Basic Information

Insect: Frankliniella intonsa
Gene Symbol: ZNF219
Assembly: GCA_033675135.1
Location: CM066249.1:10452719-10462054[-]

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 43 0.0029 0.18 11.3 1.2 3 23 61 81 61 81 0.99

2 43 0.00053 0.032 13.7 4.5 1 23 87 109 87 109 0.95

3 43 0.057 3.5 7.3 1.0 3 23 183 203 182 203 0.97

4 43 7.6e-07 4.6e-05 22.6 1.1 1 23 209 231 209 231 0.98

5 43 2e-05 0.0012 18.1 1.1 1 23 237 259 237 259 0.99

6 43 7.3e-06 0.00045 19.5 0.2 1 23 265 287 265 287 0.93

7 43 0.00017 0.011 15.2 4.1 1 23 376 398 376 398 0.99

8 43 3.4e-05 0.0021 17.4 0.9 1 23 404 426 404 426 0.97

9 43 1.6e-05 0.001 18.4 0.4 1 23 434 457 434 457 0.96

10 43 0.0014 0.086 12.3 0.4 2 23 525 546 524 546 0.97

11 43 0.00015 0.0092 15.4 1.2 1 23 552 574 552 574 0.98

12 43 0.023 1.4 8.5 2.1 1 23 580 602 580 602 0.97

13 43 0.056 3.4 7.3 1.3 2 23 612 633 611 634 0.94

14 43 0.95 58 3.4 0.6 1 21 667 687 667 688 0.94

15 43 0.00036 0.022 14.2 3.0 1 23 709 731 709 731 0.98

16 43 0.0019 0.12 11.9 1.5 1 23 768 790 768 790 0.98

17 43 0.00066 0.04 13.3 0.6 1 21 836 856 836 857 0.95

18 43 0.017 1.1 8.9 0.8 1 23 888 910 888 910 0.97

19 43 0.0021 0.13 11.8 1.6 1 23 933 955 933 955 0.99

20 43 0.015 0.9 9.1 0.4 1 23 980 1002 980 1002 0.98

21 43 0.062 3.8 7.1 3.7 1 23 1024 1046 1024 1046 0.95

22 43 9.5 5.9e+02 0.3 0.8 1 23 1072 1094 1072 1094 0.93

23 43 0.015 0.89 9.1 0.3 1 23 1126 1148 1126 1148 0.99

24 43 0.16 10 5.8 1.1 1 23 1165 1187 1165 1187 0.97

25 43 0.055 3.4 7.3 1.2 1 23 1214 1236 1214 1236 0.98

26 43 0.11 6.8 6.4 0.8 1 23 1257 1279 1257 1279 0.97

27 43 0.032 2 8.0 0.3 1 23 1297 1319 1297 1319 0.98

28 43 0.18 11 5.7 1.3 1 19 1339 1357 1339 1361 0.86

29 43 1.1 66 3.2 5.9 2 23 1438 1460 1437 1460 0.91

30 43 0.04 2.5 7.7 0.5 1 23 1475 1497 1475 1497 0.96

31 43 0.019 1.2 8.7 0.6 1 23 1557 1579 1557 1579 0.98

32 43 0.002 0.12 11.8 1.3 1 23 1607 1629 1607 1629 0.98

33 43 0.00076 0.047 13.2 2.6 1 23 1657 1679 1657 1679 0.98

34 43 0.0018 0.11 12.0 2.0 1 23 1731 1753 1731 1753 0.99

35 43 0.0021 0.13 11.8 0.0 1 23 1760 1782 1760 1782 0.92

36 43 2.5e-05 0.0015 17.8 0.1 1 23 1801 1823 1801 1823 0.98

37 43 0.051 3.1 7.4 0.8 2 23 1972 1993 1971 1993 0.95

38 43 0.13 7.9 6.1 0.1 2 17 2035 2050 2034 2058 0.83

39 43 2.1 1.3e+02 2.3 2.8 1 23 2064 2087 2064 2087 0.95

40 43 0.18 11 5.7 0.1 1 23 2108 2131 2108 2131 0.95

41 43 0.044 2.7 7.6 0.0 2 23 2143 2165 2143 2165 0.95

42 43 0.0012 0.074 12.5 0.7 1 23 2171 2194 2171 2194 0.97

43 43 0.22 13 5.4 1.1 1 23 2198 2221 2198 2221 0.87

#	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	43	0.0029	0.18	11.3	1.2	3	23	61	81	61	81	0.99
2	43	0.00053	0.032	13.7	4.5	1	23	87	109	87	109	0.95
3	43	0.057	3.5	7.3	1.0	3	23	183	203	182	203	0.97
4	43	7.6e-07	4.6e-05	22.6	1.1	1	23	209	231	209	231	0.98
5	43	2e-05	0.0012	18.1	1.1	1	23	237	259	237	259	0.99
6	43	7.3e-06	0.00045	19.5	0.2	1	23	265	287	265	287	0.93
7	43	0.00017	0.011	15.2	4.1	1	23	376	398	376	398	0.99
8	43	3.4e-05	0.0021	17.4	0.9	1	23	404	426	404	426	0.97
9	43	1.6e-05	0.001	18.4	0.4	1	23	434	457	434	457	0.96
10	43	0.0014	0.086	12.3	0.4	2	23	525	546	524	546	0.97
11	43	0.00015	0.0092	15.4	1.2	1	23	552	574	552	574	0.98
12	43	0.023	1.4	8.5	2.1	1	23	580	602	580	602	0.97
13	43	0.056	3.4	7.3	1.3	2	23	612	633	611	634	0.94
14	43	0.95	58	3.4	0.6	1	21	667	687	667	688	0.94
15	43	0.00036	0.022	14.2	3.0	1	23	709	731	709	731	0.98
16	43	0.0019	0.12	11.9	1.5	1	23	768	790	768	790	0.98
17	43	0.00066	0.04	13.3	0.6	1	21	836	856	836	857	0.95
18	43	0.017	1.1	8.9	0.8	1	23	888	910	888	910	0.97
19	43	0.0021	0.13	11.8	1.6	1	23	933	955	933	955	0.99
20	43	0.015	0.9	9.1	0.4	1	23	980	1002	980	1002	0.98
21	43	0.062	3.8	7.1	3.7	1	23	1024	1046	1024	1046	0.95
22	43	9.5	5.9e+02	0.3	0.8	1	23	1072	1094	1072	1094	0.93
23	43	0.015	0.89	9.1	0.3	1	23	1126	1148	1126	1148	0.99
24	43	0.16	10	5.8	1.1	1	23	1165	1187	1165	1187	0.97
25	43	0.055	3.4	7.3	1.2	1	23	1214	1236	1214	1236	0.98
26	43	0.11	6.8	6.4	0.8	1	23	1257	1279	1257	1279	0.97
27	43	0.032	2	8.0	0.3	1	23	1297	1319	1297	1319	0.98
28	43	0.18	11	5.7	1.3	1	19	1339	1357	1339	1361	0.86
29	43	1.1	66	3.2	5.9	2	23	1438	1460	1437	1460	0.91
30	43	0.04	2.5	7.7	0.5	1	23	1475	1497	1475	1497	0.96
31	43	0.019	1.2	8.7	0.6	1	23	1557	1579	1557	1579	0.98
32	43	0.002	0.12	11.8	1.3	1	23	1607	1629	1607	1629	0.98
33	43	0.00076	0.047	13.2	2.6	1	23	1657	1679	1657	1679	0.98
34	43	0.0018	0.11	12.0	2.0	1	23	1731	1753	1731	1753	0.99
35	43	0.0021	0.13	11.8	0.0	1	23	1760	1782	1760	1782	0.92
36	43	2.5e-05	0.0015	17.8	0.1	1	23	1801	1823	1801	1823	0.98
37	43	0.051	3.1	7.4	0.8	2	23	1972	1993	1971	1993	0.95
38	43	0.13	7.9	6.1	0.1	2	17	2035	2050	2034	2058	0.83
39	43	2.1	1.3e+02	2.3	2.8	1	23	2064	2087	2064	2087	0.95
40	43	0.18	11	5.7	0.1	1	23	2108	2131	2108	2131	0.95
41	43	0.044	2.7	7.6	0.0	2	23	2143	2165	2143	2165	0.95
42	43	0.0012	0.074	12.5	0.7	1	23	2171	2194	2171	2194	0.97
43	43	0.22	13	5.4	1.1	1	23	2198	2221	2198	2221	0.87

Sequence Information

Coding Sequence: ATGTCAGCAGgtccgtggggcggggcgggccagggcgccgcgctgccgttcCTCTCCAAGGACCTGAGCGTCATGCTGCGCTCCGACCTCTTCCGGGCGCTCCCGGAGGCGGCCAGCGTCCTCGGCTCCAACAGCCGGagcgctccctcctcctctgacGACCCGGAGCGGCGCTGGTGGTGCAACGTGTGTCCGGCCAAGTTCAAGATGAAGCAGCACCTGGCCGTGCACTACCGGCTGCACACGGGCGAGAAGCCGTACAAGTGCCCGCACTGCCCCAAGACGTTCCGGCACCGCAGCAGCCAGGACTACCACGCGCAGGTGCACCGTCGTGACCACGAGCTGCAAAAGGTCATCCTGGAATACCGGGCCTTCCTAGAATTCCAGGGCTTCCAGGCCCCCCAGGGCCTGCGGGAAAATGGGGCCTGTGGCTCTGCGGACCTGCTCCCGCGCTTTGACTTGGtctccggcgcggggccgagctcgACGCAGCCGGGAGGCGGCATAAAGCCGGAGCTGGGCGAGGACCCTGAGCGCAGGTTCTGGTGCACGGCGTGCCCCGCGCGCTTTAAGCTGAAGCAGCACCTGCTGGTGCACTACCGCCTGCACACGGGCGAGAAGCCCTTCGTCTGCCCGCACTGCCCGCGTCGCTTCACTCAGAAGAACGGCCTGGTGATCCACCTGCGCACGCACACCGGCGAGAAGCCGTTCCAGTGCCCGCACTGCAGCCGCCAGTTCGCGCAGAAAACGGTGCTCGACGCGCACATGAGGATCCATACGGGGGAGCGGCCCTTTCCCTGCCCGTTCTGCGGGCAGACGTtccgccagcgcagcgcactcaAGGTTCACGTGGGCCTGCACCAGCAAGAACACCTCTACTCTGTCGTGTCCCTGTACCCTCccgtcacgccgcggcccagggAGGACCTGTCCGACGACTTCGAGATCGAGTACGACAACGAGTGGGACGACGACTGGGCCGACCGCCACCCTGCCGACGACCCGGACGGCTTGCAGCCCATCGTGATGCTCGACAGGATCAGCCTGGACTCAGTGCCGTGCTCGGAGCCGCGACCGGAGTCGCGCGGGACCCCggaaccggggcgggggatggccgTGCGCCCTTACCGCTGCCAGCACTGCCAGGCGCGCTTCACGGCCAAGAAGTCTCTGATGCTGCACATGCGGCGCCACGTGAACGAGAAGCCGTTCGCCTGCGcgcactgcccccgccgcttcagccagcgcagcgccctggtCATGCACGAGCGCTCGCACACGTCCGAGGCGCAGGCGCCCTTCAGCTGCGAGGAGTGCGGCCGCCGCTTCCGCTTCAGCAAGGCGCTGGCCACCCACCTGCGCGACGCCCACCTCGGCCGCCCGCTCAAGTGCGCTGCCTGTGACGCGCTGTTCCTGACCAcgggcggcctgcaggagcACGAGGAGCTGCGGCACGGCATCgtaccgccccccgcgcccaaGCTGGAGCCCGAGCCCGACGTCGAGTCCGCCGCggagcccgccgccagccccgccagccccgccggcccctcgcTGTTCAAGCAGAACACGACCTGCTACGTGTGCGACAAGGACTTCCCGACGCACTCGGCCATGCTGGTGCACGCacgcgtgcacggcgcgggcagccGCTTCCGCTGTCGCCAGTGCCCGGCGCACTTCTCGTCGTGGATCAGCCTGCGCTCGCACTGGCGCATCCACTCCCGGGCCAACATCCACAAGTGCAAGCTGTGTCCGCTGCGCTTcggcgcccgcaccaccctcTTGAATCACCTCAAGCAGCACGACCGCGCCAAGGGCGGCAACATCGTGCGCTGCGTCAAGTGCCTGGAGGCCTTCGACAGCAGGAAGGCGCTGCACGCCCACGTCAAGGCTCACCACGAGGAGAGCAAGGAGGCGAACCCacccccggcagcgccccggcaAAGTACGAGCGAGCCTGAAGTGCAAGAGCGAAGTAAAAGTGATCCAAAACTGTATTTCTGCCAGACTTGCCCCGATGTGTTCGATAAGTACTGGAACTACTGGAACCACCGCAAGAACCTGTGCCCCGGCGTCACTGGcaaacccgccgcgccgtctggaAAGCTGGTCGGGAAGGGCTTCCGCTGCAGCACCTGCGGGATGCGCTTCAAGACCAGGAAGCTGTTGTACTGGCACTCCCAGAGGCACCTCGTCAAGTCGGAGCCGGGCGCGGACGCGGAAATTCAGAAGACTCCCGCCAAAGACAAGGCCGCCGAGGTGGAGCCGACTTCCGCCTCTGCGAGTCCACAGAAGACCTTCCGCTGCGGCAAGTGCTCACAGCCCTTCCCGGACAGGCGGGCCTTGCACATCCACTCCAAGACGCACTCAGGTGCCATGGTGGTGATCGGCGTCGAGGACGAGACTATGATGCAGCTGGACTCGTCGGGCTTACAGGAGGAGGGAAGCCCCGCCAACCCGACGCCAGCCTCCGCCAAGAAGGCCAAGACCTCGAAGAACGTGTTCCGCTGCGGTCAGTGCGGCCAGTCCTACCGCGGTAGGAAGCTTCTGTGGCGCCACCGCAAGTCGTGTGGTATTGAGGACAAGATGGCTGGCGACGAAGATATGAGCGCCGGGACCAACGATTCTGTGATAAAAGTTGAAACTAGACCAAAGAAATACCGCTGTACCAAATGCTCCGAAGTCTTCCCCGACGCCGACAGCCATTGGTTGCATTACAAAGTACACGTGACTGAAAGTATTCATGAGGTGGTCCACTCAGACGCCGCGACTGACCCCTTGGCGTCTCCCAGCTACAAGTGCCGCACTTGCGCCCAAGTGTTCCCGCACAGGATCAGCCTCTGGTGGCACTACAAGTCCCACCTGAATGAcgtggaggccgaggccaccTGCGTGTCGACCTCGGCGGCTGTCGGCGACCCCCTGCCCAGCACCTTCCGCTGCGAGGAGTGCCCCGAGGAGTTCCCAGACGAGGACCTGCACTGGCAGCACTACAAGACGCACGTCAGCGACGTATGCGAGGAAGTCAGACAGGAGAAGGCGGACGAGGTCGAAGTGCAGGCATCCTACCAGTGCAAGAAGTGCTCAAAGACCTTTATGGACGAGAGGAGCCACTGGGTGCACTACAAGGTCCACGCCGACCTACCTGCCCTTGCGATGTATGAAATAGTGAAGCCCGCCAACGGCCAGCGAGAGGGAATGCCAGGTCAGTACCGCTGCAGCAGGTGCCTCGAGTTGTTCGCGGACCTGGAGGGCCACTGGTGGCACTTCAGAACCCACTATGAACCCGAGGAGTTGTCTCGCCTCGAGCTCCCTGTGCCAGCCCGCGTTGGAGAGGGCGAGGATGGGCTGACTGCCCCCGATCGCTCGCTGTACAAGTGCTCTCAGTGCCCAGAGCTGTTTGAGGACGAGCGGAGCCGCTGGTGGCACTACAGAATCCACGCCACCGACTCGTCGACCTGCTTTGAGATGGTGCGCAGCCGGCCCGAGTATCGCTGCGTCAAGTGTTCTCAAGTTTTCCCTGACGTCGCCAATCACTGGCTGCACTTCCGCACCCACTACGAGGCGGAGGCAGAAGTGATCAACGCGGATGCACATGTGAACGGGAaggccacgccctcccccgctgAGAAGCAGTACCGCTGCTCCAAGTGTCCGGAGCTGTTTGAGAACCCGGAGGCTCACTGGAAACACTATCGCCAACATTTCGAGTCTGTGTGTCGAGAGGTGAGCGTCAGCCAGGATCCAGGCGAAGATACGACGACTTACCGCTGCAGCAAATGCGACCAAGTTTCGGACGACCTGGAGGCGCACTGGTGGCACTACCGCACCCACATGGACgtgggcgaggacgaggagctggagctggccgCTGGCACCGTCGCCTTCCGCTGCGTGGAGTGCGCCGAGACGTTCCCAGACGCCGACAGCCACTGGGCCCACTACCGCCGGCACGTTGAGGAGGCCGAGGTGTgcgaggaggtggcggcgccggacGTCAAGCCCAAGCTGTACCCATGCACCAAGTGCCCCGAGGTGTTCCCGGACCGGCGCAGCCGCTTCCTGCACTGCGCCGTGCACGtgacgccgcgcggggccagcgccgccggccccagcgcgcccgtgCTCATCGACAAGGACAAGGGCCTGCAGTGCAATGCGTGCCAAGAGATCTTCCTCGACACCGAGAGCCACTGGTGGCACTACAAGACCGTGCACAACGTGGACGCCGAGCAGGTCGGCCCGGAGACGTACCAGATCGTGGAGCTGACCAACGACCCGACGGAGGACCCCATGACGAAGCGCTGCCAGTGCAGCAAGTGCCCGGAGACGTTCCCCAACCGCAAGGCGCACCACCGCCACTACAAGGCCGTGCACGCCatggagggcgtggcgcgctcgcCGCTCATGGTCGGCAGCTTCCCCTGCAGCCGGTGCCCGGAGGTGTTCGCCGACCGCAAGAGTCACTGGTGGCACTACCGCGCCCACACCGACGCGTCCGGCTCTGCCGCCGTGGAGCTGGCGGGCGAGCGTGCGGGCGAGCCCGGGGCGCTCCAGACCCACATGGAGGCCGAACCCGGCGAGCCTGCCGAAGAGGACGCCGGCGACGCTGCTGAAGAGGTCGCCGCGACGCACACGGAGAatgacgcgcccgcgcccaaaGAGTACCGCTGCAGCAGGTGCCCCGAGATGTTCCCGGACCTGGAGCAGCACTGGTGGCACTACCGCGTCCACACTGACGAGGAGTTCGTGGCCTCCGTCAAGGGGCTGGAGGAGCAGATGCCCCATGCCGAGACCACGCCCAGCAGCGGGAAGTACCAGTGCAGCAAGTGCCCGGAGAGTTTCCCGGACCGCAAGGCCCACTGGGCGCACTACAAGACGCACAAGACGGCGACTCCTCAGCAAGCCAAGGTCAGCAGCGGCACCAAGACGGGGGGCGAGCAGCAAGTCAAGCAGACCAAGAAGCACCAGTGTAACGTGTGCTCCAAGGTGTTCCAGCTCTGGATCAACCTGTTCAACCACAAGAAGTCACACGACCTCGCTCAGAGGGCAGCACCGAGTCAAGAGGGCGAGGCTACGGTAGCTCCACCGGCAGCCGAGACCCCCGCTCAGTCTACCACGTCGGTCCGCAAGTTCCCTTCCTCCGGACGCAGCCTGTGCTCCCCGTCGGTCGTCGTGGGCCGCTCCTTCAAGTGCAGCcactgcccggcgcgcctcaGCAGCCGGCGCCTGCTGTGGGCGCACTTCAAGACCCACAAGCAGAGCAACCGCTCGTACCCCTGCGGCGAGTGCGACGCCCAGTTCAactcgcgcggcgccctgcgcgctcACGTCGGGGCGCACGCCGTGGAGCTGGATCCGCTGGCCTCGATACCGGAGGAGCAGAGTGACAGCGGCTACCCGTGCTCCAAGTGCGACGCCGTGTTCAAGAACAAGGTGGCCCTGGGATCGCACCAGCGCGTTCATCCAGCACCGAAGCCTTTCAAGTGCAATAAATTGGTGAATGGAGGTGTCAACATCAAGATGGAGCCCATGGACAGCGAGGAGTTCCGGCTCTGTTGGGAGGACTCAAACTCCTCAGcagagcctgagcctgagccgcGACCGGTGCCGCACCGGTCCGTGCGGGACTGCTTTGTGCGGCTGGAGAACATCGTGCTGCCGGGCTTGcgggcgccccgtcccgagcGCAGCCCGTCCCcggaggccccgcgccgcgacggtgGACGGGGCCGCTCcagggcgcgctcgcgctccgtcgcccccgccaggcctgggTCCCGtgcggcgtcgcggccgcggcacaaGAGCCGCGATCCGAGGTCAGCGTCGTGCCCGAGGAAGCCGTCGTCGGGCATGCCCCGCATCATGCTGGGCCGGTCCAAGAGCGCCTCGGCGCAGGCCCTCCTCAAGTGCGCGCTGTGCCTCAAGTCCTTCCACCTGCTGGCCAGCCTCAACAAGCACGTGCAGGCGCACCAGTTGTCCACGCCCGACAGGTGCCTGCTGTGCGGGGCGCACGTCGAGGGGCTCGGCCAGGCCGTGGAGCACTTCttgtcccaccccgccgagcccctgggcccgggcccggaggcgACGGTGGAGTGCCGCGTGTGCGGCCGCGCGTTCCCCCGCAAGCGGCTGTACCGCCTCGCGACGCACGTGCTGACGCACACCGGCGAGCAGCCGTTCCACTGCGCCACCTGCCATGGCCAGTTCCGCACCACGTCCTCGGTGCTGCTCCACGCCCAGCGTGtccacggcgcgcgcgacgccggCTTCACGAAGAAGGCCGCCCTGGTGCGCTCGATCGCGCCCCAGTTCCgctgcgcgctgtgcgccgtgcgcgtgACCTCGGCGCGGCAGCTCGACAAGCACCAGCAGGAGGTGCACGGGGGTTGCAAGGGGCCGGGCGTCCACAGCGCCACGTGCCTGTACTGCCCCGTGGTGCTGGACTCGCCCGGGGACATGGAGCGCCACCTGCGGGAGGCGCACGCCCAGGACAGGCCGTACGCCTGCCAGCGCTGCCCCAAACGCTTCCCCACCAAGTGGGGTGTGGACCGCCACTACCGGCGCACTCACAGCCACAAGTTCAGCTGCTCGATGTGCCCCGCGCGCTTCAGCAACTCCAAGGCGTGCCTGGACCACGTGAACCAGGTGCACCAAAAGCCCACATCCGTCTGA
Protein Sequence: MSAGPWGGAGQGAALPFLSKDLSVMLRSDLFRALPEAASVLGSNSRSAPSSSDDPERRWWCNVCPAKFKMKQHLAVHYRLHTGEKPYKCPHCPKTFRHRSSQDYHAQVHRRDHELQKVILEYRAFLEFQGFQAPQGLRENGACGSADLLPRFDLVSGAGPSSTQPGGGIKPELGEDPERRFWCTACPARFKLKQHLLVHYRLHTGEKPFVCPHCPRRFTQKNGLVIHLRTHTGEKPFQCPHCSRQFAQKTVLDAHMRIHTGERPFPCPFCGQTFRQRSALKVHVGLHQQEHLYSVVSLYPPVTPRPREDLSDDFEIEYDNEWDDDWADRHPADDPDGLQPIVMLDRISLDSVPCSEPRPESRGTPEPGRGMAVRPYRCQHCQARFTAKKSLMLHMRRHVNEKPFACAHCPRRFSQRSALVMHERSHTSEAQAPFSCEECGRRFRFSKALATHLRDAHLGRPLKCAACDALFLTTGGLQEHEELRHGIVPPPAPKLEPEPDVESAAEPAASPASPAGPSLFKQNTTCYVCDKDFPTHSAMLVHARVHGAGSRFRCRQCPAHFSSWISLRSHWRIHSRANIHKCKLCPLRFGARTTLLNHLKQHDRAKGGNIVRCVKCLEAFDSRKALHAHVKAHHEESKEANPPPAAPRQSTSEPEVQERSKSDPKLYFCQTCPDVFDKYWNYWNHRKNLCPGVTGKPAAPSGKLVGKGFRCSTCGMRFKTRKLLYWHSQRHLVKSEPGADAEIQKTPAKDKAAEVEPTSASASPQKTFRCGKCSQPFPDRRALHIHSKTHSGAMVVIGVEDETMMQLDSSGLQEEGSPANPTPASAKKAKTSKNVFRCGQCGQSYRGRKLLWRHRKSCGIEDKMAGDEDMSAGTNDSVIKVETRPKKYRCTKCSEVFPDADSHWLHYKVHVTESIHEVVHSDAATDPLASPSYKCRTCAQVFPHRISLWWHYKSHLNDVEAEATCVSTSAAVGDPLPSTFRCEECPEEFPDEDLHWQHYKTHVSDVCEEVRQEKADEVEVQASYQCKKCSKTFMDERSHWVHYKVHADLPALAMYEIVKPANGQREGMPGQYRCSRCLELFADLEGHWWHFRTHYEPEELSRLELPVPARVGEGEDGLTAPDRSLYKCSQCPELFEDERSRWWHYRIHATDSSTCFEMVRSRPEYRCVKCSQVFPDVANHWLHFRTHYEAEAEVINADAHVNGKATPSPAEKQYRCSKCPELFENPEAHWKHYRQHFESVCREVSVSQDPGEDTTTYRCSKCDQVSDDLEAHWWHYRTHMDVGEDEELELAAGTVAFRCVECAETFPDADSHWAHYRRHVEEAEVCEEVAAPDVKPKLYPCTKCPEVFPDRRSRFLHCAVHVTPRGASAAGPSAPVLIDKDKGLQCNACQEIFLDTESHWWHYKTVHNVDAEQVGPETYQIVELTNDPTEDPMTKRCQCSKCPETFPNRKAHHRHYKAVHAMEGVARSPLMVGSFPCSRCPEVFADRKSHWWHYRAHTDASGSAAVELAGERAGEPGALQTHMEAEPGEPAEEDAGDAAEEVAATHTENDAPAPKEYRCSRCPEMFPDLEQHWWHYRVHTDEEFVASVKGLEEQMPHAETTPSSGKYQCSKCPESFPDRKAHWAHYKTHKTATPQQAKVSSGTKTGGEQQVKQTKKHQCNVCSKVFQLWINLFNHKKSHDLAQRAAPSQEGEATVAPPAAETPAQSTTSVRKFPSSGRSLCSPSVVVGRSFKCSHCPARLSSRRLLWAHFKTHKQSNRSYPCGECDAQFNSRGALRAHVGAHAVELDPLASIPEEQSDSGYPCSKCDAVFKNKVALGSHQRVHPAPKPFKCNKLVNGGVNIKMEPMDSEEFRLCWEDSNSSAEPEPEPRPVPHRSVRDCFVRLENIVLPGLRAPRPERSPSPEAPRRDGGRGRSRARSRSVAPARPGSRAASRPRHKSRDPRSASCPRKPSSGMPRIMLGRSKSASAQALLKCALCLKSFHLLASLNKHVQAHQLSTPDRCLLCGAHVEGLGQAVEHFLSHPAEPLGPGPEATVECRVCGRAFPRKRLYRLATHVLTHTGEQPFHCATCHGQFRTTSSVLLHAQRVHGARDAGFTKKAALVRSIAPQFRCALCAVRVTSARQLDKHQQEVHGGCKGPGVHSATCLYCPVVLDSPGDMERHLREAHAQDRPYACQRCPKRFPTKWGVDRHYRRTHSHKFSCSMCPARFSNSKACLDHVNQVHQKPTSV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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