Basic Information

Insect: Drepanosiphum platanoidis
Gene Symbol: phf14
Assembly: GCA_948098885.1
Location: OX402534.1:3773660-3787834[+]

Transcription Factor Domain

TF Family: zf-MIZ
Domain: zf-MIZ domain
PFAM: PF02891
TF Group: Zinc-Coordinating Group
Description: This domain has SUMO (small ubiquitin-like modifier) ligase activity and is involved in DNA repair and chromosome organisation [1][2].
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 4 6 1.6e+04 -4.5 1.4 38 48 174 184 170 185 0.75

2 4 0.13 3.4e+02 0.9 1.7 35 49 602 618 581 619 0.66

3 4 1.6 4.1e+03 -2.5 4.8 23 48 811 836 799 838 0.74

4 4 1.8e-22 4.8e-19 67.7 1.6 3 49 1117 1163 1115 1164 0.95

#	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	4	6	1.6e+04	-4.5	1.4	38	48	174	184	170	185	0.75
2	4	0.13	3.4e+02	0.9	1.7	35	49	602	618	581	619	0.66
3	4	1.6	4.1e+03	-2.5	4.8	23	48	811	836	799	838	0.74
4	4	1.8e-22	4.8e-19	67.7	1.6	3	49	1117	1163	1115	1164	0.95

Sequence Information

Coding Sequence: ATGTCTACGGATAAACCCCACACAGGCCACAGGACGTCGAACTTGCACCACCTGATGCTTATATTGGAACGTGATCCTAATAAAAGAAGAGTAAAACCTCCTGCTAACCCAGAGTTGGTGAATTTAGATGACATTGATGGTGAAAGCTCATCTGACAGTGATTTTCGTATTGAAGATCATTATGTGAATAGTGAATCTGATTCAGATGGAGCTTCATATTTTAGCTATACAGACGATGATAATCAAGAAGAAGTTGAGAAAGAAGAAAATGATGAAACGGGGTGTATTGATAACAGCACAGCTGATGGCAATAGCACTGTTACATCAAATCAAGATAATTCAAAAAAAGTGAGTTTAAGAGAGATAGTTGATAAAATTCATATTTGTAGTATTTGCTTGGGTGATGCTAGTGATGATGTCAATGAGTTAATTGATTGTGATGAATGTGGTATATCAGTTCATGAAGGTTGTTATGGTGTACATGATACTGGAAGTGCGAGTTCATCAGTTTCGTCATGTTCCATGGAACCATGGTTCTGTGAAGCTTGTAAAGCAGGCATAGAAAATCCCACTTGTGAACTATGTCCTAATTTTGGTGGGATTTTTAAAGAAACTGATAGTGGGAAATGGGTACATTTAGTATGTGCTCTTTATGTTCCTGGTATAACATTTGGTGAAGTTACCAGTCTTAGTAGAGTCATGTTGTTTGCAAATACTACACCTCGATGGGGTAGCAAAAGTTGTACTTTGTGTAAAGACATGAGATTTATGTGTACTGGAGTAACAATCGGTTGTGATGCTGGAATGTGTCGTTCGAATTTTCATGTTACTTGTGCTCAACGAGAAGGCAGTTTATCAGAAGCAACAAGCCCAGAAACTGACCAATCAGATCCTTTTTATGCTCATTGTAAATTGCATGTGGATAAACTTGTCGCAAAGAAAAGAAAAAGAAATTGGGAAGTACTTCAATTAAGAACTAAGCAAATGAAATTATTACGTGAGGAGCAATCTTCTGAAATGTCAGCTACATGGCAACGTAATCAGCGAAGACTTGGAAAATTACGATATAAGTATTATCAAATGAAACAAATTAGTATCCCTGAATCAACATTTAAATCTACAGTTCCGCGTCCTTTTATTACGTCAGCTTCAGGTTGCCGTTCCTTATGGTTAAAAGCTAGCTTGATGGGTGTAAATATGACCTCATATGAAGCTATTGAAGGGCATATAAAAGCATTACGCGATGTACCAAAAAAATGGCATATACCTTCTACATTTAGTATGGAATTCGTTAGTTATTTCTTAGATCGAAATCTAAGGTTGACAGATTTAAAAAGTCAACTAAAACATTTTACTGATGAAAATAACAAACTTCATGAAGAACAAATAATTCTACAAGAAAATTATGATAAAGAATCTAAAAATAATGAAATTCAAAAAGAAAAGCATACGGAACTCAAAGATATTATAACGGCCTATCATAATGTAGCAAATTTTGGGAATTGTAATATTTTCATGCCAGATATTGATACACTTACAAGTGTATCAGAATGTCAAAAAGATCAACATATATATCCTGTTTCCTCAAATAATTATCCCCCAACTCCTGCTGCTTTAAAAGCAGGCATTGGAATGTCAACGAGGAATAATGATAATTTAGGATTCTCGGATAATGAAGCGCCAGTAGGTTTAAATAATAAATGTGGTATTTGTAGTCGTTCAAATGATCAACATTTACTTGCAAAATGTGACACATGTTATTTATATTATCATTTGGGATGTTTAAATCCACCACTGACTAGGATGCCTAAAAAAACTAAACTATTTGGCTGGCAATGCAGTGAGTGTGATAACAGTAATTCTAATTCTGAACCTGAAACAGTTGATCCAAATGCCCCCAGGAAATTAAGGTATGGAGCTAGGGAGCCATCAGTGTCAGATAGTCGTAGATCTTCATCTATAGTAAATGATTTGCAGGATTTCAATAGTTTATCTGAACCGAATAAATTGTCTAGTGTATCAAAAAAAAAAAAACACGAACGACATAGAGAGAGATATTCTCCTGAAATTATAACCAAGCGTGTTAAGTCACGCAAACGGAAACACAAACATCACAGAGATAATAATGTTATGGAAGTTGAGCCAACTACTGATTTAATAAGTGAACCACCTCGACAAGGAATTAAATTATTTATTAAATCTGTACCCAGTGCTAGTGGTGTTAAAACAACATCCTCTCAATTACTTATTGCTCCACCAGTAGAAGAAACACTTCAGACATCTACTAAAATCAAACCTGAGAAAAGTGTTGCACCACTTAGAATTACCACAACTTCGACGGATATTAAATTGACTCCCAAGTGCAACACTTGTAATACTACTGGAACTAGTTTCACTATGGTTCAGTGTGATGAATGCAGTAAAAATTTTCATTTTTGTTGTCTTGATCCTCCATTGAAAAAATCACCGAAAGTGCGTGGGTACTCGTGGCACTGCGCTGAATGTGATCCAACGTCGGATATCGAATATATTCATCAGTTGGTGTACGACTTAAAGTTAAACGAACTACAATTCATTTTAGAAGCTGTAAATCAGAACAAATCTGGTAGCAAATCAGTTGTACGTAAACGTATTTTGAGCTTACTAGCTGATTCAGCTATAAAAACGAGATTTCTAAGACAAAAAATTATACAAGTTTATAAAGCTAGAACTCTTAACCAGCAACCACGTCAAATGTCAATACTGTCTACAGTTATTGCAGAATCTCCTCATCCTTCAACTACTGAATTTGAAGAATTGCCATTTTTCAAAACTATGCAAACTTTATTGCTACCAATGCTCTGTAAGACTAGCGATGCTGCTAACTTTACTGGTCTTTTTTATCTAACAGATAATATTAGACATTCAATTGTTAAATCGTGGAATATTGCTAAACAAGATTATAAAGTTCAAATAATTTTAAGATTAATACAAGATGGGCCTCAAGAAAATGGACCTGAACGTTTGCCTTACAATATATGCGTTTCTGTAAACAATCGTTCGTGCAAGCTACCTACTATGAATATACCAACAAAAGCTGGCATTACCCCGTGGAGGTGCAATGTTCCTATAGATATTACTCAGCAAACAGAATTAAGAAATTGTTCGCAGAACTCATTAAAAATTACTTGGTCAGAAGAATCACATGCATATGTGGCTGGTGTTTATGTGGCAGAGAAATTAACATGGGCAGAGCTTCTTGTACAACTTAAAAACCGACCATTACATGCCTCACATTTAACGAGAGAAACGATAAAAAATTCAATGGAGAGTGATGCCGATATGGGTATTGACTCTATGTTTGCTACGATTAAGGATCCATTGAGTAATAGAAGAATGGAACTACCAGCTCGAGGAGTTGATTGTATGCACATGCAATGTTTTGATGCAATACAGTTTTTACAGATGAACGAACAGAAACAAACATGGCTTTGTCCTCTTTGTAAGAAAAAGGTTAAATTTGAAAACATTATAGTCGACGAATTCTTTTTAGAAATACTTCAAAGCCCATTATTAACTGAAGATTGTGAAAGAGTCATTTTGTTTAAAAATGGTAATTGGGCCTTGATGAAAAATAAAGATTTTAAGACACTCAATCATGGCAGTTTAAAACAACCCATTGAAGTTTTTACGCTATCAGATTCTGATGAAGACGATTACGAACCAAAAGCGAAACGTTTAAAATCTAAATTGCCAGATGTTGAAGAATCTATAGTGAAATCCGAGCATATTCCACAAAATGAAAAAAAAACAAATGTTAAAAATTCTGCCGTACATGATCTTGCATTGGACCTGAGTCTCAAGAACAATGATTCAAAGCCGCCATCGAGTGTCTTTAATAATCAGTCAGTTATCACGTTAAGTGATAACCCTGATTCTCCACCATTACCGGAATCGTCCAATATATTAAGTGGTATTTACCTGCCAAGTATTTCGATTACAAGAAGTAATTACAAAGACTGTAAACCCAGTGGTTCTGAAATCAGTACCATAAATAGACAACAAGTAGAAAAAAATAACTCGCGCTCTGTTTTATGTGTCATTACATTAGATTAA
Protein Sequence: MSTDKPHTGHRTSNLHHLMLILERDPNKRRVKPPANPELVNLDDIDGESSSDSDFRIEDHYVNSESDSDGASYFSYTDDDNQEEVEKEENDETGCIDNSTADGNSTVTSNQDNSKKVSLREIVDKIHICSICLGDASDDVNELIDCDECGISVHEGCYGVHDTGSASSSVSSCSMEPWFCEACKAGIENPTCELCPNFGGIFKETDSGKWVHLVCALYVPGITFGEVTSLSRVMLFANTTPRWGSKSCTLCKDMRFMCTGVTIGCDAGMCRSNFHVTCAQREGSLSEATSPETDQSDPFYAHCKLHVDKLVAKKRKRNWEVLQLRTKQMKLLREEQSSEMSATWQRNQRRLGKLRYKYYQMKQISIPESTFKSTVPRPFITSASGCRSLWLKASLMGVNMTSYEAIEGHIKALRDVPKKWHIPSTFSMEFVSYFLDRNLRLTDLKSQLKHFTDENNKLHEEQIILQENYDKESKNNEIQKEKHTELKDIITAYHNVANFGNCNIFMPDIDTLTSVSECQKDQHIYPVSSNNYPPTPAALKAGIGMSTRNNDNLGFSDNEAPVGLNNKCGICSRSNDQHLLAKCDTCYLYYHLGCLNPPLTRMPKKTKLFGWQCSECDNSNSNSEPETVDPNAPRKLRYGAREPSVSDSRRSSSIVNDLQDFNSLSEPNKLSSVSKKKKHERHRERYSPEIITKRVKSRKRKHKHHRDNNVMEVEPTTDLISEPPRQGIKLFIKSVPSASGVKTTSSQLLIAPPVEETLQTSTKIKPEKSVAPLRITTTSTDIKLTPKCNTCNTTGTSFTMVQCDECSKNFHFCCLDPPLKKSPKVRGYSWHCAECDPTSDIEYIHQLVYDLKLNELQFILEAVNQNKSGSKSVVRKRILSLLADSAIKTRFLRQKIIQVYKARTLNQQPRQMSILSTVIAESPHPSTTEFEELPFFKTMQTLLLPMLCKTSDAANFTGLFYLTDNIRHSIVKSWNIAKQDYKVQIILRLIQDGPQENGPERLPYNICVSVNNRSCKLPTMNIPTKAGITPWRCNVPIDITQQTELRNCSQNSLKITWSEESHAYVAGVYVAEKLTWAELLVQLKNRPLHASHLTRETIKNSMESDADMGIDSMFATIKDPLSNRRMELPARGVDCMHMQCFDAIQFLQMNEQKQTWLCPLCKKKVKFENIIVDEFFLEILQSPLLTEDCERVILFKNGNWALMKNKDFKTLNHGSLKQPIEVFTLSDSDEDDYEPKAKRLKSKLPDVEESIVKSEHIPQNEKKTNVKNSAVHDLALDLSLKNNDSKPPSSVFNNQSVITLSDNPDSPPLPESSNILSGIYLPSISITRSNYKDCKPSGSEISTINRQQVEKNNSRSVLCVITLD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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