Basic Information

Insect: Apocheima hispidaria
Gene Symbol: -
Assembly: GCA_947579745.1
Location: OX388171.1:3805130-3813799[+]

Transcription Factor Domain

TF Family: PC4
Domain: PC4 domain
PFAM: PF02229
TF Group: Unclassified Structure
Description: This domain is found at the C-terminal end of Activated RNA polymerase II transcriptional coactivator p15 from humans, YdbC from Lactococcus lactis, and other PC4 family members. p15 has a bipartite structure composed of an N-terminal regulatory domain and a carboxy-terminal cryptic DNA-binding domain [1-4]. Activity is controlled by protein kinases that target the regulatory domain.
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 6 0.0024 25 4.7 0.1 36 51 399 414 390 415 0.83

2 6 0.0032 34 4.3 0.0 35 51 482 498 474 499 0.87

3 6 0.0002 2.1 8.1 0.0 35 51 566 582 558 583 0.89

4 6 0.00024 2.5 7.9 0.1 32 51 648 666 641 667 0.85

5 6 0.11 1.1e+03 -0.6 0.0 37 52 823 838 820 838 0.89

6 6 0.12 1.3e+03 -0.8 0.0 37 51 918 932 913 933 0.85

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	6	0.0024	25	4.7	0.1	36	51	399	414	390	415	0.83
2	6	0.0032	34	4.3	0.0	35	51	482	498	474	499	0.87
3	6	0.0002	2.1	8.1	0.0	35	51	566	582	558	583	0.89
4	6	0.00024	2.5	7.9	0.1	32	51	648	666	641	667	0.85
5	6	0.11	1.1e+03	-0.6	0.0	37	52	823	838	820	838	0.89
6	6	0.12	1.3e+03	-0.8	0.0	37	51	918	932	913	933	0.85

Sequence Information

Coding Sequence: ATGAAGACAAAACACTCCCGTTCCTTTTTCCCGTTCCGTCCCTGCGTTTGTTCCCATAAAGACCAAGCAACGGATGCGCAAGAAACCGAAAGACATGCTTCTAAAGTTGATATTGAAGCGCAAGTTATCAAGTGGCTTGTCCAACTACCAGTCCATGTTAATAATATTTCAGAAAACCAGAAGCTGCATCTTGAAATGGCTCAAGACCTTATCGGTAAACTAAAAGAGTTGAGTGGTAGAGACGATTATTACGATAGAGCGATGACAGAAATAAAAGCTTTCTTAGACAAACTGCCTGAAGCCCCTGGAGGTGGAGATGACGATGTGTCAGAAATAGACGAGCCGGAGGAAATAAGGGAAATTATAGCCACGTGGCTAGATGGTATCAATTTAGATATAAAGACTGAGAAAGGGAAATTAATGTCTAGAGAGAAAACGTCAGAGAAGTTCATCGATCACTTGGAACCAATCGTAGATAGAAATGGAACGAGAGAAGAATTGAAAAAAGAAATTATGACGATGCTGCTTAAGCCCAATGAAAAACTACTAGATAGTGACGTTGACGATGAAATAAATGAGCACGCCGATAACTTAGTGGAACTATTGTATAAAGTTATTCTACGTAAAGAAAGGAGAACACCACAAAGAAGAAGAAGTCTTGAAGCCACACCAATCATTACAGACTGGTTAGAAAGCATAGAAGATGTGCTCACAGAGGTCAAAGATCAGTATAGAAACGAAGCTAAAAAAGCCGATAGCAAACTAAAACAGCTGGTGTCTGAAGGCGCTACCGATGATATTTTAGAGGTTGAAATCAACAACTTCTTTGATTTCTTGCCTAACGACAAAATTCTACTTACTTCTGAGGAAAAAGATGAACTGACTGACAATTTCATAACCAATATAAAAGCTGCGACAAATGTACCCTACTCTATTAGTCGTGAAAGAAAACATGAGCTGGCAAGAAATCTTTTAGATAATTTAATACCAAAGCCAAAAGGCGAGATTAGACATGTAACTGACCAGCTAGTTTTGGATTGGCTAGAAAATGTTCCCGACATTCCAGAAGCAATCAAGTTAAAGAATCAAAATTTATTTAAAAAATTTGATAAGAAGTTGCAACAATTGAAATCACAAAATGTTGACAGCGACGTCATTGAAGAAGAAATCAAAGAGTTTTTAGAGTCGCTTCCCGAAAAAGGGATTACACTTAGTCCGTCACAACAAAGCCAGCTTACTAAAAACCTTGTAAAACAAACCAAATCTACAAGTAACCAACAAGTTGCAGACTGGTTAAAAAACGCACCAAACGTTTCCGAACAAACGAAGAAGAAGAATCAAAATTTATTTAAGAACTTTGATAAAAAGTTGGAACAGTTAAAATTTCAAAATGCTGACAATGACGTCATCGAGGAAGAAATCAAAGAATTTTTAGACTCACTTACCGGACAAGGGATTACACTTAGTCCGTCACAACAAAATCAACTCACTAAAAATCTCTTCAAACAAAGTAAATCTGTAAGCATTCAACCAGTTGCAGACTGGTTAAAAAACGCACCAAATGTTTCCGAACAAACGAAGAAGAAGAATCAAAATTTATTTAAGAACTTTGATAAAAAGTTGGAACAATTAAAATCTCAAAATGCTGACAGCGACGTGATTGAAGAAGAAATCAAAGAGTTTTTAGACTCACTTACCGGAAAAGGGATAACACTAAGTCCGTCACAACATAATCAACTCACTAAAAACCTTGTCCAACAAAGTAAATCTGTAAGCAATCAACCAGTTGCAGACTGGTTAAAAAACGCACTAAATGTTTCCGAACAAACGGAGAAGAAGAATCAAAATTTATTTAAGAACTTTGATAAGAAGTTGGAACAATTAAAATCTCAAAATGCTGACAGCGACGTGATTGAAAGAGAAATCAAAGAGTTTTTAGATTCACTTCCTGGAAAGGGGATTTCACTTAGTCCGGCACAACAAAGCCAACTCATTAAAAAACTTGCGAAACAAACTCAATCTGTAAGTACCCAACCAGTTACAGATTGGCTAGAAAAAGCGCCAAATGTTTCCGAAGAAATGAAGAAGAAGAACAGAAATGTGGTTACAGACTTTGACAAAAAGTTACAACGATTGAAATCTGAAAATGCTGGCGATGACATCATCGAAAGTGAAATTAACGAGTTTGTAAACAAGCTCCCGGGGAAAAGTATACCACTTTCGCTAAAAGAAAAATGCCAACTGTCGAAAGAACTTTTAAACAATGTCAAATTAAAGCCAAGAGTAAGCAAACAATCAGTTTCAGAGTGGTTAGAAAACTCTCCGAATATCCCAGAAGAAATTAAGAAGAAGAATCGTAACGTCTTTAAACATTTTGATAAAAGATTACAAGAATTGAAATCTGAAAATGCTGATGATGACGTCATAGAAGCAGAAATAGGTGATTTTTTAGATTCTTTGGCTGATAAAGGAATTACAATCACACCAATAGAAAGAGCTCAGTTAATAAAAAATATAATAAACAAAGAGAGACCGATGACAGACGATAAAAAATCCACCATTCTCGCTAAAAGTAATCAACCGGTAGCAAATTGGCTGGAAAATGCTGCAAGCATACCCGAAGACATCAAAAGAAAGAAACAATTTTTATTTCAAAACTTTGATAAAAAACTTAAACAGCTACAGTCTCAAAACGTCAGTGAACGTGCTATAAATGAAGAAATCTGGAAGTTTGTGGAGTCTTTACCAGAAAAAGGAATCCCTATGTCGCCTCAACAAAAAGAGCAACTGGTAACTAATCTATCGAACGATGTGAAATCGGAATCAAAACAGCGAAAACGCTGGGATCAAAATAAGCACAGTGAAAAACCCAAAACAGCTATTTTAGAAAGTCCAGAAGTACAAAAAATGGTTCAAAACGAAATACATAGTAGATTAGACGATTATAAAATTCCAGAATCTGTTGAAAAATATATAACAGATGCATTAACTGATCAAATAGTACAAGGCGTCAGAGATGACGAAACAAAACGAAAGATGAAATCTATATTAAGAAATGCTAACATATCTGAAAATGATACGAAACATATAATCGATAAGATAATGAAACGAAACAAAGAAATGTCAGCTAGTAAAGAATCTTCTGCTTCAACGCCCAAAAAATCATTTCCAATTTTCAGCCTTCAGGAAAAGTTAGAGTTGAAAGACAAGTTTAACAAAATAATTTTACACTTCAATAAGGATATAACAGGCGAAGAAAGCCAAGAAATACGAAATAAAAGAAAAACTGACGCTGCGCAGCTAGCTGAAAATCTTGCTGAAATCATGATTAATTTTGATGATGGAAATAAACAAATTAAAGATGATAAAATTATGCGTGAAATTTTACGCTACTTGGAGAAGGAGTCATTCGATACACCAGAACCAATAAAAGAATTAGGAAAGCATCTAAAACGTCGATTGGAAACAATTGATTTTACGACATCCACTCCCCGTAAATATAAAGATAACTTTATCCTCAACAAAGAATTTGACATATCTGGTATAAATTACGACACTGATAATATTGTGCCTAGAAGAGGATCTAAACCAAGATCGATAAGTGACGTAGAAAATTATGAAGAAGAAGTAGATGAATCAGATTCTGGTGACGAAGACGACGACGGTGGTGTTGAAACTAGATTTGATGTATCAAGACAACTTCAAAGAACATCACAGAGAAGCGGGCAAGACAATAAACAATTTAAAAATATCTGTAAAGAAATAATATCACAAGCTAGAAAGTCAAGTACTACGGAATCTGGTACTCGTTTAGTTCAAAATGATAGTGATTTTACCGAAAATAGTCTAGAGGAAGCTTTATTAGACTGGCTAAAGGAACACGAGATAGACCAAGATATATCACCTAATGAAAAGCGCATTCAAGAAAATTTTGTGAGAGACCTAGGAGACAAATTGATTTCAATAATGCATAAAACTCCATCCCCTGATGGCAATATTGACTCTGTTTTACTTAATGAAATTAAGAAATATCTGCTGTTCAGGGTTCCAATGAACCCTGCACTTAAATCGAATCAAAGTTTTATGAATGGATTAGCTAAGGATATGTTAGATTATTTAAAAGACTTAGAACTTCTCCAAAAAACATCACAGCATTTTGACCAGTCAATAAATTACCATGTCGATAAATGGATAAACAATCTACCGTTATCAAGAATGGATTCTTCTGAAAAAGTAAATTTAGAAGACCTGAAGGAAAAATTCAAATATAATATAAATCAGATTGGATTACGAGATGAATCTAAACTCAGAAACGAAACAAAAAAGTTTTTAGTAAATACTCCGCTTGAACTAGAGAATGGAAATGATAAAGAATTGATTATAAATGCACTAGTAGATCAGTTAATTGAATCAATTACAGGAACCGTCCAAAAAGTGCCATTACCAGCACCTGATGAATTTGTCAAAGAAGCAGTAGAACAGTGGCTGAAAACTCTAGACATCCCAGAAACTGATGATGGTACTTTAAAAGATATTCTTAATGAAGCCCAAGCTGATTTAGTTAGAACATTGTTAAATGATATTACCTACGTAAATGAAGTTTCGGTGAAAAAAACTGATGAAATATTTCAAGATGCAACAGCTCAGTTTTTAGAAAAAATACCAGAACATCCATATCAAACCGAGGATATAGATATCTTGGCTAAGTCCTTACAAGAAAAGTTTAATACATTTTCCAGAAAATATTCGACGCTTCCTACTGGATCAGTTAGAAGAAAGGCTGCTGATGTTTTGTTGAATGATATTGCAAATTGGGTCAAAAATCTTCCGATTGAATTAGATACTCCTGAAAACGAAGCAGACGCCAAAAAGATTAGACAAAAGTTCGAAACTAAATTAATACATAAAATTGGTGAACTAAATATGAATCCTGAGGTATTTACAGATGATTTTCTTTACGAAGACATCCTTGGTGATGAAATTGACAATTTACTTGCAAATATACCGAGTGAAAATATCAATAACAATCAGCAAAAGCTAAAGAAAGACTTATTAGATATTATTAGAGAGGCGAGACAGAAAATTCGAGAAGAAAACGTAGGACAATTGTATAAACAACAACTTCGTGAAACTATTGCGAGAATATTTTCATCTTTTGACTTATCTGCAGATGGACAAGCGTTACTCGAAGTGCTTAAAGACAATATAGCCGATACTTTTTTAAACATGCATTACGTTGGCAACGATGATCAAGAGATAAAAAAGTTAAGAAAGAAAATGAATAATGAAATCTATTTATTTTGTTATAATTATATTAAAAGATGTCCAGCATCACCTCTAGACACTACAAAATTTAGCGAAGACTTGTTCAGCGCGTTGGAAAATATTGCAGAACCGCAGAATAAGTCATTTAGAAATGAAGTTGAGCTTGTAAAAATAAAAGATGAGATCATCAATTGGGCAAAAGAATTACCGCTGGAGATGCAAACTGGGCAAGATAAACTTCGGACAAATAAAATGATATCGGTACTTGCCAAAAAAATTCACGAGATTGAAATTATGAGAGCACTTAGTTCAGATGCAGAATACGACGAAAAAATTAAAAAAGAAATAACAAAGTTTTTGGGAAAGCTTTCATTGACAACTGATAAAGATATAAACCAGCTTGTAGAAATTTTATCGGGAAATCTTAAAGGTACTGAAAAGTCGCGAAGATTAAATACTTCTACTAGACATTCCGCTCAACCTTGGGATTCATGCTCCTGCTACGTACCCTCACCAAGCACTTTAAGCAAAGAAGACCAGGATCACCTTGAACAAATTAGAAAAAGATTACCCGTAGTACGACGAAGGATTTCGTTGAGCGACGTGACAGCCAATCCTTGTCCTGTAGACGTTGGCAGCCAAACAGAGATCAAAAGCTCTAGTTTAGAAATATGTCGTTTCCGCAACCAATGTTCAACTCAAAGAAATTCAAGCGCTCAGACTTCTAGCAAAAGAATGCAAGCTGTTGCAAGCCAAATGTATGTGTCACCCAATGCGATCGTCAACGAACATCATTGGAATTCGATCGATGAAAGCTGTATGCAGCCCCCACAGCTCCCTTTCCCATGTCCTCCCGCTCCTCTTCCTTCTCGTACTGCTATGCAACAGCAGCTTCGAAGAACCGTATCACCAGGATCCCGCAGTTTGTGCATCCATCGCACATCGAAATCATGCCTTACCGATCGACCAAGCACTTCACATCCATCTCAAATCCAATTTACGAATCCTCGAAGATCACAAACAAAACCCTGTCAATTTCCTCGCCAAACCTGTGCGCCGTATTCACGTCCTGAATTAACCTGCAGACCTGCGCCGTGTAGTCCTGAACAGTTGCTCCAGGCTCAAGCGGGGATTCAGTGCTCGGTTCCTGATCTTTCAGCGCTACCTTATCCAATGACAGATCAAAGAACTACATCTCAACTAGGAAGTCAATACCGTAGCAGCTATCCATACCAGCTTCCGCAAACTGCCAACAGGCATCTGCCATATCCATACGATTCGGGCAGTTCAGAGCACAACCATCAAAGATTCAAAGTAGGCTATCAAAGAAGACAATTCTATTCTCCTGGCCTGCAATGTTCTGTACATGAATTGCCAGGTCAGAGGGGTGTTCGAGAAACTCCAAACACGCCGTATAACCCGTGCCCAGGTTCTTTATCACAAATTTCGCAAAAGACTCGACGACCACAGAATAACCAGCCAAGGACATGCGTGGCATCCCACTCGCCTTTAAGATCGCAAGGTCAATCGTGCCTGACACCTCAGAGCCCTGTTCTATTTTCCCCTTCGCAACAAGTGCCATGCTCGCGAAGTAGGCGATCCTACATAAGACCAGAGCCTCTGATCTCATCAGAAGATAACGAGGCAGGACCCAGCAGCTCCTTTCAAAAACGAGTGACGCATCTTGGATCTTTTGACCACGTGAAACCCCAAACTTGCACGAGTCGACTTGACAATTGCGATACAGTTCTAAATAACTGTCATAATTGGGAAAGAAGAACTAATAGACACTGCATGCTTTCGGATGAGGAATTGCATCGAGAAGGGAGATGTAGATGTAAACCAAAATGTGGTAAATACAGCGGGAGACGGAATCCGTGTCATTTACACAATGACGAATCTATGAATAGCTGTTCGAAGTGTTGTGGAGTGCATTGTCCTTACCCGAGTTATTTGTTCTTTGGATGA
Protein Sequence: MKTKHSRSFFPFRPCVCSHKDQATDAQETERHASKVDIEAQVIKWLVQLPVHVNNISENQKLHLEMAQDLIGKLKELSGRDDYYDRAMTEIKAFLDKLPEAPGGGDDDVSEIDEPEEIREIIATWLDGINLDIKTEKGKLMSREKTSEKFIDHLEPIVDRNGTREELKKEIMTMLLKPNEKLLDSDVDDEINEHADNLVELLYKVILRKERRTPQRRRSLEATPIITDWLESIEDVLTEVKDQYRNEAKKADSKLKQLVSEGATDDILEVEINNFFDFLPNDKILLTSEEKDELTDNFITNIKAATNVPYSISRERKHELARNLLDNLIPKPKGEIRHVTDQLVLDWLENVPDIPEAIKLKNQNLFKKFDKKLQQLKSQNVDSDVIEEEIKEFLESLPEKGITLSPSQQSQLTKNLVKQTKSTSNQQVADWLKNAPNVSEQTKKKNQNLFKNFDKKLEQLKFQNADNDVIEEEIKEFLDSLTGQGITLSPSQQNQLTKNLFKQSKSVSIQPVADWLKNAPNVSEQTKKKNQNLFKNFDKKLEQLKSQNADSDVIEEEIKEFLDSLTGKGITLSPSQHNQLTKNLVQQSKSVSNQPVADWLKNALNVSEQTEKKNQNLFKNFDKKLEQLKSQNADSDVIEREIKEFLDSLPGKGISLSPAQQSQLIKKLAKQTQSVSTQPVTDWLEKAPNVSEEMKKKNRNVVTDFDKKLQRLKSENAGDDIIESEINEFVNKLPGKSIPLSLKEKCQLSKELLNNVKLKPRVSKQSVSEWLENSPNIPEEIKKKNRNVFKHFDKRLQELKSENADDDVIEAEIGDFLDSLADKGITITPIERAQLIKNIINKERPMTDDKKSTILAKSNQPVANWLENAASIPEDIKRKKQFLFQNFDKKLKQLQSQNVSERAINEEIWKFVESLPEKGIPMSPQQKEQLVTNLSNDVKSESKQRKRWDQNKHSEKPKTAILESPEVQKMVQNEIHSRLDDYKIPESVEKYITDALTDQIVQGVRDDETKRKMKSILRNANISENDTKHIIDKIMKRNKEMSASKESSASTPKKSFPIFSLQEKLELKDKFNKIILHFNKDITGEESQEIRNKRKTDAAQLAENLAEIMINFDDGNKQIKDDKIMREILRYLEKESFDTPEPIKELGKHLKRRLETIDFTTSTPRKYKDNFILNKEFDISGINYDTDNIVPRRGSKPRSISDVENYEEEVDESDSGDEDDDGGVETRFDVSRQLQRTSQRSGQDNKQFKNICKEIISQARKSSTTESGTRLVQNDSDFTENSLEEALLDWLKEHEIDQDISPNEKRIQENFVRDLGDKLISIMHKTPSPDGNIDSVLLNEIKKYLLFRVPMNPALKSNQSFMNGLAKDMLDYLKDLELLQKTSQHFDQSINYHVDKWINNLPLSRMDSSEKVNLEDLKEKFKYNINQIGLRDESKLRNETKKFLVNTPLELENGNDKELIINALVDQLIESITGTVQKVPLPAPDEFVKEAVEQWLKTLDIPETDDGTLKDILNEAQADLVRTLLNDITYVNEVSVKKTDEIFQDATAQFLEKIPEHPYQTEDIDILAKSLQEKFNTFSRKYSTLPTGSVRRKAADVLLNDIANWVKNLPIELDTPENEADAKKIRQKFETKLIHKIGELNMNPEVFTDDFLYEDILGDEIDNLLANIPSENINNNQQKLKKDLLDIIREARQKIREENVGQLYKQQLRETIARIFSSFDLSADGQALLEVLKDNIADTFLNMHYVGNDDQEIKKLRKKMNNEIYLFCYNYIKRCPASPLDTTKFSEDLFSALENIAEPQNKSFRNEVELVKIKDEIINWAKELPLEMQTGQDKLRTNKMISVLAKKIHEIEIMRALSSDAEYDEKIKKEITKFLGKLSLTTDKDINQLVEILSGNLKGTEKSRRLNTSTRHSAQPWDSCSCYVPSPSTLSKEDQDHLEQIRKRLPVVRRRISLSDVTANPCPVDVGSQTEIKSSSLEICRFRNQCSTQRNSSAQTSSKRMQAVASQMYVSPNAIVNEHHWNSIDESCMQPPQLPFPCPPAPLPSRTAMQQQLRRTVSPGSRSLCIHRTSKSCLTDRPSTSHPSQIQFTNPRRSQTKPCQFPRQTCAPYSRPELTCRPAPCSPEQLLQAQAGIQCSVPDLSALPYPMTDQRTTSQLGSQYRSSYPYQLPQTANRHLPYPYDSGSSEHNHQRFKVGYQRRQFYSPGLQCSVHELPGQRGVRETPNTPYNPCPGSLSQISQKTRRPQNNQPRTCVASHSPLRSQGQSCLTPQSPVLFSPSQQVPCSRSRRSYIRPEPLISSEDNEAGPSSSFQKRVTHLGSFDHVKPQTCTSRLDNCDTVLNNCHNWERRTNRHCMLSDEELHREGRCRCKPKCGKYSGRRNPCHLHNDESMNSCSKCCGVHCPYPSYLFFG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: -
90% Identity: -
80% Identity: -