Basic Information

Insect: Glossina morsitans
Gene Symbol: -
Assembly: None
Location: scf7180000648815:43377-61009[+]

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 34 0.023 1.2 9.2 3.0 2 23 199 221 199 221 0.96

2 34 0.0028 0.15 12.1 1.2 2 23 252 274 251 274 0.96

3 34 0.0018 0.097 12.7 0.2 3 23 285 305 283 305 0.96

4 34 0.0001 0.0055 16.6 1.1 1 23 314 336 314 336 0.96

5 34 0.0012 0.065 13.2 1.4 2 21 346 365 345 368 0.94

6 34 8.1e-06 0.00044 20.0 2.0 1 23 387 409 387 409 0.98

7 34 0.00029 0.016 15.1 1.5 1 23 415 437 415 437 0.96

8 34 0.00069 0.038 14.0 1.2 1 23 442 464 442 464 0.97

9 34 0.00015 0.0083 16.0 4.7 1 23 470 492 470 492 0.98

10 34 0.00026 0.014 15.3 2.3 1 23 498 521 498 521 0.95

11 34 0.034 1.8 8.6 1.1 2 23 1095 1117 1094 1117 0.96

12 34 0.0071 0.39 10.8 0.8 2 23 1171 1193 1170 1193 0.94

13 34 0.018 0.96 9.5 2.2 2 23 1455 1477 1454 1477 0.96

14 34 0.0063 0.35 10.9 0.0 3 23 1488 1508 1486 1508 0.96

15 34 2.6e-05 0.0014 18.4 0.9 2 23 1518 1540 1517 1540 0.95

16 34 0.0017 0.091 12.7 0.9 1 23 1545 1567 1545 1567 0.98

17 34 0.00013 0.007 16.3 1.1 2 23 1574 1595 1573 1595 0.97

18 34 0.013 0.69 10.0 0.4 1 23 1600 1622 1600 1622 0.96

19 34 0.0064 0.35 10.9 1.8 1 23 1628 1650 1628 1650 0.97

20 34 0.094 5.2 7.2 2.9 1 23 1656 1679 1656 1679 0.95

21 34 1.1 60 3.9 1.4 2 23 1892 1914 1891 1914 0.94

22 34 0.0003 0.016 15.1 0.1 2 23 1924 1945 1923 1945 0.97

23 34 0.0092 0.5 10.4 0.9 2 23 1996 2017 1995 2017 0.97

24 34 0.0013 0.068 13.1 0.6 2 23 2026 2048 2025 2048 0.95

25 34 0.00031 0.017 15.1 2.0 1 23 2053 2075 2053 2075 0.98

26 34 0.00011 0.006 16.5 1.0 2 23 2082 2103 2081 2103 0.97

27 34 0.0018 0.098 12.7 0.5 1 23 2108 2130 2108 2130 0.96

28 34 1e-05 0.00055 19.7 3.2 1 23 2136 2158 2136 2158 0.98

29 34 0.052 2.8 8.1 1.8 1 23 2164 2187 2164 2187 0.94

30 34 0.3 16 5.7 1.6 2 23 2458 2480 2457 2480 0.95

31 34 6e-06 0.00033 20.4 1.4 2 23 2490 2511 2489 2511 0.97

32 34 4e-05 0.0022 17.9 0.8 2 23 2521 2543 2520 2543 0.95

33 34 3.1e-05 0.0017 18.2 0.4 1 23 2549 2571 2549 2571 0.98

34 34 0.15 8 6.6 1.0 1 17 2577 2593 2577 2594 0.90

#	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	34	0.023	1.2	9.2	3.0	2	23	199	221	199	221	0.96
2	34	0.0028	0.15	12.1	1.2	2	23	252	274	251	274	0.96
3	34	0.0018	0.097	12.7	0.2	3	23	285	305	283	305	0.96
4	34	0.0001	0.0055	16.6	1.1	1	23	314	336	314	336	0.96
5	34	0.0012	0.065	13.2	1.4	2	21	346	365	345	368	0.94
6	34	8.1e-06	0.00044	20.0	2.0	1	23	387	409	387	409	0.98
7	34	0.00029	0.016	15.1	1.5	1	23	415	437	415	437	0.96
8	34	0.00069	0.038	14.0	1.2	1	23	442	464	442	464	0.97
9	34	0.00015	0.0083	16.0	4.7	1	23	470	492	470	492	0.98
10	34	0.00026	0.014	15.3	2.3	1	23	498	521	498	521	0.95
11	34	0.034	1.8	8.6	1.1	2	23	1095	1117	1094	1117	0.96
12	34	0.0071	0.39	10.8	0.8	2	23	1171	1193	1170	1193	0.94
13	34	0.018	0.96	9.5	2.2	2	23	1455	1477	1454	1477	0.96
14	34	0.0063	0.35	10.9	0.0	3	23	1488	1508	1486	1508	0.96
15	34	2.6e-05	0.0014	18.4	0.9	2	23	1518	1540	1517	1540	0.95
16	34	0.0017	0.091	12.7	0.9	1	23	1545	1567	1545	1567	0.98
17	34	0.00013	0.007	16.3	1.1	2	23	1574	1595	1573	1595	0.97
18	34	0.013	0.69	10.0	0.4	1	23	1600	1622	1600	1622	0.96
19	34	0.0064	0.35	10.9	1.8	1	23	1628	1650	1628	1650	0.97
20	34	0.094	5.2	7.2	2.9	1	23	1656	1679	1656	1679	0.95
21	34	1.1	60	3.9	1.4	2	23	1892	1914	1891	1914	0.94
22	34	0.0003	0.016	15.1	0.1	2	23	1924	1945	1923	1945	0.97
23	34	0.0092	0.5	10.4	0.9	2	23	1996	2017	1995	2017	0.97
24	34	0.0013	0.068	13.1	0.6	2	23	2026	2048	2025	2048	0.95
25	34	0.00031	0.017	15.1	2.0	1	23	2053	2075	2053	2075	0.98
26	34	0.00011	0.006	16.5	1.0	2	23	2082	2103	2081	2103	0.97
27	34	0.0018	0.098	12.7	0.5	1	23	2108	2130	2108	2130	0.96
28	34	1e-05	0.00055	19.7	3.2	1	23	2136	2158	2136	2158	0.98
29	34	0.052	2.8	8.1	1.8	1	23	2164	2187	2164	2187	0.94
30	34	0.3	16	5.7	1.6	2	23	2458	2480	2457	2480	0.95
31	34	6e-06	0.00033	20.4	1.4	2	23	2490	2511	2489	2511	0.97
32	34	4e-05	0.0022	17.9	0.8	2	23	2521	2543	2520	2543	0.95
33	34	3.1e-05	0.0017	18.2	0.4	1	23	2549	2571	2549	2571	0.98
34	34	0.15	8	6.6	1.0	1	17	2577	2593	2577	2594	0.90

Sequence Information

Coding Sequence: ATGAGTGAATGGCAATTTTGGTGTCGCTTATGTGCTGACCGGAATTCGGAATGTTACACTAATACTTTTCATTGCGAAGCTCTGAAGGCTGCCAATCCAAATATGACTTTAGTCCAAGTCATTGAAAAATGTTTTTCGGTGAAAATAACCCCGGAAGATGATTTGCCCAAAGTTGTATGTTCCGAATGCCTACGCCTCATTAACGGCATCGTCCAGTTTAGCGAACGTGTTATTAAAGTACAGGAAATGTTCAACCATTTGATATGTGACGCTAAACAAAGTCAACTTAACATTGATGTAAATGATGATACATTTGCGAGTAAAAAGTCTGCTATAACGACTGGCGAGCAAAGCCCAACATGTAGCCGAATATCTGAAACATCTATACATATTAAAGATGAGCTCGAAGGAGAAGAGGACAAAAACATTGAGGTGATTAGAGGGCTGTGGAGAGAAGAACACATTTATGAACCCAATGCGGACCCAAAAGATGGCTCGTGCTGTGATTCGGATCCGTTTAGTAGCATGGAAGACGAAAAATTTAATCACTTTCGTAACCAAAAGGAAGACAAAAACACAGTAATAGTCAATAGAGAATGCAACGAATGTGCTAAAGAATTTAAATCTTGTGATTCATACCACGAACATCTGAGGCTAATACATGATACTCATTTCGACGAGCAATCCCAAAAAATAGAAAATGGCAGATCGTGCGAGTTGCACGCTAAAGCAGGAGACATTAGCTTAAATATGTCGTGCAACGATTGTGGACAGCAGTTCGAAACATTTTATACTTATAAAGGGCACTTGAAAACCACACATGGCAAAGGCAGGGCTCATGAAAAGTGGGATTGCCCCCTGTGCGACGCCACTGCGTCAAACAGTTATAGCTTTAGACGCCATCTAATGAGCCACATATCAGATAAGGAAAAAAGAACCCATCCGTGTTCATTGTGCGATAAGAGTTTCGAAACATATTCCGGACTGCGTATTCATCTATCCCAGCATGAATCACCGGCAGAACGGAACGTGATACCATGCCCACATTGCGCCAAATATTTTTCGACAAATGAGTTGCTGCAAGCGCATATCAAGTGCATGCACGTTAATTGGAGACGAAAACAAGTAACGAGCAAAAAGTACCAAGACGAAAAACATTTTGTCTGTGAAGAATGCGGCATGTGCTTGCGCAATAAAACCAATTTAAAAATTCATATGCAAAGACATAGTGATAGTGCGCCGTTTGAATGTGAAATATGCAAGAAGCGTTTTAAGAATTCCAGGCGGTTGAAGATACATAGTGAAATTCATGATTCACAGAAACACGTTTGCACTGTTTGTGGTCAACAATTAAATACCCGCAACACATTGAAACAGCATATGTTAGTACATACTGGCAACAAACAACACAAATGTGATTATTGTGATCAAGGTTTCCATAGTTCATCAACCTTGAAAAGACACTTAATATCCCATAGCGGTATTAGACCTTACGCCTGCAATTTTTGTGATCGAGCCTTCACAAATCGGACCAATTTTCGTGTACACAAAGaaaaaaaGCATCCTGGGGAATTGGCTGCTTTAGAAGCCGCTGGTGTAGGCAAACACATTGCTCAAAAATTACCTACCTTGGAAACCTTAAAAGCTCTTTTTTATGTTGGTTTTACGATtgtcaataaattgaaaaactattctaaaaaattggaaacaatgtctaTACAAGGATTGAGCTCTGATATGCAGATATGTCCAGCAAACGATTGGTTCATGTGGTGTCGGTTGTGTGCGGAAAGTGATTCTGGGAATGTCAAAGTTAATATATTTGAAGAGCCAAACAATAGTGAAGAAGTAGAAGTAGGTTTGGTTAGTGCCATTAACAAATATTTTGGAGTAAAAATATCCCAGGAAGATTCATTACCTAAAGTATTATGTACTCATTGTTTTAATGTAGTAACTGCCGTAGTTAATCTGCATGAACGTGTTGTTAAAGTGCAACAGATGTTTAATGCTTTGATCTACGATTCTACGCAAGAACTCGACGATTTGCAATCAACTGCGGTTTTCATAAATAATGCTTTTCAAAAAGAAGAGGTACAATATTTTTTGGAAGTGAAAAGTGAATTAACTGAAGAAGATACGATAAGCAGTGAAGTTTCAGGAGCAGCTATTGAGCAAAACCAGATTTTTAATGCTACGGAAAATGGAAACGAAGAGGACCTTTTAATGGAAATAGAATCACCGAAAATGTTACAAGGCTTTGAAGCTCACTATGCACCGGAAGCTACCAGTAGCAATTTATATGACGGTAGAAAAGataataaaataataatgcaaacggatgaaatttccaatagaaaaaagtctgaaaatgtaaaatgGCATTTATGGTGTCGCCTATGTGCAAGCAACGATTTGAGAAATGGAAACATTAACATATTTCAAAAGTTAAAAGATAAGGAATATATGACATTGAACGAGGCCATTTACAAATACTTTAACGTAAACATAACACCGGAAGATCCTTTACCAAAAGTGTTATGTTGTTATTGCTTCGATTTAATTAATGCCGTAATCGATTTCAATGAACGCATATTCAAAGTTCAGAAATTATTTTCAACTTTCAATTCAAATTTTGGGCAACCGTTCAGATTACAATTAATACCGGACAACAAAATTCATGATTTCTGGAAATTGCAATCTACTAATATAGGGATGAAGGAAAAGTCTGGCAATCGTAAGCTTTCAGTGAAATTTAAAGATGAAATTACCGAAGAAAGTAAATCAAAAGTAACTAAAAATCTTCGAGAGAAGATACACTACAAAGAGGGAAAGATAAAAGAATTTAATAATTCCTTTAGTAACATGCAAAAGTTTTCTGAGAATGATAAGGATATTCCTCAAAATAGGAGaaaaaagaaaaaaaCTACAGTCAAAAGTAATGGGATTTTTCTTGAAAACAACTCGCCTAATAAGAAAATTGTTTTAATAGAAGAATTTAAAAATAAAATGGAAACCGAAGAACTTATTGATACCATAGGAAATGCGTTTAACGAAAAGGTTGGAAATAACGCCCAAACAGGTCCTAAGCaaaaaaaCAATAAAACTAATAGAAACGATATAGAAATAAAGCAATTCGGAGAAAAAGGATCGAACGAGCCGAAAGAGTCAATTAATACTGTGGCAGTAAATATGGCAAAAGATAATAATAATCACCTCCTTCAGGAAAAAAGTAAAGCATTACGTAAGTCTTACACAAGGGTACAAGACTTTGAATTAGATATCACATGTAAAAAATGTGGCGAACAATATAAATCGTTTTTTCCATATCGGCAGCATTTAAAATCGGCACATTCGGAGACCTGGTCTGGTGGCAAATGGACATGTCCTGATTGCGATGCAACTTTACTATCCGGCGCTGGCTTAGCGCGACATGTTCTGTTTCATAATAGCTCCCATCACGAAACCATTTATAAATCTTCCCAAAGTTTAGGGGACATTAAAATGAAAATACCGTGTAAAAAATGCGACATACAGTTCAAATCTTTTTTCCAATACCGTCAACATTTAAAAGCTGCGCACAACTTGGGAAAGATTCATGACGAATGGTCCTCTAGTACCAAGGAGCAGACAATTAAGAACAATTGGCAGTTATGGTGCCGTTTGTGCGCACAAGAGGATTTCTCAGAGAAAATTCAtttttttCGCAATGACAAAACCGCAGTTAATATCAGGAATATTTCGCTTATTGAAGCCATTGAAAGTTATTTTAACATTACAATATCGGACGAGGATTACTTGCCAAAAACGATGTGTAAAAAGTGTTTCAACTTAATCACGGCCCTAGTTAATTATAGTGAACGCATATCCAAAGCTCAAAAAATGTTTAATAACTTACTTTTAAAAGCGGAGGAGGAGTACTGTGATCTTCAGTCCGTACGTTTGAAATTCGGGTTGATGGATGACGAGATACTATCTCAATTTCCCATTGCCGAAATTCACTACTTTGAAACAAAGCTTGAAACGACTGAAATCGAGAACAATTCAATTAAAAAGGATGTTTCAGAAATTTCTTCATCACCTACTATAAAAGGTGAACTCAGGAAAGCGAACGATATTGAAATGAATGTGGAAGTGGAAGGATGTCGTGAAGAACCATTATATGACGAAGAAAACGAATGCGAAAGTGCTGATGACGAAGAAGACCCTTTTAGCAGCGTTGGTGAAGACAAGGATTATAATTTagaagaaaatattttgaatgggaagaagagaaaaaaattgaaaagaaaagctaaacatagaaagaGTAAGAGCAAGGAACAAGATATCGAAAACAATTTAGAAGATATTAAATTAGACATTACTTGCAAACATTGCGATGAACAGTTTACATCTTTTCAACCTTATCGCCAGCATTTAATAACGCAGCACGATCAATATACAACTCCAAAAGAATGGATATGTCCTGCATGTGATAAAATACTTACGTCGAGCATTCGCTTAGAGCGTCATCTTAGAGTTCACATACCGCGGGAGGAGCCTGAGGTACTGCCTTGTCCTGAATGCGGCAAGCATTTTCCTACAAATACTCGCCTAAAAGCTCACATTAAATATAAACATAAACCTGAACGTTTTATGTGCGAAGAATGTGGGGCCTGCATAACCACGAAAGCTAACTTGCAATTTCACATGTTAACGCACACCGATAATGCTCCACTAGAATGTGAAGTTTGTAAAAAGAAATTCAAATATGCAAGACGCCTTAAGATTCACATGGAGACACATGATTCGCAGAAGCACATCTGCAACATATGCGGTCTTCAGTTAAACACACGTATAACACTAAGAGGACACATGTCTGTGCATAACGATATTATGAAATACAAATGTGAATTTTGCGGTCGGGCTTTTAAGCTATCCAAGACGCTAAAATTCCATTTAATATCGCATACTGGTCTGAAGCCGTATACTTGCGATTTTTGTGATCGCGCCTTTACGAACGGAGCAAATTGTCGTTTGCACAAGAAAAAAGTTCATCCGGAAGAATGGGCCGCTTTAGAAGCGGCGGGACGTACAAAAAATGTCGCACGCACTTTGCCCAATATAGAAACTTTAAAGGCACTTACAAGAGCTGCAGGCAATTTGACGTCAATAGTTAACAAGCAAGGAAACGGTGGTAAAAAATTTCATAATCAAGATGACATCGTCTTGGCGAACACATTGAAACTAAGCGAAATTGTCAATGATGAACAAGAGGAACTGCTAAGTGATGAAAATTTAGAAATATCGTCACGTTTTACACGAATAAAAGAGGAAGCTATTGGCGACGACGTGAAAAGAAAAAAGGTGGAAGAAGCTCTTTCAATGGAAGAGTGCCGCGAAGTACCCTTTTATGAAGATTCAAATGGCTTTAAAAGTTCAGATGAAAGGGAAGATCCATTCAGTAGCGCGCAAGAGGATATGGATTACAACATTGGAGAAGATATCAAAAATATTAAAAAATTAAGGAGCTTTTCCAAACACAAGCGCAAAAAGGAAACAGATGGGGAATTTGATAATCACAGTGAAAATGCAGAGGTCGGGTACGcaaaaacaaaacaaagaagaaagaaatcccaaggaaagagcaagagtaattgtcaagtcaaaagaCGTGACATTGAACTAAATATCCCGTGCAAAGAATGCAATCAAATGTTTGATTGTTTCCCTACGTATCGTCAACATTTAAATACAGCCCACGGGCTAGACGACAATTTGAAAGATTGGAAGTGTCCTTTATGCGGCAAAATCTTAACTTCTGCGTCTCGTCTTGAACAACATGTGAAAAGTCATTTAGAAAATAAACGCGAGTTCCGAACTAAAACACTAAATATTAAATTAGATATTACTTGCAGAGAATGTAGTGAAAAGTTCGACTGCTTTGAGAAATATCATCAACATTTAAATTCGGCGCACGGCCAACTTGATAACGTAAAAGAATGGAAATGTCCTTCATGCGAAAAAGTCTTGACCTCCGTCCATCGACTGGAACAACATTTAAGAAGTCATGTGCCGCGAGAACCTAAAATGTTACCCTGTTCAAAATGTGGAGCTCATTTTCCAACAAATGGTCGCTTAAATGCGCATATCAAGAACAAGCATAATACCGAACGTTTTATGTGTGAAGAATGCGGCCTGTGTCTAAGTACTAGTTCCAATTTAAAATTCCATATGCTAACGCACACGGATATTGCTCCATTAGAGTGTGAAGTGTGTAAAAAACGATTTAAATATGCCCGACGTCTAAAGATCCATATGGAAACGCATGACTCCCAGAAGCATATTTGCAATATATGTGGTTTACAGTTAAACACTCGAATCACTTTAAGACGGCATATGGTGGTGCACAATGATATAATGAAATATAAATGTGACTTTTGCGGTCGCTCTTTCAGGCAAAAGAAAACGTTAAAGTATCATTTAATATCACACGCTGGTCTCAAGCCGTATACATGCGACTTATGTGATCGTGCCTTTACTAACGGTGCCAATTGCCGTTTACATAAGCAAAAAATTCATCCTGAGGAGTGGGCTGCTTTAGAAGCAGCGGGTCGTACTAAAAACATAGTTCAACGTTTGCCTAATATTGAAACATTAAAAACATTAATAAAGTGGCAATTATGGTGCCGTTTGTGCGCCAGTAACGATTTCCAAAATAATATTAATATCTTCCAAGATGACGTAAAATTACTAGGAATTAATAAAGACATGTCGCTAAGGAAGGCTATAGAAAAATATTTCCAAATTCAAGTTCTGCAAGATGATATAATGCCCCGGATGGTGTGCTCTGATTGTTTAAGTTTTATTGATTGCCTTGTTTCCTTTAACGAGCGTATACTTAAAGTACAACAGATGTTTACTACTTTAAGCTCCACATCTGAACAAGAACTTGGCGATTTGGAGCAAATACGGTTGAAGTACGTCGTGTTTGATGATAAGGGCGATAAAAATTATTCTCAACTCTCGTTAGCTGAAGTCCATTATTTCGAAGCAAAGCACGAAATAGATATTGaaaaaaaTGTTATAAATAATGGGACTCCAGAAGGTTATAATTGTCGTATAGATCTAAAAGAAGAAATCAACGGAGATGTCCAAGTTATTAGTGAGGAAATAATGGATGTTGAAGAAGAAGGATACCAATGTCGGGAAGAAGCTTTTTATGATGTTATTGaaaaaaaTTGTCATGGTCAAGGCGAAGAGAAAGATCCTTTCAGTAACGTCGAAGAAGATAAGAATGAACAATCTTCTCCAGGAACAAAGCGGAAAAAGTTaaaaaaaCCGAAGCATAAGACTAATGAGGAGTTACAAAAAGATGTTAAATTAAATGTCGAATGTAGGGACTGCAACGCACATTTTCAGTCATTTCGGCTGTACAGTAAACATTTGAGAGAAGTGCATAAGCAAGAAGACGCTCTAAAGGAATGGAAGTGTCCTACTTGTGAAAAAATTGTGAGTACGAGTTATCATTTGGAGCGACATCTTAGAACTCATGTACCGCTGGAAGAGCGAAAAGTTGTGTCATGTTCCGAATGTGATAAACGGTTTTTCACTAATACTCAGCTAGAAGCTCACATAAAATACAGACATAAAAATGAAAAACCTTTTATCTGCGAAGAATGCGGTATATGTCTGCGCACAAATGCTAACCTTAGAATACATTTATTAACGCACACCGATATAGCACCGTTCGAATGCGAAGTTTGTAGaaaaaaaTTTAAGGATCGTACTAGGTTAAAGTCTTTGGATAGACGCATATGGATATACACAGTCCCAACAAACACGTTTGTGCTATGTGCGGGCTACAATTGA
Protein Sequence: MSEWQFWCRLCADRNSECYTNTFHCEALKAANPNMTLVQVIEKCFSVKITPEDDLPKVVCSECLRLINGIVQFSERVIKVQEMFNHLICDAKQSQLNIDVNDDTFASKKSAITTGEQSPTCSRISETSIHIKDELEGEEDKNIEVIRGLWREEHIYEPNADPKDGSCCDSDPFSSMEDEKFNHFRNQKEDKNTVIVNRECNECAKEFKSCDSYHEHLRLIHDTHFDEQSQKIENGRSCELHAKAGDISLNMSCNDCGQQFETFYTYKGHLKTTHGKGRAHEKWDCPLCDATASNSYSFRRHLMSHISDKEKRTHPCSLCDKSFETYSGLRIHLSQHESPAERNVIPCPHCAKYFSTNELLQAHIKCMHVNWRRKQVTSKKYQDEKHFVCEECGMCLRNKTNLKIHMQRHSDSAPFECEICKKRFKNSRRLKIHSEIHDSQKHVCTVCGQQLNTRNTLKQHMLVHTGNKQHKCDYCDQGFHSSSTLKRHLISHSGIRPYACNFCDRAFTNRTNFRVHKEKKHPGELAALEAAGVGKHIAQKLPTLETLKALFYVGFTIVNKLKNYSKKLETMSIQGLSSDMQICPANDWFMWCRLCAESDSGNVKVNIFEEPNNSEEVEVGLVSAINKYFGVKISQEDSLPKVLCTHCFNVVTAVVNLHERVVKVQQMFNALIYDSTQELDDLQSTAVFINNAFQKEEVQYFLEVKSELTEEDTISSEVSGAAIEQNQIFNATENGNEEDLLMEIESPKMLQGFEAHYAPEATSSNLYDGRKDNKIIMQTDEISNRKKSENVKWHLWCRLCASNDLRNGNINIFQKLKDKEYMTLNEAIYKYFNVNITPEDPLPKVLCCYCFDLINAVIDFNERIFKVQKLFSTFNSNFGQPFRLQLIPDNKIHDFWKLQSTNIGMKEKSGNRKLSVKFKDEITEESKSKVTKNLREKIHYKEGKIKEFNNSFSNMQKFSENDKDIPQNRRKKKKTTVKSNGIFLENNSPNKKIVLIEEFKNKMETEELIDTIGNAFNEKVGNNAQTGPKQKNNKTNRNDIEIKQFGEKGSNEPKESINTVAVNMAKDNNNHLLQEKSKALRKSYTRVQDFELDITCKKCGEQYKSFFPYRQHLKSAHSETWSGGKWTCPDCDATLLSGAGLARHVLFHNSSHHETIYKSSQSLGDIKMKIPCKKCDIQFKSFFQYRQHLKAAHNLGKIHDEWSSSTKEQTIKNNWQLWCRLCAQEDFSEKIHFFRNDKTAVNIRNISLIEAIESYFNITISDEDYLPKTMCKKCFNLITALVNYSERISKAQKMFNNLLLKAEEEYCDLQSVRLKFGLMDDEILSQFPIAEIHYFETKLETTEIENNSIKKDVSEISSSPTIKGELRKANDIEMNVEVEGCREEPLYDEENECESADDEEDPFSSVGEDKDYNLEENILNGKKRKKLKRKAKHRKSKSKEQDIENNLEDIKLDITCKHCDEQFTSFQPYRQHLITQHDQYTTPKEWICPACDKILTSSIRLERHLRVHIPREEPEVLPCPECGKHFPTNTRLKAHIKYKHKPERFMCEECGACITTKANLQFHMLTHTDNAPLECEVCKKKFKYARRLKIHMETHDSQKHICNICGLQLNTRITLRGHMSVHNDIMKYKCEFCGRAFKLSKTLKFHLISHTGLKPYTCDFCDRAFTNGANCRLHKKKVHPEEWAALEAAGRTKNVARTLPNIETLKALTRAAGNLTSIVNKQGNGGKKFHNQDDIVLANTLKLSEIVNDEQEELLSDENLEISSRFTRIKEEAIGDDVKRKKVEEALSMEECREVPFYEDSNGFKSSDEREDPFSSAQEDMDYNIGEDIKNIKKLRSFSKHKRKKETDGEFDNHSENAEVGYAKTKQRRKKSQGKSKSNCQVKRRDIELNIPCKECNQMFDCFPTYRQHLNTAHGLDDNLKDWKCPLCGKILTSASRLEQHVKSHLENKREFRTKTLNIKLDITCRECSEKFDCFEKYHQHLNSAHGQLDNVKEWKCPSCEKVLTSVHRLEQHLRSHVPREPKMLPCSKCGAHFPTNGRLNAHIKNKHNTERFMCEECGLCLSTSSNLKFHMLTHTDIAPLECEVCKKRFKYARRLKIHMETHDSQKHICNICGLQLNTRITLRRHMVVHNDIMKYKCDFCGRSFRQKKTLKYHLISHAGLKPYTCDLCDRAFTNGANCRLHKQKIHPEEWAALEAAGRTKNIVQRLPNIETLKTLIKWQLWCRLCASNDFQNNINIFQDDVKLLGINKDMSLRKAIEKYFQIQVLQDDIMPRMVCSDCLSFIDCLVSFNERILKVQQMFTTLSSTSEQELGDLEQIRLKYVVFDDKGDKNYSQLSLAEVHYFEAKHEIDIEKNVINNGTPEGYNCRIDLKEEINGDVQVISEEIMDVEEEGYQCREEAFYDVIEKNCHGQGEEKDPFSNVEEDKNEQSSPGTKRKKLKKPKHKTNEELQKDVKLNVECRDCNAHFQSFRLYSKHLREVHKQEDALKEWKCPTCEKIVSTSYHLERHLRTHVPLEERKVVSCSECDKRFFTNTQLEAHIKYRHKNEKPFICEECGICLRTNANLRIHLLTHTDIAPFECEVCRKKFKDRTRLKSLDRRIWIYTVPTNTFVLCAGYN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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