Basic Information

Insect: Polyplax serrata
Gene Symbol: ZFHX3
Assembly: GCA_037055365.1
Location: JAWJWE010000001.1:16962273-16977786[+]

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 19 0.35 20 5.3 0.1 2 23 294 316 293 316 0.91

2 19 0.00027 0.016 15.1 1.8 2 23 560 582 559 582 0.95

3 19 6.7e-05 0.0039 17.0 0.7 1 23 614 638 614 638 0.92

4 19 0.0098 0.57 10.2 0.4 1 22 703 724 703 727 0.91

5 19 0.5 29 4.8 0.3 1 23 1084 1107 1084 1107 0.89

6 19 0.028 1.7 8.8 0.1 1 23 1129 1152 1129 1152 0.92

7 19 0.041 2.4 8.3 0.8 1 22 1232 1253 1232 1256 0.92

8 19 0.049 2.9 8.0 0.6 1 23 1268 1293 1268 1293 0.94

9 19 0.012 0.7 9.9 1.3 1 23 1310 1332 1310 1332 0.97

10 19 0.55 32 4.7 1.1 3 23 1340 1361 1338 1361 0.87

11 19 0.00081 0.047 13.6 4.5 1 23 1446 1470 1446 1470 0.92

12 19 0.011 0.62 10.1 0.7 1 22 1490 1511 1490 1514 0.89

13 19 0.001 0.061 13.3 0.2 1 23 1564 1588 1564 1588 0.93

14 19 0.031 1.8 8.6 0.3 2 21 1668 1687 1667 1688 0.93

15 19 0.51 30 4.8 3.3 2 19 1813 1830 1812 1835 0.91

16 19 0.00017 0.0097 15.8 2.5 1 23 2476 2498 2476 2498 0.99

17 19 0.00073 0.042 13.8 0.3 1 23 2593 2615 2593 2615 0.98

18 19 0.0033 0.19 11.7 0.4 2 23 2758 2780 2757 2780 0.97

19 19 0.19 11 6.2 3.1 2 23 3011 3034 3011 3034 0.89

#	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	19	0.35	20	5.3	0.1	2	23	294	316	293	316	0.91
2	19	0.00027	0.016	15.1	1.8	2	23	560	582	559	582	0.95
3	19	6.7e-05	0.0039	17.0	0.7	1	23	614	638	614	638	0.92
4	19	0.0098	0.57	10.2	0.4	1	22	703	724	703	727	0.91
5	19	0.5	29	4.8	0.3	1	23	1084	1107	1084	1107	0.89
6	19	0.028	1.7	8.8	0.1	1	23	1129	1152	1129	1152	0.92
7	19	0.041	2.4	8.3	0.8	1	22	1232	1253	1232	1256	0.92
8	19	0.049	2.9	8.0	0.6	1	23	1268	1293	1268	1293	0.94
9	19	0.012	0.7	9.9	1.3	1	23	1310	1332	1310	1332	0.97
10	19	0.55	32	4.7	1.1	3	23	1340	1361	1338	1361	0.87
11	19	0.00081	0.047	13.6	4.5	1	23	1446	1470	1446	1470	0.92
12	19	0.011	0.62	10.1	0.7	1	22	1490	1511	1490	1514	0.89
13	19	0.001	0.061	13.3	0.2	1	23	1564	1588	1564	1588	0.93
14	19	0.031	1.8	8.6	0.3	2	21	1668	1687	1667	1688	0.93
15	19	0.51	30	4.8	3.3	2	19	1813	1830	1812	1835	0.91
16	19	0.00017	0.0097	15.8	2.5	1	23	2476	2498	2476	2498	0.99
17	19	0.00073	0.042	13.8	0.3	1	23	2593	2615	2593	2615	0.98
18	19	0.0033	0.19	11.7	0.4	2	23	2758	2780	2757	2780	0.97
19	19	0.19	11	6.2	3.1	2	23	3011	3034	3011	3034	0.89

Sequence Information

Coding Sequence: ATGCCCGCACCGCTCACAGCTGGCGCGCCTGTAGACCCCGCGCCATCTCAGCATGAGCACCGTCGCACCAACGGACCGCCACTAAATTTATCACGCGTCGTAGAATCGTCGCAACCCGCCTTTATAAGTTCCTTGaatagaagaaaacgaaaacataGCAGAGAAGGAGTCATGAGTCCTGAAGAAGAAGCCTCAGCATCGCCGCCGGCGGCACTAATAGCCGGGCGAGAGGACGAAAGAAGAGTGTCTTCGCCGCCGCAAGGCAGTAAGTTCCTATTAGATGACGTGCCATGTACCCGCGTTCAAAAACCGCTCATAACGAAGGTTTCGGACGAAGAAGTTTCCTCAGACGAGGAGGACAGAACGACAGTCGGACCTGTCAACGACATGGCCAAAAAGCACGAGACCGAGAACAATGAGGACTCGTGCGGTACGAGCGACGTCGAGAAGTTCGATggaaaaattgtatacaatcCGGACGGTTCGGCGTATATCATCGACGACAGCGAATTAAGCGAGGAGGACACCATTGCCGAACTGCCGAAGCTGATCGGCGATGGATGCATCATAGACGGACGAGGCATTAGCACATCTCAGCCGCAGTCGTTTCCGCAAATTGCAAATGCATTTTACGTGTCGCGAAATCCCTCCCTGTACAGCGCTCTTTACGGATCGTCCGCATCCCTTGCCAGTCGCATAAtgcaagacaaaaaaatagttcctGAAGTACCTATCATGCACAGCTACAGGGTGTATACGGTTCGTGATAAAAGTTGTGATCATGAGGCTAAGCGAGAGACCGAGGAGAccaagaaagaagagaaagacaaacaaTTTCCCGGGAAGGATTGCTCTTCGGTTCCTGTGAAACCAATCCTGATGTGTTTCATATGTAAACTGTCGTTCGGGTACGCCAAGTCATTTGTGGCACACGCCATGGGAGACCACAACGTGGTCCTTCGGGAAGACGAAAAGGAAATCCTTGGACAAAAGAACGCTTCCGCGATAATTCAGTGCGTGGGTAAGGAGAAAGAGCCGTTAGTGTCGTTTCTAGAGCCGTTGTCGACGACCATTCCCGATGACAAACCTCCCTTGTCTGCCGTTTCCCTGATTCTCAAGCCTCCACACAAGTTGTTCGGCACGGACCCCGTAAGGAACTCTCGCCCACCGAGCGGAAACGGTAACCAAGGTTCCTCGGAGTGTGCAGGTACGGCGACGGCCGGGTCGGAAAACCTCGCGCGTCGCCCGTTGCAGTCTCCCGTCGTCCAAAACCATGTTCCTGAGATATTTGTTTCCCTACCTCAGCACGGTAGTTCTACTAGTAgtgttaataatagtaaaatgatGAACAGTGTCATGGATTTAACTCGTAAAAGTCCGGTGTCGGCAGGCGGTGGTAACACTGGACGGAGTAGCGCTTCACCGGGGGCAGGCACCTCTCCTAGTTCTGCCCTGTCGCCCCTCATGGCCGCAACTCCAACGTCTTCGTTGCCATATCCACCGCCACCACCAAACTTCCTCACGGGCACAACAATCGGAGTTTGTCCAGATCACATTGGCGGTCGACCGAGTGGGGTCGAATGCGCCAAATGTGAGCTCATATTAAGTTCCTCACGCTTAGGCGGAGTCGGCGGTCCCCTTGCCGGCATGCATTCAAGAAACTCATGTAAAACGCTCAAATGTCCTAAATGCAATTGGCATTACAAATATCAAGAGACTCTAGAAATAcatatgaaagaaaaacatccAGAAAGTGAGACGTCGTGCATCTATTGCATAGCGGGTCAGCCGCATCCGAGGTTGGCACGAGGTGAAACCTACACCTGCGGATACAAACCCTACCGATGCGAAGTTTGTAATTACTCGACCACGACCAAAGGAAATCTCAGCATTCACATGCAGTCGGACAAGCATTTGAACAACATGCAAGAGTTGCAGAACGGGGGCGTTCCCACGTCCGAAAGCAGTCCTTCCGTGATGCAGCACTCACCTCATCAGACGCCACCTCAGCACCACAAACCGACGAGCATGCCGAGTCCGAGCACTCCTCACCATCACTTGACTCCCGTCAGTTCGActgttcaaaatcaaaaaccaaaaccGACTTTCCGGTGCGACGTGTGCAACTACGAGACGAACGTTGCACGGAATTTAAGAATTCACATGACAAGCGAGAAACATACTCACAACATGATGGTCCTGCAGCAGAACGTCAAACACATGCAAACGCTGAGCGCGTTGCACCAGCAGTctcaacagcagcagcagcaacagcagctgAACTTTGAGTCGCTCCTCCACTTCCATCCAGGTTTGACGTTGCCGGGGGACAAACCTCCCCCTCACACAGAAGCTGCGTTGGCAGACATGGCCTACAACCAGGCATTGCTCATTCAAATGATGACGGGAGGGCAGTTGCCCCCGCACATACCGCCAGAGCTCGCTCCGCACATGGACATGGGACTGAATCCCGAGACGATGGAGCCTCCACCAGAGCCTGCTGATCCGAACCCTTCGCATTTGTTCACCTGTTGCGTGTGCAACAACTTCTCGACTGATTCCCTGGAGGCTCTCTCTCACCACTTGTCGGCCGATCGTACCAAAATACGTGAGCAAGAGATACTGGCCGTGGTAGCCGGTCACTACGTGTGCAAGCTCTGCACGTACAAGACGAACCTGAAAGCGAATTTCCAACTCCACTGCAAGACGGACAAACATCTGCAGAGGCTTCAGCACGTGAACCACGTGAAGGAAGGAGGACCAAGAAACGAATGGAAACTCAAGTACGTTTCTTCACCGGGAGGCATACAGGTGAGGTGTCATCCCTGCGACTACTACACCAATTCCGCTCACAAACTCCAGTTGCACACGACCGGACAACGACACGAGGCCGGATGTCTCCTCTTCAGACATCTACGGGAGGCCGAAGAACGGCTCCGCGATTCGGACGACTGGATTTACCATTGTGCGTTGTGCGTGTTTTCTAGTCGGGCCAAGCTCCAGTTGTTCCAACACGTTCGGTCTATGAAACATCTTCAGATGGAGCAATTGCACCAGTTGCAGCGTCGCTCCGAAGGGAAAGACGTGCAGGCGGACATAAGCGAGATATTTCAAGTGATACCGACCCCGGATGGATTCTCCGGTGACAGCGAAACAGAACGGAAGGAGAATCAAGTGTCAAATCGGGACAATGGCTCAAAGCAAGATGCATCTGAAGAAGAGGCGAACGCATCATCCGAAGATAAGTCACATTCTTGTCCATATTGCAATTATTCTAGTAATTCGGAGATCAGAATTCAGGCTCACATTTTGGCCCAGCACCCGCAGTCGGAGAACAGTCAACAGCCGACATCATCGGCTTCTCCGACGACCCAACCGAAAGATTTCCTCTGTCCGCTTTGTCAGGACGGTTTCCGCGACCGCGTCTCCCTCGAGCGTCACGTCATGCAAATACACAGCGTCAACTCTGAGGGGTTGCAACGTCTGTTGATGCTGGTCGATCAGTCGCACTGGTTGAATGCGGTCAACCGCAGTTCTTCTCCGCATCAACAGAATCACATGAGTCCTGCCAGCAGCGGAGGCAGCACGTCCTCTCACTGCAAGGAGTTGGACAAGCCCTCCGATTCGACGGAAGAACGCGACGAACCCAGCTTGCTCTCGTCTCCCGTGTCGGAAGAGAACCCGGAGGACGAGTACAAATGCCAGACCTGcatgaaaaactacaaaaacctGGATGAACTGTACGTCCACCAAAACGAGTCGGGACACATTGAAATCAAGCAAACGCCCACCGGTCCGGGTTACGTTTGCTGGAAAAAAGGCTGTAATCAATATTTCACAACGATCAACACCCTGCAGTTGCACTATAGGGAAATCCACATTAAGAATCAACAGAACATGTCCGTCTCCGAGAAACATGTGTACAAATATCGTTGCAACCAATGTAGTCTCGCATTTAAAACGATAGAAAAATTGCAGTTGCATTCGCAGTATCACATAATCAGGGACGCGACCAAATGCATACTCTGCGGCAGGAACTTCAGATCAATAATATCCCTGCACAAGCACGTCGAACTGACTCACACCGATTTATCGGAAGAAGAACTGAACACTTATAAACAAAGTCTGATGAACAACCCGTTGATATTGGCGGGTCTTAGCGGAAACCTGCTCGACTCCTGTCAAAACGACCTCCTTCGAAAGGACGGAAACGAAGATGAAGACGATCCGATTGACGACAACAGCGATGATTCGTACAAGGAACAGCAATTCTTGGAGGACTATTTGAACAGTCAGTCGATCGCCGAGGACAGTTACAAAGATCCCAACAGGAAGTATAAATGCCATAAATGCAAATTAGCGTTCACGCGACAGACATACCTGACGAGTCACAACAAGACCCTGCTCCACCgaaaaggtgagaaaatgAACTACCCGATGGAGAAGTACATGGATCCCAACAGACCGTTCAAATGCGATGTCTGCAAGGAGAGTTTCACGCAGAAGAACATTCTTCTCGTTCACTACAACTCCGTGAGTCACCTGCACAAGCTCAAAAAAGCCATGCAGGAACAGCAGACGAACAACAACACGATGACGTCATCTCTGCTTGGAGTCACGTCGCCACCATCCTCATTGAACCTGACCAAGTCGTCGCTGTCTTCCTCCGAGGAAGAAGACAAGAAACCGTACAAATGCAACATCTGTAAGGTCGCCTACAGTCAGGGATCGACGCTGGACATTCACATGAGGTCGGTGCTTCACCAGACGAGAGCATCAAAACTTCAGGACCTAGTCATTTCCGGTCAAATAGACATAAACAAGCCATTGTTTGAGCAGCCCAATCAGAAGATCGACGTGAAGAAGGTGAACGATCTGATTGGATCGCCCAATGCCAAATTTGCGTTCACATCGCCGTCGAGTAACTCGTCGAACGCTCAGGGCTCGTCACCGATCAACCCGCAGTCGCCAAAAACAGATTCTGACGACAAGGACACTTTGAACTGTCAGCGGTGCAACGCCGGATTTCAAAACCAGGACCAGCTGACGACCCATCAGCAGCTCTACTGCTTGTTCGGAAGTCCGATGAATTTGTTCCCTCCGATCACGAATTCATCATCGACTCCGAACCGAGGCCTGTCTCCTCCGCCAAAGTCTCCGGGAACTCCTGACGACATAAGCAAACTCAGTCTGACCAACAAGAAGTGTTCCCAAATGTACAAGCACTTGTTGGAAAGCTTCGGATTCGATCTCGTCAtgcaatttaatgaaaatcaccaaagaaaacggaaagaaCGGGAAGAGGCGGAGaaactggaaaaagaaaaggaattgCTAAGCCAAAGTGAAAACGCAACGGACAAGCACAGCATCGAAGCTGTCGATGGCAAACCCGACGAAGAAGAGACGGACTTGCCTGAGGTCAACTGCAAGAGTACCTGTCAGCACTGTCACAAGGAATTTTCTAGCGTGTGGGTGTTGAAAGCCCACTGCGAAGAAGTTCACAAGGAACTAGTGCCTATAGACTTTTTAGAGAAGTACGCAGAAGAATTCAAAACCGAATACGAAAAGAAAACGGCAATTGCGACGACGGTGACAACGACAACAACGACAGCCATATCGACGCCAAACACGAGCACGTCCATGTCGACGTGCACAGTCACAAGCTCCGGAATTGACATAACTCCCGAAAAGGAAGAATCGAAGGACGCCATTCAAAAGATGGGTCAGACGGACGACCTGACGCCTCCGACAGCCTCATCCACCCCGGCTAGCAGCACCGACAGCATTCCAACTGGAATGTCAGGTCTCAGCCCGGGTGTTGCAAACCCAAATTCGATTCAGATGACCCTGGCTCAGATGAACGAGATGCAGGCAGCCTTTAACGCGATGGCCGCGTCTCAGCTACAACAGCAACTGCAGCAATTCAATCCCATGATGATGGGAATGGCTGGCCTGGGTATGGGACTCCCACTGGGCCTCAATATGCCAGCCCTTGCAGCGATGAACCTTCAACCGCCACTGGTACCTATGATGATGCCGCCACCGCCGTTCGACCCCATGTCACTGGCCCAGGCACAAGCTCAGGCTGCACAGGCCCAGGCTCCTCCGATTTTCCCATCTCAGGGAGGCATCGACCCGGCAGCGGCACTCATAGCCAAGCAACAGCAGCATCTCctacagcagcagcaacaagcGgcAACTGCAGCTCAGCAAAAACGTGCGCGAACGAGGATCACGGACGACCAATTGAAGATTCTTCGAGCTCAttttgacattaataattcaccaTCGGAAGAACAAATACACGAGATGGCCGCTCAGAGCGGTCTGCCaccaaaagtaataaaacactGGTTTAGAAACACTTTGTTCAAAGAGCGACAACGTAATAAGGACTCGCCGTACAACTTTAACAATCCACCGTCGACGACATTGAACTTGGAAGAATACGAGAAAACAGGAGAGGCTAAAGTTATGCCATTAAACAGCAGTAACAGCAGCAACTCCGAAGACTCGACCACACAGAAGGAAAACTCGCAGCGGCCGCCTACGGCGGCCTCAATCTCATCAAATCCGGTAAAAAAAGAACCGGTGTCTAAGGGAAATGCAGTTCAGGGACAACAACAGCAGGTATCTCCCACGCCTCCACCTTCCTTCAGCGACTCGCCACAGATCAAGTCGGAACCAAGGGATAGAGACAGTTCTCAGGTGCaagaaaacgaaaagtttAACTTCATGGACGAACACCGCGGACGAATGAGACGGGACAGCGTCGACAGTTTCGACGAAAAGTCCAGCTTCCACAGTCCAGTTCACCACTTTCCTCCACAGAGTCCTCATTCTGGTTCTCACAACGAATCTCAAGTTCCTCAGAATCTATCTAGTTCCTCTCCGAATGGCCTTAGCTTGTCCAATTTGATGAATGAGTCAGGCGGCAGCACTTCAATGCCACAGAACATGTTGCCACCGAAGTTGACACCACCCAACTTCGCCTCATCAAACCAAGTTCCTAATTCAAGTGCCATGGTATCCATGCCGACTTCGAGATCAGTGTCTCCTGCCAGATCTACCTGTCAAGATTATTTCTCTCATTCGGCCCTCGGAGGAGGCAGCGGAGCAAATAGCAACGGAAGCAACTCGTCCGGAGGATCCACGTCGGGTAAACGGGCCAACAGAACGCGTTTCACGGACTATCAGATAAAAGTTCTGCAAGAATTTTTCGAAAACAATGCTTACCCCAAAGATGACGATCTTGAATATTTGTCGAAATTGCTGAGTCTCAGTCCCAGGGTGATTGTAGTGTGGTTTCAAAATGCCAGACAGAAAGCGAGAAAAGTGTACGAAAATCAGCCTCCAGTGGAGCCGGCTCCAGGGACTGACGGAAACGAGGCTGGACGCTTTCAGAGAACACCTGGGCTCAACTACCAGTGCAAGAAATGCTTACTTGTATTCCAGCGCTATTACGAGTTGATCAGACATCAGAAAACACATTGCTTTAAGGAAGAAGACGCGAAACGGTCAGCTCAGGCTCAAGCAGCAGCGGCCCAAATTGCTGCTGTCCTCTCGAGCGAAGACTCAAACTCCAGCACAATTGAAAATCAGCAACACCAAACTCAACCCGTGGCATCTGTCACATCGTCAGCTCACAGCAATCCTCCTACTCCATCGGCGCCTGTCACTCCCACCCCGTCAAATCCATCACAAAGTCTTTATTCGCAGTCACCTGCGCCGTCTAGCACACCTACTCCCGACCCAAACAACAAAGATGGAACCTTCCAGTGTGACAAATGCAATTTGGTCTTTCCAAGATTCGATCTGTGGAGAGAACATCAACTCGTACACATAATGAATCCGAATCTGTTCCCGACGTATCCTCCGGAGAGTCCGTTTGGCATTTTGCAGCAGCACGCTCAGCTGCAACACCAACAGCAACTGGCCAACATGAGCGTCGACCTGTCGTTGAATTCTCAACAGCACCCCCTCGCTGCCATGTtgggaaacaaaagaaaattcgaaGATTACGACGACATGTCGGACGCGGGTGGAGATCAACCCAAAGACAAAAGGCTGAGAACGACAATTTTACCGGAACAGTTGGACTATTTGTACCAGAAATACCAGATCGAGAGCAATCCAAGCAGAAAGATGTTAGAGAGCATTGCCAGAGAGGTTGGACTGAAGAAGCGAGTCGTTCAGGTTTGGTTTCAGAACACGAgagcaagagagagaaagggacaGTTCAGAGCTCATGCTCAGGTGATCAACAAACGGTGTCCTTTCTGTCCTGCCCTGTTCAAAGTAAAATCAGCACTAGAAAGTCACCTGCAGACAAAGCACTCGGACCAATACGCTAGGGGAGAGATAAACATAGACTCACTGCCGGACGAGGAACTCAGCCTCGAGTCCATGTCCAACTTCCAACAGGGTAACAGTAATTCCAATCCCATATCGCCTCTCTACTCGTCTTTCAACTCCGACATGGACTCCATCAAAAAGTACTACGAGGAGTCCATGAAGCGGTACATGAGCGAACTTCAACAGAACCAGAACGGCGAGCGTGAAAAAACCGACGAAAAGGGTGAAAGTCCCCTTGACTTGAGCAAACCCGTCGACCTGAGCAAGCAGATGAAAGTCTCGATGGACGACTCGAGAATAGTCGACATGGGTCCTTTGACCGATGTCAGTGAGAAAAGTCTTAACGACGATGATTCAATGTCGGAAACAACTGAAATGTTTTACTACGATGACAGTAATCCGGTCTCGCCGGCCTCAAGCACCCAGAGCAAtcaccaaaaacaaaacaaaaggttCCGAACGCAAATGAGTTCTACACAGATCAAAGTGATGAAATCCCTGTTCAACGACTACAAAACGCCTACAATGTCCGAATGCGAGATCCTCGGACGCGAGATCAGTCTGCCAAAGCGTGTCATTCAGGTTTGGTTCCAGAACGCTCGGGCCAAAGACAAAAAAGCAAAGATGACGCTACAGAAGGGAGGTGACGAGGTAGGAGAAAAGTCCCCGGAGGAGTGCAAGCTGTGCAACTTCAAGTACTCGCACAAGTACTCGGTTCAAGACCACATATTCACCAAGTCGCACATCGACAATGTCAAGCTGTCGGTCGAGCAGGAGTCCGGTAACAACAGCGACCAGGATTTCACGGTTCCGCCCGTGCCTGGGTCGAGCAACGAGCCATCCACCCCGGTCATCaaccacaacaacaacaacacgaCCAACCAGCACTTGGCACAGCTGCAGATCCTTCAGATGGCCGCAGCGAGCGGTCTGATGAAAGACAAAATTCCGATGGCCGAAGAGATGGCTCAGCTCCAAATGCTCCAACTCGCTGCTGCCTCGGGTCTCATGATGAAGTCGGACGACAAGAAATTGGACGACATCGCTCAGCTGCAGCTGCTGCAAATGGCCGCCGCGAGTGGACTCCTTCAGAAGATGGAACCGAACAAGGAGATGAAGGAGGAGATGGCACTGCTGCAACAGCTCTATGGTCTTCCGGGCTTCATGCATCCCTCCATGGTCAACTCTTCTGCCGGTGAGTCTGAATTCTAA
Protein Sequence: MPAPLTAGAPVDPAPSQHEHRRTNGPPLNLSRVVESSQPAFISSLNRRKRKHSREGVMSPEEEASASPPAALIAGREDERRVSSPPQGSKFLLDDVPCTRVQKPLITKVSDEEVSSDEEDRTTVGPVNDMAKKHETENNEDSCGTSDVEKFDGKIVYNPDGSAYIIDDSELSEEDTIAELPKLIGDGCIIDGRGISTSQPQSFPQIANAFYVSRNPSLYSALYGSSASLASRIMQDKKIVPEVPIMHSYRVYTVRDKSCDHEAKRETEETKKEEKDKQFPGKDCSSVPVKPILMCFICKLSFGYAKSFVAHAMGDHNVVLREDEKEILGQKNASAIIQCVGKEKEPLVSFLEPLSTTIPDDKPPLSAVSLILKPPHKLFGTDPVRNSRPPSGNGNQGSSECAGTATAGSENLARRPLQSPVVQNHVPEIFVSLPQHGSSTSSVNNSKMMNSVMDLTRKSPVSAGGGNTGRSSASPGAGTSPSSALSPLMAATPTSSLPYPPPPPNFLTGTTIGVCPDHIGGRPSGVECAKCELILSSSRLGGVGGPLAGMHSRNSCKTLKCPKCNWHYKYQETLEIHMKEKHPESETSCIYCIAGQPHPRLARGETYTCGYKPYRCEVCNYSTTTKGNLSIHMQSDKHLNNMQELQNGGVPTSESSPSVMQHSPHQTPPQHHKPTSMPSPSTPHHHLTPVSSTVQNQKPKPTFRCDVCNYETNVARNLRIHMTSEKHTHNMMVLQQNVKHMQTLSALHQQSQQQQQQQQLNFESLLHFHPGLTLPGDKPPPHTEAALADMAYNQALLIQMMTGGQLPPHIPPELAPHMDMGLNPETMEPPPEPADPNPSHLFTCCVCNNFSTDSLEALSHHLSADRTKIREQEILAVVAGHYVCKLCTYKTNLKANFQLHCKTDKHLQRLQHVNHVKEGGPRNEWKLKYVSSPGGIQVRCHPCDYYTNSAHKLQLHTTGQRHEAGCLLFRHLREAEERLRDSDDWIYHCALCVFSSRAKLQLFQHVRSMKHLQMEQLHQLQRRSEGKDVQADISEIFQVIPTPDGFSGDSETERKENQVSNRDNGSKQDASEEEANASSEDKSHSCPYCNYSSNSEIRIQAHILAQHPQSENSQQPTSSASPTTQPKDFLCPLCQDGFRDRVSLERHVMQIHSVNSEGLQRLLMLVDQSHWLNAVNRSSSPHQQNHMSPASSGGSTSSHCKELDKPSDSTEERDEPSLLSSPVSEENPEDEYKCQTCMKNYKNLDELYVHQNESGHIEIKQTPTGPGYVCWKKGCNQYFTTINTLQLHYREIHIKNQQNMSVSEKHVYKYRCNQCSLAFKTIEKLQLHSQYHIIRDATKCILCGRNFRSIISLHKHVELTHTDLSEEELNTYKQSLMNNPLILAGLSGNLLDSCQNDLLRKDGNEDEDDPIDDNSDDSYKEQQFLEDYLNSQSIAEDSYKDPNRKYKCHKCKLAFTRQTYLTSHNKTLLHRKGEKMNYPMEKYMDPNRPFKCDVCKESFTQKNILLVHYNSVSHLHKLKKAMQEQQTNNNTMTSSLLGVTSPPSSLNLTKSSLSSSEEEDKKPYKCNICKVAYSQGSTLDIHMRSVLHQTRASKLQDLVISGQIDINKPLFEQPNQKIDVKKVNDLIGSPNAKFAFTSPSSNSSNAQGSSPINPQSPKTDSDDKDTLNCQRCNAGFQNQDQLTTHQQLYCLFGSPMNLFPPITNSSSTPNRGLSPPPKSPGTPDDISKLSLTNKKCSQMYKHLLESFGFDLVMQFNENHQRKRKEREEAEKLEKEKELLSQSENATDKHSIEAVDGKPDEEETDLPEVNCKSTCQHCHKEFSSVWVLKAHCEEVHKELVPIDFLEKYAEEFKTEYEKKTAIATTVTTTTTTAISTPNTSTSMSTCTVTSSGIDITPEKEESKDAIQKMGQTDDLTPPTASSTPASSTDSIPTGMSGLSPGVANPNSIQMTLAQMNEMQAAFNAMAASQLQQQLQQFNPMMMGMAGLGMGLPLGLNMPALAAMNLQPPLVPMMMPPPPFDPMSLAQAQAQAAQAQAPPIFPSQGGIDPAAALIAKQQQHLLQQQQQAATAAQQKRARTRITDDQLKILRAHFDINNSPSEEQIHEMAAQSGLPPKVIKHWFRNTLFKERQRNKDSPYNFNNPPSTTLNLEEYEKTGEAKVMPLNSSNSSNSEDSTTQKENSQRPPTAASISSNPVKKEPVSKGNAVQGQQQQVSPTPPPSFSDSPQIKSEPRDRDSSQVQENEKFNFMDEHRGRMRRDSVDSFDEKSSFHSPVHHFPPQSPHSGSHNESQVPQNLSSSSPNGLSLSNLMNESGGSTSMPQNMLPPKLTPPNFASSNQVPNSSAMVSMPTSRSVSPARSTCQDYFSHSALGGGSGANSNGSNSSGGSTSGKRANRTRFTDYQIKVLQEFFENNAYPKDDDLEYLSKLLSLSPRVIVVWFQNARQKARKVYENQPPVEPAPGTDGNEAGRFQRTPGLNYQCKKCLLVFQRYYELIRHQKTHCFKEEDAKRSAQAQAAAAQIAAVLSSEDSNSSTIENQQHQTQPVASVTSSAHSNPPTPSAPVTPTPSNPSQSLYSQSPAPSSTPTPDPNNKDGTFQCDKCNLVFPRFDLWREHQLVHIMNPNLFPTYPPESPFGILQQHAQLQHQQQLANMSVDLSLNSQQHPLAAMLGNKRKFEDYDDMSDAGGDQPKDKRLRTTILPEQLDYLYQKYQIESNPSRKMLESIAREVGLKKRVVQVWFQNTRARERKGQFRAHAQVINKRCPFCPALFKVKSALESHLQTKHSDQYARGEINIDSLPDEELSLESMSNFQQGNSNSNPISPLYSSFNSDMDSIKKYYEESMKRYMSELQQNQNGEREKTDEKGESPLDLSKPVDLSKQMKVSMDDSRIVDMGPLTDVSEKSLNDDDSMSETTEMFYYDDSNPVSPASSTQSNHQKQNKRFRTQMSSTQIKVMKSLFNDYKTPTMSECEILGREISLPKRVIQVWFQNARAKDKKAKMTLQKGGDEVGEKSPEECKLCNFKYSHKYSVQDHIFTKSHIDNVKLSVEQESGNNSDQDFTVPPVPGSSNEPSTPVINHNNNNTTNQHLAQLQILQMAAASGLMKDKIPMAEEMAQLQMLQLAAASGLMMKSDDKKLDDIAQLQLLQMAAASGLLQKMEPNKEMKEEMALLQQLYGLPGFMHPSMVNSSAGESEF

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01164738;
90% Identity: iTF_01250900;
80% Identity: iTF_01250900;