Basic Information

Insect: Gonatopus flavifemur
Gene Symbol: ZFHX3
Assembly: GCA_018340375.1
Location: Contig4:1993468-2006103[-]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [1].
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 20 0.27 38 5.4 0.1 2 23 350 372 349 372 0.91

2 20 0.00021 0.029 15.1 1.8 2 23 600 622 599 622 0.95

3 20 5.2e-05 0.0072 17.0 0.7 1 23 654 678 654 678 0.92

4 20 0.0077 1.1 10.2 0.4 1 22 735 756 735 759 0.91

5 20 4.7 6.5e+02 1.5 0.7 2 20 987 1005 986 1010 0.88

6 20 3.7 5.2e+02 1.8 1.5 1 23 1034 1058 1034 1058 0.91

7 20 0.056 7.7 7.5 0.1 2 23 1151 1173 1150 1173 0.95

8 20 0.021 2.9 8.9 0.2 3 23 1194 1215 1193 1215 0.95

9 20 0.0002 0.028 15.2 1.9 2 23 1278 1300 1277 1300 0.95

10 20 0.0038 0.53 11.2 1.3 1 23 1317 1339 1317 1339 0.97

11 20 0.00016 0.022 15.5 0.2 2 23 1346 1368 1345 1368 0.95

12 20 0.0022 0.3 11.9 3.3 1 23 1458 1482 1458 1482 0.91

13 20 0.0084 1.2 10.1 0.7 1 22 1502 1523 1502 1526 0.89

14 20 0.011 1.5 9.8 0.1 1 23 1567 1591 1567 1591 0.93

15 20 0.14 19 6.3 0.1 2 21 1634 1653 1633 1654 0.94

16 20 0.18 25 5.9 2.0 2 19 1798 1815 1797 1820 0.91

17 20 0.00013 0.018 15.8 2.5 1 23 2429 2451 2429 2451 0.99

18 20 0.0042 0.58 11.1 0.5 1 23 2551 2573 2551 2573 0.98

19 20 0.012 1.6 9.6 0.3 2 23 2713 2735 2712 2735 0.95

20 20 6 8.2e+02 1.1 0.3 2 21 3047 3066 3046 3070 0.88

#	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	20	0.27	38	5.4	0.1	2	23	350	372	349	372	0.91
2	20	0.00021	0.029	15.1	1.8	2	23	600	622	599	622	0.95
3	20	5.2e-05	0.0072	17.0	0.7	1	23	654	678	654	678	0.92
4	20	0.0077	1.1	10.2	0.4	1	22	735	756	735	759	0.91
5	20	4.7	6.5e+02	1.5	0.7	2	20	987	1005	986	1010	0.88
6	20	3.7	5.2e+02	1.8	1.5	1	23	1034	1058	1034	1058	0.91
7	20	0.056	7.7	7.5	0.1	2	23	1151	1173	1150	1173	0.95
8	20	0.021	2.9	8.9	0.2	3	23	1194	1215	1193	1215	0.95
9	20	0.0002	0.028	15.2	1.9	2	23	1278	1300	1277	1300	0.95
10	20	0.0038	0.53	11.2	1.3	1	23	1317	1339	1317	1339	0.97
11	20	0.00016	0.022	15.5	0.2	2	23	1346	1368	1345	1368	0.95
12	20	0.0022	0.3	11.9	3.3	1	23	1458	1482	1458	1482	0.91
13	20	0.0084	1.2	10.1	0.7	1	22	1502	1523	1502	1526	0.89
14	20	0.011	1.5	9.8	0.1	1	23	1567	1591	1567	1591	0.93
15	20	0.14	19	6.3	0.1	2	21	1634	1653	1633	1654	0.94
16	20	0.18	25	5.9	2.0	2	19	1798	1815	1797	1820	0.91
17	20	0.00013	0.018	15.8	2.5	1	23	2429	2451	2429	2451	0.99
18	20	0.0042	0.58	11.1	0.5	1	23	2551	2573	2551	2573	0.98
19	20	0.012	1.6	9.6	0.3	2	23	2713	2735	2712	2735	0.95
20	20	6	8.2e+02	1.1	0.3	2	21	3047	3066	3046	3070	0.88

Sequence Information

Coding Sequence: ATGTTCTCCGCTCCCGGAGGAAAAAATTTACGTGCATATGCGTACTTTGATACGTACATACACGGTCCGGTTGGTACGACCTGGGGTTGTGTCGGGGTAGCTAGAGAACAGTCTGCCAACGGCAAAGATAAGCATAAGACAGGGAAAAAGTGGGTAATAGGGAGACGTAACGAGAAGAGTAAAAGAAGAAGAAAGGGAAGTCCGAAGAACGCAGGAGCCGGCAGAGACGTGGGTGATCAACACACGTCGAGCGTAATCGGGCAGCATCAGCTCTATCAGCAGCTGGTAGCAGCCCATCATCATCACCAACAGCAGCAGCAGCAGCAGCAACAACAGCAACAGCAACAGCGACAGCATCAACACGGCGGCCCTTTTAAAAATTCCACGTACGGGCAGCAGAAGCAGGAGATGAGCCCGGAGGAGGAGGGTGGCCGAGGGGGCGGGTCCCCCCCGGCTGCGGGGGCTGCTCTTCATCAACCTCATCACCCCCGTACAGCTAGTCCGCCCTCCGGTACGGAACCGTGTACCCGCGATGCAATACCAACTCCAACACCCATTGCGGACACGACCACGACCACCACCACCACGACCATGACCATGCAGTCGCAGAGTCAACAGCAACAGGGCCCGAGCCCCAGCCCCAGTCCCACGGGCGGTGATGTTGAGAAATTCGATGGAAAAATTGTGTACAATCCGGATGGTTCGGCGTACATAATCGAAGGTGAAAGCGAATTGAGCGAAGACGATTCCCTACCGGACGGTTGTATAGTTGACGGTCGTGGTGTTTCGGTTCCTCATTCTTTAGTTTTTCCTCAAATCGCAAGTGCGTATTATGTGTCGAGGTTGTACGCTCACCAAGCTTATCAGCAACATCAACAGCAGCAGAAGCAACAACGTTCGACAACACAGCCGCATAATCCTGATCTCCCAGTGATGCACAGTTATCGAGTAATTAGTTATAGAAGTGCGGAAGGTAGTAAACAAACACCTCCACTCCCTTCGGCCCCACCGCCCCCTGCTGCTTCGGTCCCTGTCAAACCTATCCTCATGTGCTTCATTTGCAAGCTCAGTTTTGGATACGCTAAAAGTTTCGTAGCCCACGCCCAGGGTGAACATCAGCTCACTCTGATGGAAGACGAGAGACAAATTCTTTCGCATTCCACGGCATCAGCGATAATACAAGCAGTGGGAAGGGGCAAGCAGCCGCTTGTTAGTTTCTTGGAACCTGTAACGAGTTCGACTTGCCCTCAAACCTCTCCCGCTCAATCGCAAACGCAGCAACAACAACAACGTACCGAGACGAACGAGCACGAAGCGCCAACTACCACTAGCACGCCAGCTAGCACTCCCAGTATACCTAGCAGTCCTCAGCAACAGCAACAACAACAGCAAAGGCCGTCGTCGAGTACCCCCACAACACCGACATCTCATTCGAATCATCCCATCGTGTACAATCATCAACAACAGTCGCAGCAACAACAGCAATCCCAACATCAGTGGACGGGAGGTCAAGTGAGCGCCGCTTCCTGGGCGAAAGCACCCGACGCGATGCATTACACCTCCCCACCTCCACCAACTTCATCGACCAAGGGTTCGCCGTCCTCGTATTCCGCTCTAACGCAACAACCACCGAATTTTCTCACCGGGACGACGATAGGTGTATGTCCTGAACACATGCAAGGTCGACCAAGCGGAGTCGAGTGCCCGAAATGCGAACTTATCCTCACTAGCAGCAGGTTAGCCGGCCCCGGTGGTCCCTTAGCTGGTATTCATAGTCGAAACTCTTGTAAAACTTTGAAGTGTCCAAAATGTAATTGGCATTACAAGTATCAGGAAACCCTAGAGATACATATGAAAGAAAAACATCCCGACAGTGATATTTCCTGCATATACTGTATCGCTGGTCAACCGCATCCACGACTAGCTCGGGGTGAAACTTACACGTGCGGTTATAAACCGTACCGGTGTGAAGTGTGTAATTATTCGACAACGACCAAGGGTAATCTAAGCATTCACATGCAAAGCGACAAGCACTTGAATAACATGCAAGAATTGCAGCAAGGCGGAGGAGCCGCCGCTTCGGGTAACAGCAATCCTTCCTCGTCTCAAGACGCGCCGTTGCCCACGCGAAGTCCGCATCATCCGCAAAATCACAGTCCGCATCTCGTCAGTCAGGCGAATCAGGGCAAACCCAAACCCACGTTCCGTTGCGACGTTTGTAATTACGAGACCAACGTGGCTCGCAATCTCAGGATACACATGACTAGTGAAAAACATACGCACAATATGTTAGTGTTGCAACAAAACGTGAAGCACATGCAAACCCTGTCGGTGTTGCAAACTCATCATCATAATCAAACACAGCAGGCACATCATCATCAACAAGCTCAACAACAGCATCAACAACAATTAGAACAGTTATTGCATTTAGGTGGTCTCGATAAGCCCCAGCACGCCGAGGCGGCGTTAGCCGATATGGCTTACAACCAAGCGTTGATTATCCAAATGATGACTGGCGGTCAATTACCACCGCAATTACCTCCGGAACTGATGGGCGGGATGGCGAGTATGAGTGCGATGGGAAACCTCGGGGGAGACGTTGGACTTTCGCCCGACAGTATGGAACCCCCTCCCGAACCAGCGGATCCTGATCCAACTCATCTCTACCATTGTTGCGTTTGTAACAATTTTGCAACCGATTCCTTGGAGGCTTTAGGACATCACCTTGCCGCTGACAGAACAAGGACGCGGGAGAATGAAATCCTCGCGATCGTTGCTGGTCATTTCGTCTGCAAACTATGTTCCTATAAAACCAATCTCAAGGCGAATTTCCAGCTTCATTGCAAAACCGACAAACATCTCCAGCGTCTTCAACACGTAAATCACGTGAAAGAAGGTGGTCCGCGTAACGAATGGAAACTCAAATATTTGGCCTCGCCCACCAGTGCCGCTCAATTACGTTGTCACGCGTGCGATTATTATACCAACAGTGCGCACAAATTAGCAATTCACGCCGCTTCGCCGAGACACGAGGCTGCAACTCTATTGCTACGACATTTACTGGAGGCTAGTTCCAATATCCCGGCCCCTGGAAAACTTTATCATTGTGCTCTTTGCGGGTTCAGCGCGAGGCATCGATTGCCCCTCCTGCAACACGTTAGATCCTTGAGACATCTTCAAATGGAGCAACTGCATCAATTACACCGAAGAAGCGGTATCAATGGGAACGAGACTCCTCACACCGACATCGGAGACGTATTCCAAGTGGTGCCCGATCCAGATGTACCCTCTACTCAACAACCCAGTCCAGCCACTCCTACGACGCCTAATGCCTCCAACGCTAATACAGAGCGACGAGAGGAAGAGAGCGATTGTGGCAGTGAGGTCAAGCAAGAACCGGATAACGATCAAGAACAGGAACAAGAACCTGAGAACGATCAGGAGGAAATAAGTTGCCCCTACTGTACGTACCAACCCACGTCGAGGGATGAATTGAGGCAACATTTACAAATAGCTCACGTTCAAGAGACCGATGAGAAAATAGAGAATATCAAAGAAGAACCAACACCAGAATTATTGTGTCCCTTGTGCCAGGATAGTTTTAAGGAACGCTCTGCTCTCGAGAAACACGTGATGCAAATTCATTCGGTCAACGCCGATGGTCTGCAAAGGTTACTGCTGTTGGTAGATCAGAGTCATTGGTTGAACAACAATCCTAGGAATACATCGACGCCAGCGGCCACACCTTCCTCCCCGAGCACTACGACAAAACAACAGCAGGAAGAGGAGACAAACGAACGAACCGGAAGCGAGGAGATCGAGGAAATTATCAGATGTACGATTTGCGGTAGAGTCTGCCGGTCCCTAGAAGAACTTCAACAGCATCATCGGGAAGCTCATCCCGCTAGTACTCCTACGTTGGCCGTTAGCGAGAAACACGTTTACAAATACAGATGCGGTCAATGCAGCCTTGCCTTCAAGACATTAGAAAAACTACAACAGCATTCACAGTATCATGCCATCAGAGATGCAACCAAATGCGCCCTCTGTGGTCGATCTTTCCGATCCGTTCAAGCGTTACAAAGACATTTGGAATCGGCGCACGCCGATCTTCAAGAAGACGAATTGGCACAATATAAACAGAGTCTGCTTCACGCTTATCCTCTCTTACAGGCTTTGACAGAAGAGGCGCTTAGAAGGCAAGGTAGTATGATTAATGACCAAAACGTCGAAGAGGATAATACCAGAGGGGATGAGGAAGAGAGCGATGCCAGTGATTCGTCACCTCTCCATAAAGAACAACGTCTTCTCGAAGATTATCTAAACAGTCAACCTGTTGCCGAGGATTCTTATCACGATCCTGGAAGAAAATTCAAATGTCATCGTTGCAAAGTTGCGTTCACTCGTCAGAGTTATCTCACTGGACACAACAAGACTCTATTACATCGTAAAGGTGAAAAGATGTCCTACCCGATGGAAAAATATTTGGACCCGAACAGACCATTCAAATGTGATGTTTGTAAAGAGAGCTTCACTCAAAAGAATATACTTTTGGTCCATTACAACAGTGTCAGCCATTTACACAAATTAAAAAGGGCTATGCAAGAACAAGGTAACAACAATACTCTGATTTCAGTAGTACCGCCGGCTAGTCCCACCGAAGTGCCAGATTCTCAACAAGATCAAGACAAGAAACCTTTTAAATGTAATATTTGCAAAGTAGCTTACGCTCAAGGTGGAACTTTGGATATCCATATGAGGAGCGTTTTACATCAAACTAGAGCCAGTAAATTACCAGACTTAGCAGCCAGTGGCCAAGTGGATCTCGCTCGACCGTTGATCGAACAACCGCCACCCTCCAGTCCAAGCAGTCCTCCGTGTAACACCAATAACGCTGTTTCTTGTCCTCGTTGTGGCGCTCTCTGTGCGAATCAAGAACAACTCGCAACGCATCAACAACTCTACTGCATTCTCACCAACCCCTTGGCGTTGTTTCAACAATTGGCCGTTTCTCAACAGTTGGCATCAGCGACACCCGCGAAAACTCCACCTCCCGTGTCCACGACGCCAGGAACACAACACATGCAACCAAACATGCAACAATCGTCTCAAACGACTCAAGATATCCTCTCACAACCACGTCACAAAACATCCCAAATGTATAAACATCTCCTCGAAACCTACGGTTTTGATTTGGTCATGCAATTCAACGAGAGTCATCAGAGACGTCAAAGGAAAGAAGAAGAAGCGGTAGCGGCCTTTCAAGCGCAATTGGAACAGCAAAAACAAGAACAGCAGAAGCAAGCCTTGGCGGCCCAAGCGGCGCAAGAAAGAGAGGAAGAGGCTGAGGAACAGACCGACGACGATGTCATTCCAGAACTTACACGAAGTACTTGCCAACACTGTAACAAAGAATTCAGTAGCGTTTGGGTTTTGAAAGCTCATTGCGAGGAAGTTCATCGAGATCTCGTGCCTCGAGAATTCTTAGAGAAATACGCTCAGCAATTCAAATGTGAATACGAAAAGAAAACTGTTGTAGTCACAGCTGCGACGTCTTCTTCAACCACGACGGGGCCTAGGAGTTCCACTCCCGCGTCTAATCAACCCCAAGATCTCACTTCCGATAAAGAACAACGGGACAAAGAAAAAGAAGACAATCCTGAAAGTAAGGAAACCGTCAGTAGAACTCCAGAAGCTACTTCCACCACGCCAGCGACGACTCCCGCTCTGAGTAATACTCCAGTCTCTAGTACAGATTCCGCGACTCCAACGATATCTCAACCAAATCCTCAACAACTCACTCAACAAGCCCAACAACAAACGTCGCAACAATCCCAACAGTCGCAACCTCCACAACAACAGCAGCAGCAGCAACAACAACAACAACAACAGCAACAGCAAGCTCAATTGACCTTGGCCCAGCAAATGACTGAAATGCAAGCTGCTTTTAACGCGGTTGCTGCGTCTCAATTGCAACAACAATTACAACAGTATCCTGGACTGATGATGAGCATGATGGGATTGAATGTTCCTCTCGGCTTGAATCCTGCTCTTGCAGCTATCAACTTACAACCACCGATAGTTCCGTTAATGCTACCTCCACCTCCGTACGATGGTGCTGCAGTCGCCGCAGCTGCCGCTTATCCACCCATAAACGCCCAAGCCGATCTCCTTGCCAAACAACATCTTGCTTTGCAACAACAACAGGCTGCTGCGGCGAATGCCGCAGCGTCACAGAAAAGAGCTCGTACCCGTATCACGGATGAACAACTGAAAATTCTCAGAGCGCATTTCGATATCAACAACTCCCCAGGGGAAGAACAGATTTTGGACATGGCAGCGCAAAGTGGATTGCCACCGAAAGTAATAAAACATTGGTTCAGAAATACTTTGTTCAAAGAACGCCAGCGTAATAAGGACAGTCCATATAATTTCAACAATCCACCGAGTACAACGTTGAATTTGGAAGAATACGAAAAGACTGGAGAAGCCAAAGTGACGCCCCTGAATTCGAGTGTATCAGGAAGCAGTTCATCGGACGACAAGAGCCCCAACAAGCAAACATCACCCCCACCATCCAGTGGTACGAACGTGAGCACTTCGCAAGTCAGTGAAATCAAGCAAGAAGTTCCGGAACAGGCATCTTGTCAGCAGCAGCAATCGTCACAGCATCAGGATGAGCAACAGCATCATTCTCCTGGCAGTTCCGGAGGTCCACAATCCCGCCCACACTCTCCAGCTTTAAGCATGAGCTCGGTTTTTTCTGGTTTACATCACGAAATTTCTTCTCACAACACGTCGATTTCCAATACTCCCACCACTCCAATGTTACCACCGAAATTGGCACCTCAAAATTTCGCCAGCCCAACTCCAGGTGGAGGTGGAGTGGTTCCTGGAGCGATAGCTGCCTTGGCCCTGACACCGCAAAGATCCTTGAGCCCTGGTCGCGGTCCAACGGACTACTCGTTCGGAGGTAACAGTAATGGAAGTAACTCGTCGGGTGGGAGTTCCGGAAAACGAGCAAATAGAACTAGATTCACAGATTATCAAATAAAAGTTCTTCAAGAATTTTTTGAGAATAACGCCTATCCGAAAGACGACGATTTGGAATATTTGAGTAAATTGCTTGGTTTGAGTCCTCGAGTGATAGTAGTTTGGTTCCAAAATGCTCGACAAAAGGCGCGTAAAGTATACGAAAATCAGCCTGCTGCCGAACCCGTGGCTCCAGGAGGTCGAGAGGGAGATGACGGTTCTGGACGATTTCAACGGACGCCAGGTCTCAATTATCAATGCAAAAAGTGTTTGTTGGTATTCCAGCGATATTACGAATTGATTCGTCATCAAAAAACTCATTGTTTCAAAGAGGAGGATGCCAAGAGAAGTGCTCAGGCGCAAGCCGCGGCAGCTCAGGTGGCAGCGGTTTTGAGTTCCGAAGATAGTAATAGCAGTTCAACCACAACTACGACGAACGCCATCCCTAGTAATTCTCAAAGTACTACAGCTCTAACGGAACAATTGCAACAACCTCTAAGTACATCCACTCCTCCGCATCATCAGCAACAATCGCAACAAGCTCTCTCCCATCAGCATCAACAATCTCAACCTCAAACTCAGCCTCAAACAGTGCCCGCAGAATCCAAGGAAGGTAGTTTTCAATGTGACAAATGCAATTTGATGTTTGGAAGATTTGAACTCTGGCGTGAACATCAGTTGGTACATATCATGAACCCGTCCCTGTTTCCTCCGGCGTATCCCCCGGACTCACCTTTCGGTATACTACAACAACAAGCATTGAACGCTACGTCCGGCGCTGGTTCGGATTCCTCTCATCCGTTGATAGCCATGATACAGGATAGAAAAAGGAAGATGGAAGAATTCGAGGAAGGGGATGGTAGATTGATGTCGGAGCACAACGAGCAACCCAAAGACAAACGATTACGAACCACCATACTTCCGGAACAATTGGATTATCTTTACCAAAAATATCAGTTGGATTCGAATCCATCGCGAAAGATGTTGGAAGCAATCGCGCGTGAAGTTGGCCTGAAAAAGCGAGTGGTACAAGTTTGGTTTCAAAATACGCGTGCTCGAGAACGTAAAGGACAGTTCCGTGCTCACAGTCAAGTTATAAATAAACGATGTCCTTTTTGCCCAGCTTTGTTCAAAGTGAAATCCGCCCTAGAATCCCATTTGAGTAGCAAACACGCCGATCAAGTTGCTCGAGGCGAGGTCAATATCGACAACATTCCCGACGAAGAATTGTCAATGGAATCCGCACCTTCCAATCCAAGCACCCCGAATATGATGCCTCCTCTCTTTCCATCTTTCAACGCGGATATGGAGGCTTCGTTGAAAAAGTACTACGAGGAATCTATGAAACGATACCTCAGTGAATTGCAGGCCCACGCGAGTAATGGAAAACAGGAAACGACGAATCATCAACAATCGAGCGGGGGTGGCAATACCGGTGAATCACCTTTGGACCTCAGCAAGCCGGTCGATCTCAGTCGATCGGTCAAATTGAGTCTTGGGGGTTTCAGCAACCTACTCGAGGACCCGCACAACAGACTCGAGGCTGCGGCTCATTTTCGTGGTGGGAGCAGCGATTGCGGTCCATTAACCGATTTATCAGAACGTAGCATATGCGGTGACGACGACAGTATGAGCGAGACCACAGAGTTCCTAGACGACGAGAGTGGGCCAGCGAGTCCAGCTTCTAGCACGCAAAGTTCGAGACAAGGACCGGCCGGTGGTGGTGGAAATACAGGCGCTTCTTCCGGTCCTTCGTCCTTGACCGGAGGTAGCACGAGTGCCGGTCAATCGGGTGGTGGCGGAGGTGGTGGAGGCGGGGGAGGAAGCGGTGGCGGAGGTAGCGGTGGCAGTGGCAGCGGTGGCAAACGATATCGCACTCAAATGTCAGCGACTCAAGTGAAAGTGATGAAATCCCTATTTTCGGATTACAAAACTCCAACTATGGCGGAATGTGAGATGCTTGGCCGGGAAATAGGATTACCGAAACGCGTCGTCCAGGTCTGGTTCCAGAACGCCCGAGCTAAGGAAAAGAAGGCTAGGCTAGCGGCTGGTCTGCCTGCCGAAGGTTCCGCTGTACAGCCCCATCGTGGACCGACCGGACCCGACGAATGCAGGCTCTGCTCGGTCAGATATTCGGCCAAGTCCCCGCTTCAGGAACACGTTTTTTCGCGCCGTCACATCGAGTGTGTACGTGTTGCCGTCGAGGAGGGAAGTCTAGTACCACCAACCCCAGGTGCTCCAATCGTTCCCGGCGGTGGCGCAATCACCCCTTCCGTAGGAATCACCAACTCAACCCCGGTAACCCAACAACAACAGCAACAGCAGCAACAACAATCCGATGAAAATATGATGTACGGTTCTCTCTTCCTCCATCCGACGGCAATGTTTCAGTCCCAACAACAACATCCCGGAGCCTCAGCAGCTGCAGCCAGTACAGCTACCACCACGGCCG
Protein Sequence: MFSAPGGKNLRAYAYFDTYIHGPVGTTWGCVGVAREQSANGKDKHKTGKKWVIGRRNEKSKRRRKGSPKNAGAGRDVGDQHTSSVIGQHQLYQQLVAAHHHHQQQQQQQQQQQQQQRQHQHGGPFKNSTYGQQKQEMSPEEEGGRGGGSPPAAGAALHQPHHPRTASPPSGTEPCTRDAIPTPTPIADTTTTTTTTTMTMQSQSQQQQGPSPSPSPTGGDVEKFDGKIVYNPDGSAYIIEGESELSEDDSLPDGCIVDGRGVSVPHSLVFPQIASAYYVSRLYAHQAYQQHQQQQKQQRSTTQPHNPDLPVMHSYRVISYRSAEGSKQTPPLPSAPPPPAASVPVKPILMCFICKLSFGYAKSFVAHAQGEHQLTLMEDERQILSHSTASAIIQAVGRGKQPLVSFLEPVTSSTCPQTSPAQSQTQQQQQRTETNEHEAPTTTSTPASTPSIPSSPQQQQQQQQRPSSSTPTTPTSHSNHPIVYNHQQQSQQQQQSQHQWTGGQVSAASWAKAPDAMHYTSPPPPTSSTKGSPSSYSALTQQPPNFLTGTTIGVCPEHMQGRPSGVECPKCELILTSSRLAGPGGPLAGIHSRNSCKTLKCPKCNWHYKYQETLEIHMKEKHPDSDISCIYCIAGQPHPRLARGETYTCGYKPYRCEVCNYSTTTKGNLSIHMQSDKHLNNMQELQQGGGAAASGNSNPSSSQDAPLPTRSPHHPQNHSPHLVSQANQGKPKPTFRCDVCNYETNVARNLRIHMTSEKHTHNMLVLQQNVKHMQTLSVLQTHHHNQTQQAHHHQQAQQQHQQQLEQLLHLGGLDKPQHAEAALADMAYNQALIIQMMTGGQLPPQLPPELMGGMASMSAMGNLGGDVGLSPDSMEPPPEPADPDPTHLYHCCVCNNFATDSLEALGHHLAADRTRTRENEILAIVAGHFVCKLCSYKTNLKANFQLHCKTDKHLQRLQHVNHVKEGGPRNEWKLKYLASPTSAAQLRCHACDYYTNSAHKLAIHAASPRHEAATLLLRHLLEASSNIPAPGKLYHCALCGFSARHRLPLLQHVRSLRHLQMEQLHQLHRRSGINGNETPHTDIGDVFQVVPDPDVPSTQQPSPATPTTPNASNANTERREEESDCGSEVKQEPDNDQEQEQEPENDQEEISCPYCTYQPTSRDELRQHLQIAHVQETDEKIENIKEEPTPELLCPLCQDSFKERSALEKHVMQIHSVNADGLQRLLLLVDQSHWLNNNPRNTSTPAATPSSPSTTTKQQQEEETNERTGSEEIEEIIRCTICGRVCRSLEELQQHHREAHPASTPTLAVSEKHVYKYRCGQCSLAFKTLEKLQQHSQYHAIRDATKCALCGRSFRSVQALQRHLESAHADLQEDELAQYKQSLLHAYPLLQALTEEALRRQGSMINDQNVEEDNTRGDEEESDASDSSPLHKEQRLLEDYLNSQPVAEDSYHDPGRKFKCHRCKVAFTRQSYLTGHNKTLLHRKGEKMSYPMEKYLDPNRPFKCDVCKESFTQKNILLVHYNSVSHLHKLKRAMQEQGNNNTLISVVPPASPTEVPDSQQDQDKKPFKCNICKVAYAQGGTLDIHMRSVLHQTRASKLPDLAASGQVDLARPLIEQPPPSSPSSPPCNTNNAVSCPRCGALCANQEQLATHQQLYCILTNPLALFQQLAVSQQLASATPAKTPPPVSTTPGTQHMQPNMQQSSQTTQDILSQPRHKTSQMYKHLLETYGFDLVMQFNESHQRRQRKEEEAVAAFQAQLEQQKQEQQKQALAAQAAQEREEEAEEQTDDDVIPELTRSTCQHCNKEFSSVWVLKAHCEEVHRDLVPREFLEKYAQQFKCEYEKKTVVVTAATSSSTTTGPRSSTPASNQPQDLTSDKEQRDKEKEDNPESKETVSRTPEATSTTPATTPALSNTPVSSTDSATPTISQPNPQQLTQQAQQQTSQQSQQSQPPQQQQQQQQQQQQQQQQAQLTLAQQMTEMQAAFNAVAASQLQQQLQQYPGLMMSMMGLNVPLGLNPALAAINLQPPIVPLMLPPPPYDGAAVAAAAAYPPINAQADLLAKQHLALQQQQAAAANAAASQKRARTRITDEQLKILRAHFDINNSPGEEQILDMAAQSGLPPKVIKHWFRNTLFKERQRNKDSPYNFNNPPSTTLNLEEYEKTGEAKVTPLNSSVSGSSSSDDKSPNKQTSPPPSSGTNVSTSQVSEIKQEVPEQASCQQQQSSQHQDEQQHHSPGSSGGPQSRPHSPALSMSSVFSGLHHEISSHNTSISNTPTTPMLPPKLAPQNFASPTPGGGGVVPGAIAALALTPQRSLSPGRGPTDYSFGGNSNGSNSSGGSSGKRANRTRFTDYQIKVLQEFFENNAYPKDDDLEYLSKLLGLSPRVIVVWFQNARQKARKVYENQPAAEPVAPGGREGDDGSGRFQRTPGLNYQCKKCLLVFQRYYELIRHQKTHCFKEEDAKRSAQAQAAAAQVAAVLSSEDSNSSSTTTTTNAIPSNSQSTTALTEQLQQPLSTSTPPHHQQQSQQALSHQHQQSQPQTQPQTVPAESKEGSFQCDKCNLMFGRFELWREHQLVHIMNPSLFPPAYPPDSPFGILQQQALNATSGAGSDSSHPLIAMIQDRKRKMEEFEEGDGRLMSEHNEQPKDKRLRTTILPEQLDYLYQKYQLDSNPSRKMLEAIAREVGLKKRVVQVWFQNTRARERKGQFRAHSQVINKRCPFCPALFKVKSALESHLSSKHADQVARGEVNIDNIPDEELSMESAPSNPSTPNMMPPLFPSFNADMEASLKKYYEESMKRYLSELQAHASNGKQETTNHQQSSGGGNTGESPLDLSKPVDLSRSVKLSLGGFSNLLEDPHNRLEAAAHFRGGSSDCGPLTDLSERSICGDDDSMSETTEFLDDESGPASPASSTQSSRQGPAGGGGNTGASSGPSSLTGGSTSAGQSGGGGGGGGGGGSGGGGSGGSGSGGKRYRTQMSATQVKVMKSLFSDYKTPTMAECEMLGREIGLPKRVVQVWFQNARAKEKKARLAAGLPAEGSAVQPHRGPTGPDECRLCSVRYSAKSPLQEHVFSRRHIECVRVAVEEGSLVPPTPGAPIVPGGGAITPSVGITNSTPVTQQQQQQQQQQSDENMMYGSLFLHPTAMFQSQQQHPGASAAAASTATTTA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01498017;
90% Identity: iTF_00754407;
80% Identity: iTF_00754407;