Basic Information

Insect: Panzeria rudis
Gene Symbol: pita_4
Assembly: GCA_956483635.1
Location: OY101450.1:109535677-109550942[-]

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 37 0.00088 0.099 14.6 0.4 1 23 228 250 228 250 0.99

2 37 2.7e-06 0.00031 22.5 6.7 3 23 267 287 265 287 0.96

3 37 0.14 16 7.7 1.8 1 23 299 321 299 321 0.97

4 37 0.078 8.9 8.5 0.1 3 23 329 349 327 349 0.95

5 37 1.2 1.4e+02 4.7 0.0 1 23 355 378 355 378 0.91

6 37 0.00024 0.027 16.4 1.2 1 23 574 597 574 597 0.96

7 37 0.26 29 6.8 1.2 1 23 603 625 603 625 0.98

8 37 5.1 5.7e+02 2.8 0.6 12 23 630 641 629 641 0.91

9 37 0.5 57 5.9 0.9 1 23 653 675 653 675 0.91

10 37 0.17 19 7.4 0.1 2 23 682 703 681 703 0.95

11 37 2.2 2.5e+02 3.9 0.1 1 23 709 732 709 732 0.91

12 37 1.3 1.4e+02 4.7 0.2 1 23 964 986 964 986 0.91

13 37 0.0016 0.18 13.8 4.5 1 23 992 1014 992 1014 0.96

14 37 5.5e-05 0.0062 18.4 2.6 1 23 1020 1042 1020 1042 0.98

15 37 0.026 2.9 10.0 1.1 1 23 1048 1070 1048 1070 0.96

16 37 0.22 25 7.0 4.2 3 23 1077 1097 1076 1097 0.97

17 37 5.6e-05 0.0063 18.4 2.3 1 23 1103 1125 1103 1125 0.97

18 37 1.2e-05 0.0014 20.5 1.8 1 23 1132 1154 1132 1154 0.98

19 37 0.088 9.9 8.3 4.0 1 23 1166 1188 1166 1188 0.96

20 37 0.98 1.1e+02 5.0 0.1 2 23 1195 1216 1194 1216 0.95

21 37 1.2 1.4e+02 4.7 0.0 1 23 1222 1245 1222 1245 0.91

22 37 2.5e-05 0.0028 19.5 2.9 1 23 1462 1484 1462 1484 0.99

23 37 1.5 1.7e+02 4.4 0.1 1 21 1490 1510 1490 1511 0.89

24 37 1.6 1.8e+02 4.4 0.0 5 23 1513 1531 1512 1531 0.92

25 37 0.38 43 6.3 1.3 1 23 1548 1570 1548 1570 0.94

26 37 0.06 6.8 8.8 4.2 1 23 1576 1598 1576 1598 0.98

27 37 0.0017 0.19 13.7 0.8 1 23 1632 1654 1632 1654 0.96

28 37 0.24 27 6.9 4.0 1 23 1677 1699 1677 1699 0.95

29 37 0.053 6 9.0 0.1 2 23 1706 1727 1705 1727 0.96

30 37 1.2 1.4e+02 4.7 0.0 1 23 1733 1756 1733 1756 0.91

31 37 0.0012 0.14 14.1 6.6 1 23 1949 1971 1949 1971 0.98

32 37 0.33 38 6.5 0.1 1 21 1977 1997 1977 1998 0.94

33 37 0.43 49 6.1 1.2 1 23 2037 2060 2037 2060 0.92

34 37 0.0072 0.81 11.7 4.6 1 23 2083 2105 2083 2105 0.99

35 37 0.0088 1 11.4 7.6 1 23 2111 2133 2111 2133 0.99

36 37 0.64 72 5.6 5.5 1 23 2145 2167 2145 2167 0.96

37 37 0.085 9.6 8.3 0.1 3 23 2175 2195 2173 2195 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	37	0.00088	0.099	14.6	0.4	1	23	228	250	228	250	0.99
2	37	2.7e-06	0.00031	22.5	6.7	3	23	267	287	265	287	0.96
3	37	0.14	16	7.7	1.8	1	23	299	321	299	321	0.97
4	37	0.078	8.9	8.5	0.1	3	23	329	349	327	349	0.95
5	37	1.2	1.4e+02	4.7	0.0	1	23	355	378	355	378	0.91
6	37	0.00024	0.027	16.4	1.2	1	23	574	597	574	597	0.96
7	37	0.26	29	6.8	1.2	1	23	603	625	603	625	0.98
8	37	5.1	5.7e+02	2.8	0.6	12	23	630	641	629	641	0.91
9	37	0.5	57	5.9	0.9	1	23	653	675	653	675	0.91
10	37	0.17	19	7.4	0.1	2	23	682	703	681	703	0.95
11	37	2.2	2.5e+02	3.9	0.1	1	23	709	732	709	732	0.91
12	37	1.3	1.4e+02	4.7	0.2	1	23	964	986	964	986	0.91
13	37	0.0016	0.18	13.8	4.5	1	23	992	1014	992	1014	0.96
14	37	5.5e-05	0.0062	18.4	2.6	1	23	1020	1042	1020	1042	0.98
15	37	0.026	2.9	10.0	1.1	1	23	1048	1070	1048	1070	0.96
16	37	0.22	25	7.0	4.2	3	23	1077	1097	1076	1097	0.97
17	37	5.6e-05	0.0063	18.4	2.3	1	23	1103	1125	1103	1125	0.97
18	37	1.2e-05	0.0014	20.5	1.8	1	23	1132	1154	1132	1154	0.98
19	37	0.088	9.9	8.3	4.0	1	23	1166	1188	1166	1188	0.96
20	37	0.98	1.1e+02	5.0	0.1	2	23	1195	1216	1194	1216	0.95
21	37	1.2	1.4e+02	4.7	0.0	1	23	1222	1245	1222	1245	0.91
22	37	2.5e-05	0.0028	19.5	2.9	1	23	1462	1484	1462	1484	0.99
23	37	1.5	1.7e+02	4.4	0.1	1	21	1490	1510	1490	1511	0.89
24	37	1.6	1.8e+02	4.4	0.0	5	23	1513	1531	1512	1531	0.92
25	37	0.38	43	6.3	1.3	1	23	1548	1570	1548	1570	0.94
26	37	0.06	6.8	8.8	4.2	1	23	1576	1598	1576	1598	0.98
27	37	0.0017	0.19	13.7	0.8	1	23	1632	1654	1632	1654	0.96
28	37	0.24	27	6.9	4.0	1	23	1677	1699	1677	1699	0.95
29	37	0.053	6	9.0	0.1	2	23	1706	1727	1705	1727	0.96
30	37	1.2	1.4e+02	4.7	0.0	1	23	1733	1756	1733	1756	0.91
31	37	0.0012	0.14	14.1	6.6	1	23	1949	1971	1949	1971	0.98
32	37	0.33	38	6.5	0.1	1	21	1977	1997	1977	1998	0.94
33	37	0.43	49	6.1	1.2	1	23	2037	2060	2037	2060	0.92
34	37	0.0072	0.81	11.7	4.6	1	23	2083	2105	2083	2105	0.99
35	37	0.0088	1	11.4	7.6	1	23	2111	2133	2111	2133	0.99
36	37	0.64	72	5.6	5.5	1	23	2145	2167	2145	2167	0.96
37	37	0.085	9.6	8.3	0.1	3	23	2175	2195	2173	2195	0.95

Sequence Information

Coding Sequence: ATGCATTATGTTGTATTCCAGCTCTTTATCGATGATGACATGCCTTGTTATGCCTGCATTGATTGCACAAACACGTTTGAGTTCACCTTTCAATTTAAACAGATGTGCAAAAAGGCTGACGATCTTTTACGTCAATTCCCAGTAACAGGGGAATGGCCAGACAGTTTAGATAAACCCCTATTACTGGCAAATCAATTTCTCCAAGGAACATTAGCGACGCCGAATAAAACCAAAACGAATCAAGCCAACATGGAGCACACCGAGAAGATTTGTGTAGAGCACGAATCTTTGCTGTTGTCAAAAAAAGTATTGACCTCGTCTACAAGCTCATGTAGTGCTATGATCTCTTCCGACATCTCGTCACAATCCGAAAGAGACGTGGAtgacataacatttttaaataaaattggaaataatGAGTTATCGCTGAATCATACACGTCAATTAGTAGCCGCGGAAGATGTAATTGAAAGCAGTTATGTTGAAAGGGATAACGTACCGATGGAGATTGTTTCAGAAAATCAAACTTACAAaccaaaattgttaaataagtcatctttgaGAAACCTGAATAAAGAGGCGGAACCAGAGATTGAGCCTTGTTTAAGTTTACCGAAAGTTAATAAAGGTGTGAAGAGCAAAGCAGAAATAGTCGATGACATCCAACGTAGTGAGAAGCCCTATAAATGTTCACTATGTGATCAAGCTTTTTCGCTTTCAACCATGTTGGCAGATCACGAAAAGACCCATGTCGATGTACCCAAATATGAGCATGCAGGAGATGATGTATTACATCTTTGCAAATATTGTAAGAAATCATTTTCAAGGAGATTTAATTTGCAACGTCACATGCGATCACATAAAAACGTCGATGATCCCGGTAATGCCGTTTCTTTTATGTGTATGAGATGTAATTGTAATTTTGGAAACCGCGATGAGCTCATAAGTCATTCTATTACACATGCAAATGAAATGAATTTAGCATGTTCTTTGTGCAAAGATGTATTCGATAATGTATCAGATTTGAAGTCTCATATTCAAGATCATTCCCAAGTTAAGGCGTATGCATGTGAATTTTgcgatttgatttttttaactgcAGAAAAATTACAATCACATGCAGATATTGATCATATTAATGAAATGGCAGCATACCATACAGACGATCATGCGCAGTCCAAGGATCTTAGCGAAGACAATAAAAGCCAAATAAACATCATAGATATTGCAGATGAAAAGCTTCAAGAAACAACACATGATTCTTTCGTCAAACCCGTTTTACTTACAAATCAGTTTATCCAGGGAACATTAGCGATGCCGAGTGAAACCAAGTCGAATCAAGGCAGCATGCAAGATACCGGAGAAACTTCTGTACAGCAGGAATCTTTGTTATTGTCAAAAAGATTACTGAGCTCTTCAACAGAGATCTCGTCACATTCCGAAAGAGACGTGGATGACGTAacatttttagataaaattgGAAATAATGAGTTATCGCTGAATTATACACGTCAATTAGTAGCCGCGGAAGATGTACCGGTGGTGATTGTTTCAGAAAATCAAACTTACaaaccaaaattattaaataagtcATCAATGAAAAAGCTTAATAAAGAAGCGGAACCAGAGAATGAGCCTTGTTTAAATTTACCGAAAGTTAATAAAGGTGTGGACAGCAAAACGGAAATAGTCGATGACATCCAACGCAGTGAGAAGCCCTTTAAATGTGATTTATGTGATCAAGCTTTTTCGCGTTCAACCATGTTGGCGGCACATCACGAAAAGACCCATATGGATGTACCAAAATATGTATGCGTCCATTGTGATcagaattttttgttgaaagagGATATGGAAAAGCATGTCAAAAGTCACAACAAAAATCAACGGAGATATTGTTTGCAACGTCACATACGATCACATAAAAACGTCGATGATCCCGGTAATGCCGTTTCTTTTATGTGTATAAGATGTAATTGTAATTTTGGAAACCGCGATGAACTCATAAGTCATGTTGCTACCCATGCAAATGAAATGAATCTAGAATGTTCTTTGTGTAAAGATGTATTCGATAATATATCAGAGTTGAAGTCTCATGTTCAAGATCATTCTCAAGGTGAGACGTATGCATGTGAATTTTgcgatttgatatttttaacgGAAGAAAAATTACAATCACATGCGGATATTGATCATATTAATGAAATGGAAGAATACCTTACAGACGATGATGCTCGGACCAATGATCTCAAGGAAGATAATAAAAGCGAAATAAACATAGATATTTCCGATGAAAAGCTTCAAGAAACAACACATGATTCTTTCTTCAAGccagttttacttaaaaatcagTTTATCCAGGGAACATTAGCGATGCCGAGTAAAACCAAGTCGAATCAAGGCAGCATGCAAGATACCGAAGAAACTTCTGTACAGCAGGAATCGTTgttattgtcaaaaaaaatactGAGCCCTTCAACAGAGATCTCGTCACAATCCGAAAGAGATGTGGATtgcacaataaaatttttagataaaattgGAAATAATGAGTTATCGCTGAATGATACACGTCACTTAGTAGCCGTGGAAGATGTAAGTGAAAGCGGCTATGTTGAAAGAGATAATGTACCGGTGGTGATTGTTCCAGGAAATCAAACTTACAAACCAAAATGTTTGGATAAGTCATCTAAAAAAATCCCTAATAAAGAGGCGGAACCAGGAAAAGAGCCTTGTTCAAGTTTACTGGAAGGCATTGAAGATGTCGACAGCAGAACGGAAGTAGTTGTTTACTTCCAACGTGGTGAGAAGTCTAataacaaaaagacccatatggATGTACCAAAATATGAAGCAGATCCAAATACCGCTGTAATTGAAACCaatatatttccatgttcttaTTGTGAACTCTCTTTTCCATTATTACAACTGCGTGATATTCATATGAAAGACCATATTCCCAATGTTAAGTTTCAATGTGAGCACTGCGAAAAATCGTTCAGTTTCAAACATACATTGGCAGTTCACTCAACCATACACACTGGGAAGAGGCCCTTTAAATGTTTTGTGTGTGATGCAGCTTTTTCCCATAAAAGCTATTTGACGCGTCACGAAAAGATCCACACGGatgtaacaaaatataaatgcCCTCATTGTGAGCGTTCGTTTTTATTGAAAGAGGATATGGAAAATCATGTGAAAGGgcacaaaactaaaagaaaaatttgtaaagtttGCAATGCAACTTTTTCTTGTAAACAAAGTCTCTCGCGTCATCGACGCCAACATTCACGTCAACGACCCTATACTTGCCAGTACTGCGGAAAgggttttcaatataaatatcaaTTATCTCGCCATGTGAAGGACCATGCAGGAGATAAACTATCATATCCTTGCAAATATTGTAAGAAATCGTTTAAAAGAATTCCTAATTTGAAACTTCACTTGCAATCACATAAAAACGCGGATGATGCCGGTAATGCCGTTTCATTTATGTGTATGAGATGTAATTGTAAATTTGAAAACCGCGATGAGCTCATAAGACATTCTTTTACACATGCAAATGAAATGAATCTAGAATGTTCTTTGTGCAAAGATGTATTCGATAATGTATTAGATTTGAAGTCTCATATTCAAGATCATTCCCAAGTTGAGGCGTATGCATGTGAATTTTgcgatttgatttttttaactgcAGAAAAATTACAATCACATGCGGATATTGATCATATTAATGAAATGGAAGCATACCATACAGACGATCGTGCGCAGTCCAATGATCTTAGCGAAGACAATAAAAGTCAACTAAACATTATAGATATTGCAGATGAAAAGCTTCAAGAAACAACACATGATTCTTTCGTCAAACCGGTTTTGCTGACAAACCAGTTAATCCAGGAAACATTAGCGATGCCGAGCAAAATCAAATCGAATCAAGGCGGCATGCAAGATATCGGAGAAACTTCTGTACAGCaggaaacttttttattgtcaaaaACAATACTGAGCTCGTCTGCAAACTCATCTGGTGCTGACATCTCTTCAACAGAGATCTCGTCACAATCTGAAAGAGATGTGGATTGCacaataacatttttagatAAAAGTGAAAATGAGTTTTCGCTGAAGGATATACCTCACTTAATAGCCGCAGAAGACGTAAATGAAAGAGGCTGTGTTGAAAAGGATAATGCACCGTTGGCTATTGTTTCAGGAAATCAAACTCACAAACCAAAATGTTTGGATAAGTCATCTAAAAAAATCCCTAATAAAGAGGCGGAACCAGAGAAAGAGCCTAGTTTAAGTTTACTGGAAGGTATTAAAAACGTGGATAGCAGAACGGAAATATCTGTTGGTTTTCAACGTGGTGATAAGCCCTATAAATGTTCTGTATGTGATCAAGCTTTTTCGCGTTCAACGATGTTGACACATCACGAAAAAACCCATACGAATGTACCAAAATATATATGCGTCGATTGTGATCAGTCCTTTTTATTGAGAGAGGATATGGAAAAGCATGTTAAAAGTAAAGTCTGCAATAAAAGCTTTGCTGCTAGTGAATCTCTCGAGGGTCataatttaatacataaatttaaagcAGATCTAAATAATACTGATGTAATTGAAACCAGTGTATTTCCATGTTCTCATTGTGAACGCACTTTTCCATTGGTACAACAGCGTGATATTCATATGAAAAACCATTGCCGCGAACGTAAATTTAAATGCGACTACTGTGAAAAATCGTTCCTTCGCGAAGATCATAAGATAACACACTCTCGCACTCACACTTGCCTGTCCCCATTTAAATGTTCTGTTTCTCAGAAAGCTTTTAAACGTGGAACATGTTTGAGAAGCCACGAAAAGCTACATAGTAATGCACCAAAACATATATGCCAGTACTGCGAACAGAGCTTTCCAAATGCTGCCAAATTGTATAATCATTTGAAAGCCCATGCTGGTAATAGACGATATCACTTGCGATCTCATAAAAACGTCAATGATTCCGATAATTCCGTTTCCTTTATGTGCACGAGATGTAATTGTCATTTTGGAACCCGCGATGAGCTCATAAGTCATTCTTCTATCCATGCAAATGAAATGAATCTAGAATGTTCTTTGTGCAAAGATGTATTCGATAATATATCAGATTTGAACTCCCATATTCAAGGTCATTCTCAATTTGAGGTGTATGCATGTGAATTTTgcgatttgatatttttaactGCAGAAAAATTACAATCACATGCGGATATTGATCATATTAATGAAATGGAAGCATACAATACCAACGACTTCATGCGGCCCAATACTCTAAAGGAAGACAATAAAAGCGAAGCAAACATTATAGATATTACAGATGAAAAGCTTCAAGAAACTACATGTGATTTTTTCGTCAAACCCATTTCACTGACAAGTCAACTTATCCAGGGAACATTAGCGACGCCAAGTAAAACCAAAACGAATCAAGCCAGCATGGAGCATACAGGGAAAACTTCTGTACAGAACGAATCTCTTGTGGAAAAAGATGTGGATTGCacaataacatttttagataaaattgGACATAATGAGTTATCGCTGAATGATACACGTCACTTAGTAGCCGTGGAAGATGCAAGTGAAAGCGGCTATGTTGACAGGGATAATGTACCGGTGGTGATTATTTCAGAAAATCAAACTAACaaaccaaaattattaaataagccATCTATGGTAATCCTTAACAAAGAGGAGGAGGAACCAGAAAATGACCCTTGTTTAAGTTTACCGAAAGTTAATAAAGATGTGGACAACAGTATGGAAATAGTTGTTGACTTCCAACGTGGTGAGAAGCCCCATAAATGTTCTGTATGTGATCAAGCTTTTTCGCATTCAACCATGTTGACACATCACGAAAAGACACATACGGATGTAGCAATATATATATGTGTCGATTGTGATGAGTCCTTTTTATTGAAAGAGGATATGGAAAAGCATATCAAAAGTAAAGTTTGCAATAAAAGCTTAGCTTCTACTCGTAGTGAAGCTCTCGAATCTGGTAATGTAATACATAAGCGTGAAGAAGATTCAAATAATACCGATGTAATTGAAGCCTATGTATTTCCATGTTCTCATTGTGAACGCGCTTTTTCATTGGTACAACAGCGTGATATTCATATGAAAAACCAACACCGCGAACgaTTTGTTACTAAGAGACCTCTTGAGAGTCATGAAGCAGTTCATTCACGCCAAAAGCTCTATAAATGCCAGTACTGCGAAGAGAGCTTTCTAACTTCTTCCAAATTGTTTCATCATTTGACCACCCATGGTGGTAATAGGCGATATTATTGCAAATATTGTAAGAGATCGTTTTCAACAATACATATTTTGAGACATCACTTGCGAACTCATAAAAAGTTCGTTGATCTCGAGAATGGCgttttatttatgtgtatgagATGTAATTGTCATTTTAGAACCCGCGATGCGCTCGTAAGTCATTCTACTACCCATGCAAATGAAATGAATCTTGCATGTTCTTTGTGCAAAGATGTATTCGATAATATATCAGATTTGAAGTCTCATATTCAAGATCATTCTCAAGAAAAATTACAATCACATGCGGATATTGATCATGATAATGATATGGAAGCATACAATACCAACGACTTCATTCGGCCCAATAAACCTAAAGAAGACAATAAAAGCCAAATAAACATCATAGATATTGGAGATGAAAAGCTTCAAGAAACAGCATATGAGTTTTTCGTCGATGAATTTCCTTGTGAAGGAAACGATTCGATGATCGATATAAAGGAAGAAACAGACGATCATGCTCGGGCCCATGAGCTTAGGGAAGATAATAAAAGCCCAATAAACATTATAGATATTGcagatgaaaagcttcaaaaaaTATCGCATAATTTTTTCATCGATAAATTACATTGCGAAGAAACCGAATCGGAGATTTCATTAAAGAAAGATATAAAAGTAGAAacagaaacaccatctcaaaaaatcttcaacCAAATAATCCAAAGCGGAAATGATGAAATTGAAGGGGATCAAAATTTATTAAGCCCGTTGAAGCAACGGAATCTGAAAATGCCCCAACAAGCAACAAAATCACGAATATCGAGGCGAAAAGTCGAAAATGTTACAGGAGCACCGGTAGCATGTGACAATGTGCCAACTTCATCAAAACTGCCTCCATCAAAAAAAAACATCCCATAA
Protein Sequence: MHYVVFQLFIDDDMPCYACIDCTNTFEFTFQFKQMCKKADDLLRQFPVTGEWPDSLDKPLLLANQFLQGTLATPNKTKTNQANMEHTEKICVEHESLLLSKKVLTSSTSSCSAMISSDISSQSERDVDDITFLNKIGNNELSLNHTRQLVAAEDVIESSYVERDNVPMEIVSENQTYKPKLLNKSSLRNLNKEAEPEIEPCLSLPKVNKGVKSKAEIVDDIQRSEKPYKCSLCDQAFSLSTMLADHEKTHVDVPKYEHAGDDVLHLCKYCKKSFSRRFNLQRHMRSHKNVDDPGNAVSFMCMRCNCNFGNRDELISHSITHANEMNLACSLCKDVFDNVSDLKSHIQDHSQVKAYACEFCDLIFLTAEKLQSHADIDHINEMAAYHTDDHAQSKDLSEDNKSQINIIDIADEKLQETTHDSFVKPVLLTNQFIQGTLAMPSETKSNQGSMQDTGETSVQQESLLLSKRLLSSSTEISSHSERDVDDVTFLDKIGNNELSLNYTRQLVAAEDVPVVIVSENQTYKPKLLNKSSMKKLNKEAEPENEPCLNLPKVNKGVDSKTEIVDDIQRSEKPFKCDLCDQAFSRSTMLAAHHEKTHMDVPKYVCVHCDQNFLLKEDMEKHVKSHNKNQRRYCLQRHIRSHKNVDDPGNAVSFMCIRCNCNFGNRDELISHVATHANEMNLECSLCKDVFDNISELKSHVQDHSQGETYACEFCDLIFLTEEKLQSHADIDHINEMEEYLTDDDARTNDLKEDNKSEINIDISDEKLQETTHDSFFKPVLLKNQFIQGTLAMPSKTKSNQGSMQDTEETSVQQESLLLSKKILSPSTEISSQSERDVDCTIKFLDKIGNNELSLNDTRHLVAVEDVSESGYVERDNVPVVIVPGNQTYKPKCLDKSSKKIPNKEAEPGKEPCSSLLEGIEDVDSRTEVVVYFQRGEKSNNKKTHMDVPKYEADPNTAVIETNIFPCSYCELSFPLLQLRDIHMKDHIPNVKFQCEHCEKSFSFKHTLAVHSTIHTGKRPFKCFVCDAAFSHKSYLTRHEKIHTDVTKYKCPHCERSFLLKEDMENHVKGHKTKRKICKVCNATFSCKQSLSRHRRQHSRQRPYTCQYCGKGFQYKYQLSRHVKDHAGDKLSYPCKYCKKSFKRIPNLKLHLQSHKNADDAGNAVSFMCMRCNCKFENRDELIRHSFTHANEMNLECSLCKDVFDNVLDLKSHIQDHSQVEAYACEFCDLIFLTAEKLQSHADIDHINEMEAYHTDDRAQSNDLSEDNKSQLNIIDIADEKLQETTHDSFVKPVLLTNQLIQETLAMPSKIKSNQGGMQDIGETSVQQETFLLSKTILSSSANSSGADISSTEISSQSERDVDCTITFLDKSENEFSLKDIPHLIAAEDVNERGCVEKDNAPLAIVSGNQTHKPKCLDKSSKKIPNKEAEPEKEPSLSLLEGIKNVDSRTEISVGFQRGDKPYKCSVCDQAFSRSTMLTHHEKTHTNVPKYICVDCDQSFLLREDMEKHVKSKVCNKSFAASESLEGHNLIHKFKADLNNTDVIETSVFPCSHCERTFPLVQQRDIHMKNHCRERKFKCDYCEKSFLREDHKITHSRTHTCLSPFKCSVSQKAFKRGTCLRSHEKLHSNAPKHICQYCEQSFPNAAKLYNHLKAHAGNRRYHLRSHKNVNDSDNSVSFMCTRCNCHFGTRDELISHSSIHANEMNLECSLCKDVFDNISDLNSHIQGHSQFEVYACEFCDLIFLTAEKLQSHADIDHINEMEAYNTNDFMRPNTLKEDNKSEANIIDITDEKLQETTCDFFVKPISLTSQLIQGTLATPSKTKTNQASMEHTGKTSVQNESLVEKDVDCTITFLDKIGHNELSLNDTRHLVAVEDASESGYVDRDNVPVVIISENQTNKPKLLNKPSMVILNKEEEEPENDPCLSLPKVNKDVDNSMEIVVDFQRGEKPHKCSVCDQAFSHSTMLTHHEKTHTDVAIYICVDCDESFLLKEDMEKHIKSKVCNKSLASTRSEALESGNVIHKREEDSNNTDVIEAYVFPCSHCERAFSLVQQRDIHMKNQHRERFVTKRPLESHEAVHSRQKLYKCQYCEESFLTSSKLFHHLTTHGGNRRYYCKYCKRSFSTIHILRHHLRTHKKFVDLENGVLFMCMRCNCHFRTRDALVSHSTTHANEMNLACSLCKDVFDNISDLKSHIQDHSQEKLQSHADIDHDNDMEAYNTNDFIRPNKPKEDNKSQINIIDIGDEKLQETAYEFFVDEFPCEGNDSMIDIKEETDDHARAHELREDNKSPINIIDIADEKLQKISHNFFIDKLHCEETESEISLKKDIKVETETPSQKIFNQIIQSGNDEIEGDQNLLSPLKQRNLKMPQQATKSRISRRKVENVTGAPVACDNVPTSSKLPPSKKNIP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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