGT
GTACTGACAAGCACAGAAGTGCTTAGTACAGACGAGGCGGAAAGCTCCGTCAGTGAAGAA
TCAGACCTCGAAGAAATGGGAAAGAATTTAGAAAATATGCTGGCCAATAAGAAGACTACC
GAACAATTGAGCATGGAAAGAGAGGAGGCTGAGAGAGCTGAACTGCGAAAAATGATATTA
GGACAATCTGAAAAGAAACCTCAGATAAATCAACAGGACCAACAGCAATCTTCAAACCAA
GGTCGCGTCCTTCGCATCGTAAGGACGTTCCGAAACGCCTCCGGTCAAAGATACACGCGT
GTCGAGTTAGTAAGAAAGGCAGCAGTCATAGAGGCCTACACCAAAATAAGGTCCACGAAA
GACGACGCTTTCATACGACAATTCGCCACAATGGATGAATCACAGAAGGAAGAAATGAAG
AGAGAAAAGAGAAGGATTCAGGAACAATTGAGACGTATCAAGAGGAACCAAGAAAGGGAG
AGACTGGCTGGAAATGTATCAGTACCTGGTTCATCTATCAGTGATAGTATGAACATGTCG
ACCATGTCTGACCTAGGGTCCAAATCACCTGGCCTGATCCCATTGGGTCAGATCAAACAG
GAACCGGATCTTCACACACCATCTAGACGACGGGCCAAATTGAAGCCCGATTTGAAATTA
AAGTGCGGAGCGTGCGGTCAAGTTGGTCACATGCGTACAAACAAGGCGTGTCCGTTATAC
ACAGGGGGCGGGGCGGTGACCCCCGAACATGATGAACCAGCCCCCGAACCTGACGACCTT
GACCTTGGATATGTGGATGGAACCAAGCTCACACTACCTTCTAAATTTGTTAAGCAATCT
TCGGAGGAGCTTCGTCGTCGTAGCGGCAGTCGTCGCGAGGTCCGAGCTGCTGGGCGAACC
AAGAGACGCGGCACTGCCAGTGATTCTTGTGATTATCTCGTCAAAAGACCAGCGGAAAGA
CGCAGAACTGATCCACTAGTGACTCTCTCGTCCCTATTAGAAGACGTATTGAACACTATG
AGACACCTCCCCGATGTACAACCCTTCCTGTTCCCAGTCAATCCGAAGCTGGTAGCGGAT
TACTATCGTATCGTATCGCGGCCGATGGATCTACAGACTATAAGGGACAATTTGAGGCAA
AAACACTATCAAAGCCGCGAAGAATTCTTGGCTGATGTCAACCAGATCGTAGAAAATTCT
ACTCTTTACAATGGTCCTACGAGCAGCTTGACGGTAGCAGCGCAGCGTATGATGCAACGC
TGTTTCGAAAAACTGGCAGAGAAAGAGGAACAGTTTATGAAACTGGAGAAACAAATCAAC
CCGCTGCTAGATGATAACGACCAGGTGGCTTTATCGTTTATTTTTGAGAATCTCTTAACA
ACGAAACTTAAAGTTATGCCGGAAGCTTGGCCATTCCTGAAACCAGTTAACAAGAAACAG
GTCAAAGATTACTATAATGTTATTAAAAAACCAATCGACATGGAGACGATAGGAAAGAAA
ATACAAGCTCATAAGTACCACAGTCGGGAGGAATTTCTTCGGGATATACAGTTGTTGGTG
GATAACTGTCGTGCTTACAACGGACTTAACTCACAGTTCACGAGACAGGCCGAGGCCGTA
CTCAAAGTAACCCAAGAAGCCCTAGAACAGTTCGATGAGCACGTGAGTCAGCTGGAGGCG
AATATAGCACGCGTTCAGCAAAAGATGTTAGAGGATGCTGAGCAGTCTGAGTTAGAAGAT
GACCCGCCGCCGCCCAGCGACGAGAAAAGAGGCCGCGGAAGACCGAAGAAACACAAACCA
AGCACATCAACATCGATGGCAGATGATGCCACACAGAGGAAACGTAGTCGTGTCAAGAAG
GACCAAAATAGTCTGGTTGATGATTTACAATATTCTGACAGTGGAAATTCAGGTCTAGAG
GAAGTCGAACAAAAAGATGCAGCTGAAGCTATGGTACAATTATCTGTTCGACCTGATGAC
GACATTCCTGATTCGAGCTTCGATACTTCTGAGTTCCTCATCAAGCGCGAGGTTCCAGAC
GAGCCGCACGAGCTGGTCGACCTGGACAGTCACAGCACTGACTATACTTACCCCGCCGTT
GTTAAGGAGGAACCAATCGAGCCGGACATGAACATGGATCCGCCAATGATGGACGCGCTC
CCTGAACACACGCAGTTTAAAGAAGAGCCGCTTGAGAACTGGCAGCCGGACCCTGTAATT
CAGGATGACCTAAGAGTAACGGACAGCGAAGAAGAAGCAGAAGATGGACTTTGGTTTTAG
Protein sequence:
MCDSDDPNENGRSGMDLTGFLFGNIDESGQLEDNGILDDESKRMLSSLNRLGLGSIISEV
LDENDIIKEEEEKDYSEKSPSAVDFFDIDDAVDEEKDIETKVVTNDDVSVKNECENQSEG
IKSDSSQNEKDTVENWNEPNVEKNESNNDEGYEGDMEGDGELMPPPSTVPRQKTEKPKKL
ETPLAAMLPSKYAGVDVTELFPDFRPDKVLLFSRLFGPGKLSSLPQIWRGVKKRRRRKRS
GSTSSDTPPQIELQEIQYASDDEEKFLKPMEETPQVSTQETNSQSSGDKSQKPTPAHWRF
GPAQAWYDMLNVPETGEGFDYGFKLKAQSPEREKTGEEVIDEECEKADSPDSGFPDDAFL
MVSQLQWEDDVVWDGSEIKHKVLARLNSKSNAAGWVPTSGSRTAQQFSHGRPPPAPLTAK
PSSSSSSTPINPGTNGEGEDNTWYSIFPVENEELVYGTWEDEVIWDAENMPKIPKPKILT
LDPNDENIILGIPDDVDPSKITRERGPAPKVKIPHPHVKKSKILLGKAGVINVLQEDAPP
PPPKSPDRDPFNISNDVYYQPKSQNPRLKVGGGQLIQHSTPVVELRAPFIQTHMGPARLR
AFHRPAMRKLSYGPLAAPGPHPVQPLLKHIKKKAKQREAERLASGGGDVFFMRTPEDLSG
RDGDLVLVEFCEEHPPLISQVGMCTKIKNYYKRTATKDNGPKPMKYGEIAYAHTSPFLGI
LPPGATQPVVENNMYRAPIYEHTLSSTDFLIIRTRQAYYIREVDALFVAGQECPLYEVPG
PNSKRANNFVRDFLQVFIYRLFWKSRDNPRRIKMDDIKRAFPSHSESSIRKRLKLCADFK
RTGTDSNWWVIKPDFRLPSEEEIRAMVSPEQCCAYFSMAAAEQRLKDAGYGEKFIFTPQE
DDDEELQLKMDDEVKVAPWNTTRAYIQAMRGKCLLQLTGVADPTGCGEGFSYVRVPNKPT
QQPNEEQQPKRTVTGTDADLRRLSLNNAKALLRKFGVPEEEIKKLSRWEVIDVVRTLSTE
KAKAGEEGMTKFSRGNRFSIAEHQERYKEECQRIFELQNRVLTSTEVLSTDEAESSVSEE
SDLEEMGKNLENMLANKKTTEQLSMEREEAERAELRKMILGQSEKKPQINQQDQQQSSNQ
GRVLRIVRTFRNASGQRYTRVELVRKAAVIEAYTKIRSTKDDAFIRQFATMDESQKEEMK
REKRRIQEQLRRIKRNQERERLAGNVSVPGSSISDSMNMSTMSDLGSKSPGLIPLGQIKQ
EPDLHTPSRRRAKLKPDLKLKCGACGQVGHMRTNKACPLYTGGGAVTPEHDEPAPEPDDL
DLGYVDGTKLTLPSKFVKQSSEELRRRSGSRREVRAAGRTKRRGTASDSCDYLVKRPAER
RRTDPLVTLSSLLEDVLNTMRHLPDVQPFLFPVNPKLVADYYRIVSRPMDLQTIRDNLRQ
KHYQSREEFLADVNQIVENSTLYNGPTSSLTVAAQRMMQRCFEKLAEKEEQFMKLEKQIN
PLLDDNDQVALSFIFENLLTTKLKVMPEAWPFLKPVNKKQVKDYYNVIKKPIDMETIGKK
IQAHKYHSREEFLRDIQLLVDNCRAYNGLNSQFTRQAEAVLKVTQEALEQFDEHVSQLEA
NIARVQQKMLEDAEQSELEDDPPPPSDEKRGRGRPKKHKPSTSTSMADDATQRKRSRVKK
DQNSLVDDLQYSDSGNSGLEEVEQKDAAEAMVQLSVRPDDDIPDSSFDTSEFLIKREVPD
EPHELVDLDSHSTDYTYPAVVKEEPIEPDMNMDPPMMDALPEHTQFKEEPLENWQPDPVI
QDDLRVTDSEEEAEDGLWF