Basic Information

Insect: Psococerastis gibbosa
Gene Symbol: -
Assembly: GCA_963971405.1
Location: OZ020490.1:29940729-29959673[-]

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 41 0.003 0.2 12.7 5.9 1 21 89 109 89 111 0.96

2 41 1.1e-05 0.0007 20.4 6.0 1 23 171 193 171 193 0.98

3 41 0.00068 0.045 14.7 2.3 1 23 199 221 199 221 0.95

4 41 0.0026 0.17 12.9 3.2 1 23 227 250 227 250 0.97

5 41 0.00028 0.019 15.9 3.1 1 23 274 296 274 296 0.97

6 41 0.0046 0.3 12.1 1.1 1 23 325 347 325 347 0.97

7 41 0.0051 0.34 11.9 1.1 1 23 376 398 376 398 0.95

8 41 0.00058 0.038 14.9 0.9 1 23 423 446 423 446 0.94

9 41 0.0046 0.3 12.1 2.3 1 23 490 513 490 513 0.93

10 41 0.34 23 6.2 2.3 1 23 557 580 557 580 0.92

11 41 0.0046 0.3 12.1 2.3 1 23 624 647 624 647 0.93

12 41 0.0069 0.46 11.5 1.2 1 23 691 713 691 713 0.98

13 41 0.0099 0.65 11.1 1.8 1 23 939 962 939 962 0.96

14 41 2.7e-05 0.0018 19.1 1.5 1 23 1079 1102 1079 1102 0.95

15 41 4.6e-05 0.0031 18.4 2.4 1 23 1144 1167 1144 1167 0.95

16 41 0.0011 0.075 14.0 1.5 1 22 1232 1253 1232 1256 0.91

17 41 0.0026 0.17 12.9 3.6 1 23 1342 1365 1342 1365 0.95

18 41 0.047 3.1 8.9 2.4 1 23 1414 1437 1414 1437 0.94

19 41 0.00087 0.058 14.4 1.0 1 23 1502 1525 1502 1525 0.95

20 41 0.0056 0.37 11.8 2.8 1 23 1589 1612 1589 1612 0.94

21 41 0.00064 0.042 14.8 4.8 1 23 1673 1696 1673 1696 0.95

22 41 0.00087 0.058 14.4 1.0 1 23 1745 1768 1745 1768 0.95

23 41 0.0008 0.053 14.5 3.3 1 23 1833 1856 1833 1856 0.94

24 41 0.00012 0.0081 17.1 4.1 1 23 1917 1940 1917 1940 0.94

25 41 3.3e-05 0.0022 18.8 2.3 1 23 2005 2028 2005 2028 0.95

26 41 0.00012 0.0081 17.1 4.1 1 23 2093 2116 2093 2116 0.94

27 41 0.00035 0.023 15.6 3.9 1 23 2181 2204 2181 2204 0.95

28 41 3.3e-05 0.0022 18.8 2.3 1 23 2253 2276 2253 2276 0.95

29 41 3.8e-05 0.0025 18.7 0.5 1 23 2375 2398 2375 2398 0.97

30 41 0.2 13 7.0 9.4 1 23 2450 2473 2450 2473 0.92

31 41 0.00035 0.023 15.6 0.8 1 23 2506 2529 2506 2529 0.92

32 41 0.047 3.1 8.9 0.9 1 23 2559 2582 2559 2582 0.92

33 41 0.0025 0.17 12.9 0.8 3 23 2616 2637 2614 2637 0.96

34 41 0.0001 0.0066 17.3 3.1 1 23 2665 2688 2665 2688 0.97

35 41 0.015 1 10.5 2.5 1 23 2851 2874 2851 2874 0.95

36 41 0.052 3.5 8.8 0.4 1 20 2903 2922 2903 2924 0.87

37 41 0.00094 0.062 14.3 0.3 1 23 2931 2953 2931 2953 0.97

38 41 3.1e-05 0.002 19.0 0.8 3 23 2958 2978 2956 2978 0.97

39 41 2.1e-05 0.0014 19.4 0.9 1 23 2984 3006 2984 3006 0.98

40 41 2.3 1.5e+02 3.6 0.2 2 22 3010 3030 3010 3030 0.95

41 41 0.048 3.2 8.9 2.1 3 20 3037 3054 3036 3056 0.93

#	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	41	0.003	0.2	12.7	5.9	1	21	89	109	89	111	0.96
2	41	1.1e-05	0.0007	20.4	6.0	1	23	171	193	171	193	0.98
3	41	0.00068	0.045	14.7	2.3	1	23	199	221	199	221	0.95
4	41	0.0026	0.17	12.9	3.2	1	23	227	250	227	250	0.97
5	41	0.00028	0.019	15.9	3.1	1	23	274	296	274	296	0.97
6	41	0.0046	0.3	12.1	1.1	1	23	325	347	325	347	0.97
7	41	0.0051	0.34	11.9	1.1	1	23	376	398	376	398	0.95
8	41	0.00058	0.038	14.9	0.9	1	23	423	446	423	446	0.94
9	41	0.0046	0.3	12.1	2.3	1	23	490	513	490	513	0.93
10	41	0.34	23	6.2	2.3	1	23	557	580	557	580	0.92
11	41	0.0046	0.3	12.1	2.3	1	23	624	647	624	647	0.93
12	41	0.0069	0.46	11.5	1.2	1	23	691	713	691	713	0.98
13	41	0.0099	0.65	11.1	1.8	1	23	939	962	939	962	0.96
14	41	2.7e-05	0.0018	19.1	1.5	1	23	1079	1102	1079	1102	0.95
15	41	4.6e-05	0.0031	18.4	2.4	1	23	1144	1167	1144	1167	0.95
16	41	0.0011	0.075	14.0	1.5	1	22	1232	1253	1232	1256	0.91
17	41	0.0026	0.17	12.9	3.6	1	23	1342	1365	1342	1365	0.95
18	41	0.047	3.1	8.9	2.4	1	23	1414	1437	1414	1437	0.94
19	41	0.00087	0.058	14.4	1.0	1	23	1502	1525	1502	1525	0.95
20	41	0.0056	0.37	11.8	2.8	1	23	1589	1612	1589	1612	0.94
21	41	0.00064	0.042	14.8	4.8	1	23	1673	1696	1673	1696	0.95
22	41	0.00087	0.058	14.4	1.0	1	23	1745	1768	1745	1768	0.95
23	41	0.0008	0.053	14.5	3.3	1	23	1833	1856	1833	1856	0.94
24	41	0.00012	0.0081	17.1	4.1	1	23	1917	1940	1917	1940	0.94
25	41	3.3e-05	0.0022	18.8	2.3	1	23	2005	2028	2005	2028	0.95
26	41	0.00012	0.0081	17.1	4.1	1	23	2093	2116	2093	2116	0.94
27	41	0.00035	0.023	15.6	3.9	1	23	2181	2204	2181	2204	0.95
28	41	3.3e-05	0.0022	18.8	2.3	1	23	2253	2276	2253	2276	0.95
29	41	3.8e-05	0.0025	18.7	0.5	1	23	2375	2398	2375	2398	0.97
30	41	0.2	13	7.0	9.4	1	23	2450	2473	2450	2473	0.92
31	41	0.00035	0.023	15.6	0.8	1	23	2506	2529	2506	2529	0.92
32	41	0.047	3.1	8.9	0.9	1	23	2559	2582	2559	2582	0.92
33	41	0.0025	0.17	12.9	0.8	3	23	2616	2637	2614	2637	0.96
34	41	0.0001	0.0066	17.3	3.1	1	23	2665	2688	2665	2688	0.97
35	41	0.015	1	10.5	2.5	1	23	2851	2874	2851	2874	0.95
36	41	0.052	3.5	8.8	0.4	1	20	2903	2922	2903	2924	0.87
37	41	0.00094	0.062	14.3	0.3	1	23	2931	2953	2931	2953	0.97
38	41	3.1e-05	0.002	19.0	0.8	3	23	2958	2978	2956	2978	0.97
39	41	2.1e-05	0.0014	19.4	0.9	1	23	2984	3006	2984	3006	0.98
40	41	2.3	1.5e+02	3.6	0.2	2	22	3010	3030	3010	3030	0.95
41	41	0.048	3.2	8.9	2.1	3	20	3037	3054	3036	3056	0.93

Sequence Information

Coding Sequence: ATGATTGTTAAAAAAGAGGAGTTAGACATCAGTGACGACGATGATGTGCAAGTGAAGCTGGAGGATATAGGCAGTGGGAACCGACCAGGGTACCGACTGCCGAACAATACCAATGATCTTGGAAGTAGGAGTGTCGATGCCGATGCTAAAGATCCCACTCTCACCAACGGGCATTCGATATCGAGGGAAGTGAAGCTGGAACATAGGAATCACAGGGAAACAAGCGAAGATAAACCACTGAGTGGACAGTTGCGTGGTCAAATTTACCAGTGTGATTTTTGTTTGAAAACGTTTAGGAGTAAAAGTAAGCTCATTAGGCACACTCGATGTCACACAGATCTTGGAGGCAGGAGTAATCATGACGATGTTAAGGATCCTACTCTCACCAACGGGCTTTCGATATGCAGGGAAGTGAAGCCGGAACATAGGAATCACAGGGAAGCAAGCGAAGATAAACCACTTAGTGGACAGATGCGTGGTCAAATTTTcgaatATACGGGGGATGCACCTTTCCCGTGTGACAGGTGTGGAAAATGTTATAAAAGAAAACAACACCTAAAGAGACATATGCTAGTACATTCAGACTCTAAGCCATTTCCTTGCATACACTGTGGAAATTCATATACTCGAAAGACTAACCTTTTGAGACATATCAAAAGTCATACGGAAAACAACCCATACGAGTGTGCTCATTGTGGAACAGCTTTCAATAAGAAAAGTTCGCTTCGTTGTCATATTATGCGAATACATTTAAATGGTCAACTAAATGAGACAAACTCCACTACCGATTGCCATGGAAGAGAGCCAAGCACTCGTCTGCATCGGTGTAATTTCTGTAAGGCATCTTTCAATAAGAAAAGCAACCTCCAGATACACGTGCGTGCACATGTCGTCCAAGCTTGCGTGATAATTCAACAATTAGATTATGTTCCTAGGAAGGCTTCGCGTGGTGCCTATGCTAGCAGTGGACTGCACCGATGCGATTTATGTAATGCAATATTCAATCAGAGAAATACCCTCAGAATCCATTTGCAAGCTCATATCAATCAACAGTTCGTAGCAATTCAAAATAAGGAGTATGCTGCTGACAGAATTTTCCTAGAAACATATACTGGTAGTGCGCTGTATCTGTGCAATTACTGTAGGGCATCTTACAATAAAAAAAGCACTCTCAGGATCCATGTGAAGGCTCATATCAACCAACCTTTtctgaaaattaaaagaatggAGGGTGTAAGTAATCAGACTTCTAAAAACTATGTACTCTTCCGGTGCAAATATTGTAAGGAAGCCTTCGGTGACCAAAGTACCCTCTTTACTCATGTATCACAAATTCATATATATAATCAAGTATACGAGAACAGAGAATCACATTCAAGCATTGCCTTGTGCACTGATATTGAGCGAACAGGTGAAGAAAGTCCACGACATGTGAAAAACTATCGCAGCTATGGCGACTGTGGTATGCATCAGTGCAAATATTGTGAGGAAGCCTTCGATGACGAAAGTACCCTCTGTACTCATGTATCACAAATTCATATAATAAATCAAGCATGCGAGAACAGAGAAAGATATTCAAGCATTGCCATGTGCACTGATATTGAGCGAACAGGTGAAGAAAGTCTACGACTTTTGAAAAACTATCGCAGCTATGGCGACAGTGGTATGCATCAGTGCAAATATTGTGAGGAAGCCTTCGATGACGAAAGTATCCTCTGTACGCATACATCACAAATTCATATAATTAATCAAGCATGCGAGAACAGAGAAAGATATTCAAGCATTGCCATGTGCACTGATATTGAGCGAACAGGTGAAGAAAGTCTACGACATGTGAAAAACTATCGCAGCTATGGTGACAGTGTTATGCATCAGTGCAAATATTGTGAGGAAGCCTTCGATGACGAAAGTACCCTCTGTACTCATGTATCACAAATTCATATAATTAATCAAGCATGCGAGAACAGAGAAAGATATTCAAGCATTGCCCTGTGCACTGATATTGAGCGAACACGTGAAGATAGTCCACAGCACTCGACAATATTTCCTAGCGAAGATGACATTGAACTGTATCAGTGCAAACATTGTGAGGAAGCCTACGACGAAAGTACTCTAAGTACTCATATAAAACGGATACATCCAAATAATTACCCATTTGACGACCGTGAACCTAAGGAGGGCAATGTTACCCTTGAAACACATACAAGCAGTGAACTCGGACcaacttttaaaattaacccaCCATATCTGAATAAAATTCGTGAGGCTTGCATTGCTAACGTAGTTTCCATTGAAACAAATTCGAGAGATGAGCTGTACCGGTGCAAATATCGTAAGCAAGTCTTCGTTAAGGAGAGTGCCCTGTCCACTCATATAACGCGAATACATGTAAGTAATGAACAGTGCGACAACAGACAAATTACGCCAATGCTTGATGATAGTCAACCATGTATTACTGGAAATACTTATTTTGGAGCGCGTGCAAGCAGTACCTTCTGCACCGATATTGAGCAAACATGTGTAGATAGTTCACCACATGAGAAAATATTTCTTAACGACTTTGACAGTGGGCCGTATCATTGTAAATATTGTGATGGTGAAAGTACTATATGTAATCAAGTAGATAATGACCCATTCGAAGACTGTGAACCTAAGGAGTGCGAAGAAGGCAATGTGACACTTGAAACATATTCAAGTAGTGTCATCGGCGCTGATAACGTGCCCACTCTCAAAATTTGCCCACCATATGTTAAACACATTGACGAGTCTTGCATTACAAACAACGTTTACACTGAAACAGATTCAAACGGGCCGTACAGGTGCAAATACTGTGAACAAGTCTTCGATGAGAAGAGTACCGTATGCGCTCATGTAACGCGaatacatataaataataaaccAAGCAGCTGCAGTCACAGTACACCAATATCTGATGATAGTCAACCATATTTTCTTGGAAATACTGACCATGGAATGCATACAGTTACTGTGAGAAACCCTTCAATAACGGCAGTACTATGTGCGCATGCTACTAGAATGGATATAAATTATCAACCATGTAAGATAAGTGACATAAAGGAGTGCGTTTCTGACCATGTCCCCCTAGAAGCCCATGCAAGAGGTGAGCTCTGCACTTATCGAAATCCCGAGGATAGTGCATCAGATTTAAATAAGGATAGCGAGGACTATGTTTCTAAAGCGGCTTCCTCTGAAATACAGCCAAGTAATGAGCTGTATAGCTGTAATTACTGTGAGACAGCCTTCTCTAGGAAAAGTTTGCTCCGTACACATATTACTCAAACCCATATGGATTTTAAGCAACGTAAGAAAAATTTGGTTCATAATGAGTGTGCTGGTAACAAGTTGTCTTTTGAGACACATACAGACCGTGACCTCTGTACTGATATTAATGAAGATCGTGCAGAATTGTATCGGTGCAATTACTGTGAGACCTCCTTCTCTCAGAAAAGATCACTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCTTACTGACAGTATTGAAACGCCAGAAAATAGTGAGCTTTGCATTGATATTTCGCAAACACATGAAGATAGCCCAGCATATGTGAGCCAGGTTATTAAGGCTTATGTTTCTAACGAGGCTTTTCCTGAAATGGGTCCAAGCCATGAACTGTATCATTGTAATTACTGTGAGGCCTCCTTCGCTCAGAAAAGATCTCTCCGGTCCCATATTGATAGTCAGCTACATGAGAAAAGTGTCACTAACAAGAGTCTTACTGATAGTATTGAAATGCTAGAAAGTAGAGGGCTTAGCACTGATATACTGCAAACACATGAAGATAGCCGAACAGCCCCTAACGAGGGTTTTACTGGCAGTATTGAATCGCCAGAAAATAGTAAGCTTTGCCGGGATATTTCGGAAACACATACATATGTGAGAAAGGTTATTAAAGCTTGTGTTTCCTACGAAGCTTTTCCTGAAGTGGATCAATGCCATGAACTGTATCATTGTAATTACTGTGAGACCTCTTTCACTCAGAAAACACCTCTCCGGTCCCATATTACTTATACACACATTGACAGTCATCTACAAAAGAATAGTGTCTTTAACGAGAGTCTTACTGACAGTAATGAAGATAGCCTAACATATGTTGGTCAGGTTATTCAGGCTTATGTTTCTAACGAAGCTTTCCGTGAAATGGGTCCAAGCCATGAACTGTATCATTGTAATTACTGTGAGGCCTTTTTCCCTCTGAAAAAATCTCTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGCATCATTAACGAGAGTCGTACTAACAATGTAGAAACGCTAGAATGTAGTGGGCTTTCCACTGATATTTCGCAGTCACATGAAGATAGCCCAACATATGTGAGCAAGGTTATTAAAGCTTATGTTTCTAACGAGGCTTTTCCTGAAATGAGTCCAAGCCGTGAACTGTATCAGTGCAATTACTGTGAGACCTCCTTCGCTCTGAAAAGGTTACTCCGGTCCCATATTACTCTTACACACATTGGCAGTCAACTACATAAGAAAAGTGTCATTGACGAGAGTCTTACTGACAGTATTGAAGCGCCAGAAAATAGTGAGCTTTGCATTGATATTTCGCAAACACATGAAGATAGCCCAAGGATGAGCAAGGTTATTAAGGATTATGTTCCCAACGAAGCTTTCCCTGAAATGGGTCCAAGCCATGAACTGTATCATTGTAATTACTGTGAGACCTCTTTCCCTCTGAAAAAATCTCTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCTTACTGACAATGAAGAAACGCTAGAATGTAGTGGGCTTTCGCAGTCACATGAAGATAGCCCAACATATGTGAGCAAGGTTATTAAAGCTTATGTTTCCTACGAAGCTTTTTATGAAATGGGTCCGAGCCATGAACTGTATCATTGTAATTACTGTGAGACCTCTTTCACTCAGAAAAGATCTCTCCGGTCCCATATTACTTATACACACATTGACAGTCACCTACATAAGAAAAGTGTCTTTAACGAGAGTCTTACTGGCAGTAATGAAGATAGCCTAACATATGTGAGTCAGGTTATTAAGGCTTATGTTTCTAACGAGGCTTTTCCTGAAATGAGTCCAAGCCGTGAACTGTATCAGTGCAATTACTGTGAGACCTCCTTCGCTCTGAAAAGGTTACTTCGGTCCCATATTACTCTTACACACATTGGCAGTCAACTACATAAAAAAAGTGTCATTGACGAGAGACTTACTGACAGTATTGAAGCGCCAGAAAATAGTGAGCTTTGCATTGATATTTCGCAAACACATGAAGATAGCCCAGCATGTGTGAGCAAGGTTATTAAGGATTATGTTCCCAACGAAGCTTTCCCTGAAATGGGTCCATGCCATGAACTGTATCATTGTAATTACTGTGAGACCTCTTTCACTCTGAAAAGTTCTCTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCTTACTGACAATGTAGAAACGCTAGAATGTAGTGGGCTTTTGCAGTCATATGAAGATAGCCCAACATATGTGAGCAAGGTTATTAAGGCTTATGTTTCTAACGAGGCTTTTCCTGAAATGGGTCCAAGCCATGAACTGTATCATTGTAATTACTGTGACACCTCTTTCACTCAGAAAAGATCTCTCCGGTCCCATATTACTCTTACGCACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCGTACTAACAATGTAGAAACGCTAGAATGTAGTGGGCTTTCCACTGATATTTCGCAGTCACATGAAGATAGCCCAACATATGTGAGCAAGGTTATTAAAGCTTATGTTTCCTACGAAGCTTTTCCTGAAATGGGTCCAAGCCATGAACTGTATCAGTGCAATTACTGTGAGACCTCTTTCACTCAGAAAAGATCTCTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCGTACTAACAATGTAGAAACGCTAGAATGTAGTGGGCTTTCCACTGATATTTCGCAGTCACATGAAGATAGCCCAACATATGTGAGCCAGGTTATTAAGGCTTATGTTTCTAACGAGGCTTTTCCTGAAATGGGTCCAAGCCATGAACTGTATCATTGTAATTACTGTGACACCTCTTTCACTCAGAAAAGATCTCTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCGTACTAACAATGTAGAAACGCTAGAATGTAGTGGGCTTTCCACTGATATTTCGCAGTCACATGAAGATAGCCCAACATATGTGAGCAAGGTTATTAAAGCTTATGTTTCCTACGAAGCTTTTCCTGAAATGGGTCCGAGCCATGAACTGTATCATTGTAATTACTGTGAGACCTCTTTCACTCAGAAAAGATCTCTCCGGTCCCATATTACTTATATACACATTGACAGTCACCTACATAAGAAAAGTGTCTTTAACGAGAGTCTTACTGGCAGTAATGAAGATAGCCCAACATATGTGAGTCAGGTTATTAAGGCTTATGTTTCTAACGAGGCTTTTCCTGAAATGAGTCCAAGCCGTGAACTGTATCAGTGCAATTACTGTGAGACCTCTTTCACTCAGAAAAGATCTCTCCGGTCCCATATTACTCTTACACACATTGATTGGCAACTACATAAGGAAAGTATCATTAACGAGAGTCGTACTAACAATGTTAACAATGTAGAAACGCTAGAATGTAGTGGGCTTTCCACTGATATTTCGCAGTCACATGAAGATAGCCCAACAGCCCCTAACGAGAGTTTTACTGACAGTATTGAAACGCCACAAAATAGTGAGCTTAGCACTGATATTTCGCAAACACATGACGATAGTCCAACGTATGTGGGCAAGGCTGTTGAAACTTGCGTTACTAACGGATCTTCTCCTGATGTACAGCCATGCCTTGAACTGTATCAGTGCAATCACTGTGATATCACCTTCGCTGTGAAAGGTTTGCTTCGTACTCATATTATCCGAGCACATTTGCATTGTGGACTACGCGATAAAAGCGCCATTGAAAATAGTTCTTCTGACATACTTGCAAATAGTGGACTGTGTACTGTTTTAAGGCCAATTCATGGAAATAGCAATCCTCTCGTGAGCTACCAATTTAAAACTCGTACAAGCAATGACCCGCATCGATGCTGTCATTGTACGAAAACCTTCTCTAGGAAATGCTACCTATCGGTACATGTTGCTCAAGCACATGTTATGGATAATAATGAACCAGATCAGAAGAGAGCGCGTATGGCAAgtgttactaataataatgtttCCATTGGTGCACGAACGAGCTGTGGGTGGTATCGTTGCAATTATTGTCAGGTTGTCTTCACGTCGAAAGTATACCTCTGGAAGCACGTAACGGGAAGACACTTAAATAAACAACTGCATGAAAACAGCCCAAGTAAGATGTATTTGAGTAAGAAAGCCGACATTGAATTACATGCGAGCAGAGGGCGCTACCGGTGTATTTTGTGTGAGAAAGTCTTCACTAAGAAAGAGTACTTCTGGATTCATATTACGCAAACTCATATAGATAATCAACCTTTTGATAACTATCAAAGTAAAGAGCGAGTTAATCGTACTGGCAAAGCTTTCTTTGGAACTCTCGAAAGCAGTTATTTGTACGGTTGCAGGTATTGCAAGGCAGTCTTTTCTAAGAACAGTTACTTACTGAAGCATGTTCAGAGATTACATGTAGATATTGGACAATACGAGAACAGTCTGCAACAGGAGTGTGTTTTGGCTTCTATTGAGGCACAACCAATCAGTGAGCCCTTTAAGTGCGATTACTGTGGAACAGAATTCACTAAGAAAGGTTCCCTATGTACTCATATAGCCCGAAAACACATAAACATTCAACCATATGATGTGGACATGGTGGACAGCCTTCGACAGGAGTGTGTTCTTCCTTCCATTGAGGAACATACAAGCAGTGACCTCTGTGGGCGCGATTACTGTAGGCCTAAGACAGAATCCCCTAAGGAAGGTTCCCTCCGAACACGAGCACGCATAAATATGCTATCTTATGAGCGGAACGAGGACAGCCTACGACATGAGGGTGTTCTTCCTTCGATTAAGGAGCATACAAGCAGTGACCTCTACGGGCGAGATTACTGCGAGACAGAATGCCCTGTAAAAGGTTCCCCCCGCACTCATAAAACACCAACACATATAATTATTCAGCCTCATGAGAGGAATGACAACGTTACTGACAAGGTTTCTCTTCCAACTCGTAATCGTAGCGGCGTTTCTCCTGATAAAATGCTAATACATAATGGTAGTCAACCATGGGAGGGAATGACTAGTATGGCAACACTTACAAGACATGTGCTGTTTCGTTGCAATTATTGCGAACAACCCTTTTCTGATACACTTTCCCTTTGTTCTCATATTACTCAAACACATTATTCACCTGACAAGAGGCAGACACGTTTTACAAGCAACAGAGCGCTTGCTAAGTGCAAAGAATCAAAAACAGACGTTGAACTATTTGTCTGCCACGACTGTGGCAAATTGTTTAAAAGTGAATTAGGTGTTAATAGTCACAGGGAAAAAGTATCGGCATGTAAACCCTATCAGTGTGCCCAGTGTGGTAGACGTTTTGTGTCTAAAATTGAGTTTGAGATTCACAGCCAAATTCATGTCACATTGGCATGTACCTATTGCTCGAAATCGTTTTCATCGAAGAATTATCTAGATGTACACATAAGGTCACACACTGCAGAGAGGCCGTATGTGTGCAAAGTATGCAACAAGTCGTTTGCTGCAGAAAGTTCCCTAAAAAACCACAAACGTAGTCACCAACCCCGCAAGTGCTTGCTATGTGGGCAAATGCTTGCCAACAAAGCTAGCATTTTGCAGcatagaagaagaagtaataaGGAACCAATGTGCTGTAAATGTAAAAAGTGTTTTGCTACAATAGGGGCACTTGAGAAGCATTTGGCTTCGTATGGTCGAATGTCCAAATTCAGcagtttgaaatga
Protein Sequence: MIVKKEELDISDDDDVQVKLEDIGSGNRPGYRLPNNTNDLGSRSVDADAKDPTLTNGHSISREVKLEHRNHRETSEDKPLSGQLRGQIYQCDFCLKTFRSKSKLIRHTRCHTDLGGRSNHDDVKDPTLTNGLSICREVKPEHRNHREASEDKPLSGQMRGQIFEYTGDAPFPCDRCGKCYKRKQHLKRHMLVHSDSKPFPCIHCGNSYTRKTNLLRHIKSHTENNPYECAHCGTAFNKKSSLRCHIMRIHLNGQLNETNSTTDCHGREPSTRLHRCNFCKASFNKKSNLQIHVRAHVVQACVIIQQLDYVPRKASRGAYASSGLHRCDLCNAIFNQRNTLRIHLQAHINQQFVAIQNKEYAADRIFLETYTGSALYLCNYCRASYNKKSTLRIHVKAHINQPFLKIKRMEGVSNQTSKNYVLFRCKYCKEAFGDQSTLFTHVSQIHIYNQVYENRESHSSIALCTDIERTGEESPRHVKNYRSYGDCGMHQCKYCEEAFDDESTLCTHVSQIHIINQACENRERYSSIAMCTDIERTGEESLRLLKNYRSYGDSGMHQCKYCEEAFDDESILCTHTSQIHIINQACENRERYSSIAMCTDIERTGEESLRHVKNYRSYGDSVMHQCKYCEEAFDDESTLCTHVSQIHIINQACENRERYSSIALCTDIERTREDSPQHSTIFPSEDDIELYQCKHCEEAYDESTLSTHIKRIHPNNYPFDDREPKEGNVTLETHTSSELGPTFKINPPYLNKIREACIANVVSIETNSRDELYRCKYRKQVFVKESALSTHITRIHVSNEQCDNRQITPMLDDSQPCITGNTYFGARASSTFCTDIEQTCVDSSPHEKIFLNDFDSGPYHCKYCDGESTICNQVDNDPFEDCEPKECEEGNVTLETYSSSVIGADNVPTLKICPPYVKHIDESCITNNVYTETDSNGPYRCKYCEQVFDEKSTVCAHVTRIHINNKPSSCSHSTPISDDSQPYFLGNTDHGMHTVTVRNPSITAVLCAHATRMDINYQPCKISDIKECVSDHVPLEAHARGELCTYRNPEDSASDLNKDSEDYVSKAASSEIQPSNELYSCNYCETAFSRKSLLRTHITQTHMDFKQRKKNLVHNECAGNKLSFETHTDRDLCTDINEDRAELYRCNYCETSFSQKRSLRSHITLTHIDWQLHKESIINESLTDSIETPENSELCIDISQTHEDSPAYVSQVIKAYVSNEAFPEMGPSHELYHCNYCEASFAQKRSLRSHIDSQLHEKSVTNKSLTDSIEMLESRGLSTDILQTHEDSRTAPNEGFTGSIESPENSKLCRDISETHTYVRKVIKACVSYEAFPEVDQCHELYHCNYCETSFTQKTPLRSHITYTHIDSHLQKNSVFNESLTDSNEDSLTYVGQVIQAYVSNEAFREMGPSHELYHCNYCEAFFPLKKSLRSHITLTHIDWQLHKESIINESRTNNVETLECSGLSTDISQSHEDSPTYVSKVIKAYVSNEAFPEMSPSRELYQCNYCETSFALKRLLRSHITLTHIGSQLHKKSVIDESLTDSIEAPENSELCIDISQTHEDSPRMSKVIKDYVPNEAFPEMGPSHELYHCNYCETSFPLKKSLRSHITLTHIDWQLHKESIINESLTDNEETLECSGLSQSHEDSPTYVSKVIKAYVSYEAFYEMGPSHELYHCNYCETSFTQKRSLRSHITYTHIDSHLHKKSVFNESLTGSNEDSLTYVSQVIKAYVSNEAFPEMSPSRELYQCNYCETSFALKRLLRSHITLTHIGSQLHKKSVIDERLTDSIEAPENSELCIDISQTHEDSPACVSKVIKDYVPNEAFPEMGPCHELYHCNYCETSFTLKSSLRSHITLTHIDWQLHKESIINESLTDNVETLECSGLLQSYEDSPTYVSKVIKAYVSNEAFPEMGPSHELYHCNYCDTSFTQKRSLRSHITLTHIDWQLHKESIINESRTNNVETLECSGLSTDISQSHEDSPTYVSKVIKAYVSYEAFPEMGPSHELYQCNYCETSFTQKRSLRSHITLTHIDWQLHKESIINESRTNNVETLECSGLSTDISQSHEDSPTYVSQVIKAYVSNEAFPEMGPSHELYHCNYCDTSFTQKRSLRSHITLTHIDWQLHKESIINESRTNNVETLECSGLSTDISQSHEDSPTYVSKVIKAYVSYEAFPEMGPSHELYHCNYCETSFTQKRSLRSHITYIHIDSHLHKKSVFNESLTGSNEDSPTYVSQVIKAYVSNEAFPEMSPSRELYQCNYCETSFTQKRSLRSHITLTHIDWQLHKESIINESRTNNVNNVETLECSGLSTDISQSHEDSPTAPNESFTDSIETPQNSELSTDISQTHDDSPTYVGKAVETCVTNGSSPDVQPCLELYQCNHCDITFAVKGLLRTHIIRAHLHCGLRDKSAIENSSSDILANSGLCTVLRPIHGNSNPLVSYQFKTRTSNDPHRCCHCTKTFSRKCYLSVHVAQAHVMDNNEPDQKRARMASVTNNNVSIGARTSCGWYRCNYCQVVFTSKVYLWKHVTGRHLNKQLHENSPSKMYLSKKADIELHASRGRYRCILCEKVFTKKEYFWIHITQTHIDNQPFDNYQSKERVNRTGKAFFGTLESSYLYGCRYCKAVFSKNSYLLKHVQRLHVDIGQYENSLQQECVLASIEAQPISEPFKCDYCGTEFTKKGSLCTHIARKHINIQPYDVDMVDSLRQECVLPSIEEHTSSDLCGRDYCRPKTESPKEGSLRTRARINMLSYERNEDSLRHEGVLPSIKEHTSSDLYGRDYCETECPVKGSPRTHKTPTHIIIQPHERNDNVTDKVSLPTRNRSGVSPDKMLIHNGSQPWEGMTSMATLTRHVLFRCNYCEQPFSDTLSLCSHITQTHYSPDKRQTRFTSNRALAKCKESKTDVELFVCHDCGKLFKSELGVNSHREKVSACKPYQCAQCGRRFVSKIEFEIHSQIHVTLACTYCSKSFSSKNYLDVHIRSHTAERPYVCKVCNKSFAAESSLKNHKRSHQPRKCLLCGQMLANKASILQHRRRSNKEPMCCKCKKCFATIGALEKHLASYGRMSKFSSLK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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