Basic Information

Insect: Teleogryllus occipitalis
Gene Symbol: ZNF212_1
Assembly: GCA_011170035.1
Location: BLKR01003664.1:1031-109202[-]

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 4.4e-05 0.032 17.7 1.9 1 23 87 109 87 109 0.98

2 41 0.00076 0.56 13.8 0.2 1 21 115 135 115 136 0.97

3 41 0.00057 0.42 14.2 0.7 2 21 155 174 154 175 0.96

4 41 0.0011 0.83 13.3 4.2 1 23 190 212 190 212 0.99

5 41 0.0084 6.1 10.5 5.8 1 23 218 240 218 240 0.97

6 41 6.8e-05 0.049 17.1 0.2 1 23 303 325 303 325 0.99

7 41 0.0011 0.78 13.4 0.4 1 21 344 364 344 364 0.97

8 41 1.5 1.1e+03 3.5 0.2 2 23 364 385 364 385 0.96

9 41 0.02 15 9.4 0.2 1 21 391 411 391 412 0.97

10 41 0.006 4.4 11.0 0.5 1 23 432 454 432 454 0.99

11 41 0.00013 0.093 16.3 1.7 1 23 460 482 460 482 0.99

12 41 4.2e-05 0.03 17.8 1.2 1 23 511 533 511 533 0.99

13 41 0.52 3.8e+02 4.9 0.5 1 17 539 555 539 556 0.95

14 41 0.002 1.5 12.5 0.3 1 23 635 657 635 657 0.99

15 41 0.52 3.8e+02 4.9 0.5 1 17 663 679 663 680 0.95

16 41 0.0009 0.66 13.6 2.5 1 23 749 771 749 771 0.99

17 41 0.027 20 8.9 3.2 1 23 878 900 878 900 0.98

18 41 6.4e-05 0.047 17.2 3.1 1 23 959 981 959 981 0.98

19 41 1.6e-05 0.012 19.1 0.6 1 23 1055 1077 1055 1077 0.99

20 41 0.00039 0.29 14.7 4.6 1 23 1083 1105 1083 1105 0.99

21 41 3.4e-06 0.0025 21.2 1.6 1 23 1111 1133 1111 1133 0.99

22 41 0.00018 0.13 15.8 2.0 1 21 1139 1159 1139 1160 0.97

23 41 0.061 44 7.8 8.1 1 23 1179 1201 1179 1201 0.98

24 41 0.0021 1.5 12.5 2.4 1 20 1207 1226 1207 1227 0.97

25 41 0.0002 0.14 15.7 2.5 1 23 1309 1331 1309 1331 0.99

26 41 1.7 1.2e+03 3.3 0.4 1 13 1664 1676 1664 1677 0.87

27 41 0.00027 0.2 15.2 2.7 1 23 1699 1721 1699 1721 0.99

28 41 2.2 1.6e+03 3.0 0.3 1 15 1727 1741 1727 1743 0.88

29 41 5.9 4.3e+03 1.6 0.2 1 10 1761 1770 1761 1774 0.85

30 41 0.2 1.4e+02 6.2 0.8 5 22 1824 1841 1823 1841 0.93

31 41 0.00011 0.082 16.4 0.7 1 23 1865 1887 1865 1887 0.99

32 41 0.00017 0.12 15.9 3.9 1 23 1893 1915 1893 1915 0.99

33 41 0.00038 0.28 14.8 0.4 1 23 1941 1963 1941 1963 0.99

34 41 4.9 3.5e+03 1.8 0.1 1 12 1969 1980 1969 1984 0.87

35 41 0.048 35 8.1 1.1 1 23 2001 2023 2001 2023 0.99

36 41 0.00041 0.3 14.7 1.5 1 23 2054 2076 2054 2076 0.99

37 41 1.5 1.1e+03 3.4 0.6 1 13 2108 2120 2108 2122 0.86

38 41 0.017 12 9.6 2.9 1 21 2143 2163 2143 2164 0.97

39 41 0.21 1.6e+02 6.1 0.8 1 15 2184 2198 2184 2199 0.91

40 41 2.3e-05 0.017 18.6 1.6 1 23 2291 2313 2291 2313 0.99

41 41 1.7 1.3e+03 3.3 0.3 1 11 2319 2329 2319 2331 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	41	4.4e-05	0.032	17.7	1.9	1	23	87	109	87	109	0.98
2	41	0.00076	0.56	13.8	0.2	1	21	115	135	115	136	0.97
3	41	0.00057	0.42	14.2	0.7	2	21	155	174	154	175	0.96
4	41	0.0011	0.83	13.3	4.2	1	23	190	212	190	212	0.99
5	41	0.0084	6.1	10.5	5.8	1	23	218	240	218	240	0.97
6	41	6.8e-05	0.049	17.1	0.2	1	23	303	325	303	325	0.99
7	41	0.0011	0.78	13.4	0.4	1	21	344	364	344	364	0.97
8	41	1.5	1.1e+03	3.5	0.2	2	23	364	385	364	385	0.96
9	41	0.02	15	9.4	0.2	1	21	391	411	391	412	0.97
10	41	0.006	4.4	11.0	0.5	1	23	432	454	432	454	0.99
11	41	0.00013	0.093	16.3	1.7	1	23	460	482	460	482	0.99
12	41	4.2e-05	0.03	17.8	1.2	1	23	511	533	511	533	0.99
13	41	0.52	3.8e+02	4.9	0.5	1	17	539	555	539	556	0.95
14	41	0.002	1.5	12.5	0.3	1	23	635	657	635	657	0.99
15	41	0.52	3.8e+02	4.9	0.5	1	17	663	679	663	680	0.95
16	41	0.0009	0.66	13.6	2.5	1	23	749	771	749	771	0.99
17	41	0.027	20	8.9	3.2	1	23	878	900	878	900	0.98
18	41	6.4e-05	0.047	17.2	3.1	1	23	959	981	959	981	0.98
19	41	1.6e-05	0.012	19.1	0.6	1	23	1055	1077	1055	1077	0.99
20	41	0.00039	0.29	14.7	4.6	1	23	1083	1105	1083	1105	0.99
21	41	3.4e-06	0.0025	21.2	1.6	1	23	1111	1133	1111	1133	0.99
22	41	0.00018	0.13	15.8	2.0	1	21	1139	1159	1139	1160	0.97
23	41	0.061	44	7.8	8.1	1	23	1179	1201	1179	1201	0.98
24	41	0.0021	1.5	12.5	2.4	1	20	1207	1226	1207	1227	0.97
25	41	0.0002	0.14	15.7	2.5	1	23	1309	1331	1309	1331	0.99
26	41	1.7	1.2e+03	3.3	0.4	1	13	1664	1676	1664	1677	0.87
27	41	0.00027	0.2	15.2	2.7	1	23	1699	1721	1699	1721	0.99
28	41	2.2	1.6e+03	3.0	0.3	1	15	1727	1741	1727	1743	0.88
29	41	5.9	4.3e+03	1.6	0.2	1	10	1761	1770	1761	1774	0.85
30	41	0.2	1.4e+02	6.2	0.8	5	22	1824	1841	1823	1841	0.93
31	41	0.00011	0.082	16.4	0.7	1	23	1865	1887	1865	1887	0.99
32	41	0.00017	0.12	15.9	3.9	1	23	1893	1915	1893	1915	0.99
33	41	0.00038	0.28	14.8	0.4	1	23	1941	1963	1941	1963	0.99
34	41	4.9	3.5e+03	1.8	0.1	1	12	1969	1980	1969	1984	0.87
35	41	0.048	35	8.1	1.1	1	23	2001	2023	2001	2023	0.99
36	41	0.00041	0.3	14.7	1.5	1	23	2054	2076	2054	2076	0.99
37	41	1.5	1.1e+03	3.4	0.6	1	13	2108	2120	2108	2122	0.86
38	41	0.017	12	9.6	2.9	1	21	2143	2163	2143	2164	0.97
39	41	0.21	1.6e+02	6.1	0.8	1	15	2184	2198	2184	2199	0.91
40	41	2.3e-05	0.017	18.6	1.6	1	23	2291	2313	2291	2313	0.99
41	41	1.7	1.3e+03	3.3	0.3	1	11	2319	2329	2319	2331	0.87

Sequence Information

Coding Sequence: ATGAGACTTTGCCCTTGGGTTGGTTCCCAGGGGGTGTCCCCGCGGGATCTGCACTGcgcgggacggcgacggtggcgccgcgtgGCGGCCGCTTCCACTGCGGCCAGTGCGGCTACTCCACCAAAGACGCCTCCGTCTGGGCCACGCATcagcgcgtgcacacgggcgagagGCCTTTTAAGTGCACGGTCTGCTCGGGATGTCCTTGCGGGTTCTGCGCGCCGCGGGATGGcgccggtggcgccgcggggTGGCCGCTTCCAGTGCCACGATTGCGGCTACTCTACCACCGGCGCCCATTTGTTGGCCAGGCACCAGCGCGcgcacacgggcgagaagccttacaagtgcacgCTCTGCGCCTACGCTACAACGCAGCTCGGCAACTTAAATAAGCACATGCGGGATGTCCTTGCGAGTTCTGCGCggccggcgacggtggcgccgcggggtGGCCGTGTGCAGTGCGGGCAGTGCGGCTACTCCACCTGCAAAGCCTCCTCTCTGACCAGGCACCAGCGGGGTGCTCGGCGCGGGacagcgacggtggcgccgcggggcggccgcttccagtgcCGCAACTGCGGCTACGCCACCAACCACTCCTCTCATTGGACCATGCACCAGCGCGTGCACGCTGGCGAGAAGACGCACAAGTGCTCGGTCTGCGCCTACGCTACAAAGCAACAGGGCCACTTGAATAGGCATATGCATCAACACACCGGGGAGAAGTCTTACAAATGCAGCCTCTGCCCCTACGCTGCGATTCAAGCCTGGGATACACGACGCCGGTTGGCGACGGCGGGGCCGCGTGACGGCTGTTTCCAAAGCAGCGTCTGCGGCTTCACTACCAGTGAATCCTCTCGTGGGACCAGGCACCAGCGCGTGCACTCAGACGAGAAGACATACAAGTGCACGGTCTGCGCCTACGCTACAGCGGATGCGAGCAACTTACGTGTCCACTTGCGGAAACACACCGGGAAGAAGCCGTATCGCGGGAAGGCGACGGTGGCGTCGCGGTGCGACAACTTCGAGTGCAGCCACTGCGGCTACGCCACCAACAACTCCTATGATTGGATCAagcaccagcgctgcCGTCACTGCCCGTACGCCACCGACGAAGCCTACAGATGGGCCAGGCACCAGAGCGTGCACACCGGCGAGAGGCCCTACAAGTGCACGCTCTGCCCCTTCGCCTCGGCGCAGGTCTGCAACCTCAATGTgcacatgcGGGGTGTCCCTGCTGGGTCTGCGCTGCGCgagacgacggcggtggcgccgcgtggCGGCCGCTTCCAGTGCGGCCAATGCGGCTACGCCACCGACGGCGCCTGCTTCTTGGAAAGACACCTCCGCGTCCACACCGGCGAGAGACCCTACAAGTGCACTTTCTGCCCCTTCTCCACGTCGCAGCTCGGCAACTTGAATGTGCACAGACggaaacacaccggggagaagccgttTCAATGGGGTGTACGCGCGGGGTCTGTGCGGCGCGGGACAgcgagggtggcggcgcggggcggccgcttccagtgcGGCCACTGCGGCTACGCCACCAACGACTCCTACGATTGGACCAAacaccagcgcgtgcacacgggGGAGAAACCCTACAAGTGCACGTTCTGCCCCTTCTCCACGTCGCAGCTCGGCAACTTGAATGGGGTGTTCGTGGAAGGGCAGTGCCGCGcgagacggcgacggtggcgccgcggggcggccgcttccagtgcCACCATTGCGGCTATTCCACCAACAAATCTTCTCATTGGAGCAGTCACCAGCGGGTGCACACCGACGAGAGACCCTACAAGTGCACGTTCTGCCCCTTCTCCACGGGGTGTTCGCACCGGGCCTGTGCGCCGCGggtcggcgacggtggcgccgcggggcggccgtTTCCAGTGCGGCCACTGCGGCTACGCAACCAACTACCCGTCCGTCTGGGCCACGCACCAGCGCGTGCACAACGACGAGAGACCCTACAAGTGCACGTTCTGTCCTTTCTCGACGTCGCAGCTCGGCAACTTGAATGGGGTGTTCGCGCGGGGCCTGCGCGGCACGGGtcagcgacggtggcgccgcggggcggccgtTTCCAGTGCAGCCACTGCAGTTACGCCACCAACTATCCCTCCGTGTGGGCCTCCCACCTGCGCGTGCACTCAGGCGAGAAACCGGGGTGTTCGTGGAAGGGCTgtgcggcgtgggacggcgacggtggcgccgatGTGCGGCCGTTTCCAGTGCAACCACTGCGGCTACACTACCAACGACTCGTACCGCTGGGTCAcgcaccagcgcgtgcacacgggGGAGAAGCCATACAATCACCTGCCCTCTGAACGCCAATACAAGCGCGACGAACCGCCGCCTTTTCCCGCCGGCAAATTCGTTGCCCGTGTCACATGTTTGCGTTCGTGCCCGTTCCTCTTCTATAACTCACTGGGGGTGTTCGCGGAAGGTCTGTGCGGCGCGggaaggcggcggaggctgcgcggaGCGGGCGTTTCCAGTGCAACCACTGCGACTACGCCGCTCACTACTACTACGATTGGACCAAacaccagcgcTGTTGGCACGGGGTCTCCGCTGCAAGGGAAGGCGattgcggcgcggggcggccgcttccagtgcagACAGTGCCGCTACGCCACGAACGACTTCTCTCACTGGACCAGGCACCAGCTCGTGCACGCGGGAGAGAAGCCTCACCAGTGCACACTCGTCGCCGATGCCGTGTGCACGCCCTTTTTCCCCGCAGGCAAATGCACTTGCCGACCCTTCGGTTTCGTGTCCGCCCGGTCCGCGGGGAGTGTTGGCACGGGGTCTCCGCTGCAAGGGAAGGCGattgcggcgcggggcggccgcttccagtgcagccATTGCGGCTACGCCACCAATGACTCCTCTCATTGGACCAGACACCAGCTCGTGCACGCGGGAGAGAAGCCGTACAAGTGCACGCTCTGCCCCTACGCTACAATGGAGTGTTCGCCCGAGGGTTGCGCGGCGCGGGACATCGACTGTGGCGCCGAGGTGCGCCCGTTTCCAGTGCAGCCACTGCGGCTACAACACCAACGACTCCTACCGTTGGGGGATGTTCGCGGCAGATGTGCGCGGCTcgggacggtgacggtggcgccgAGGGGAGGCCGCTTCCAGTGCAGCTATTGTGGATACTCCACCAACGACTCCGAAGCTTGGACCAagcaccagcgcgtgcacactagggagaagccttacaagtgcacgCTCTGTCCCTTCTCCGCGACGCAGTCCTGCCACTTAAATGTgcacatgcgtactcacaccggggagaagccttTCAAGTGCACTGTCTGTCCCTTCTCCGCGACGCAGTCCAACAATTTAAAGAGGCACATGCGAACTCACACTGGGGAGAAACCTTACAAGTGCACAATCTGCCCCTTCTCTACAACGCAATCTTGCCACTTAAATGCGCACATGCGGGGTCTTCGCACGGGGTCTGCGCGGCGCGAGATGGCGATGGCGTCGCGGAGCGGGCGTTTCCATTGCAACCACTGCAGCTACGTCACCAACAACTGCTATGATTGGACGAagcaccagcgcgtgcacactggggagaagccttacaagtgcactTTCTGCCCCTACGCGACGACGCAGTCCTGCAACTTAAAGAGGCACATAACTTGCCCTCTACAAGAACGCTATCTACCTCCGTTACTCCCACACACACTGCTCCCGTCGCCCTGCGACATGGGTGGGGGTGCACGACTCCTCAACTGGCTCTGTTATGTGCCGTCTTTTGTTCCTATGTGGCCGACAGTTTTCCAACCCCCGATAGCACGTTCGGAAGCTTGGCTGCCAACTGGGGGTGTTCGTGGAAGGGCTgtgcggcgcgggacggcgacggtggcgccacGGAGCGGTCGTTTCCAGTGCAACCACTGCAGCTACGCTACCAACGACTCCTATGATTGGACCaggcaccagcgcgtgcacaccGGCGAGAAGCCTTTCAACCTCTCGCCCCCACACGCTTCGCCCGTGTGCCCTGCCCGCTTTATCCGGCCTTCCGTGGCCGTCCTGATTAAAACTCTTCCCGCTCAACTAGTCCCTTCCGCCCTATCTTTTCCTGCCCATCTCACTTCCTTCACATCGTCCGCAAGCTTTATTCGTCCTGCCTTGGCTGTTATGCCTACAGCTCCCGCACTTGTCCAGTCTATTCCGCTCGTTcatatcgggggggggggggcttccgCAGCTTTATCATACTATCTTGGCTGTTCGGCCCTCAGTCGTGCCCCATCTATCCAGTCTCTTGCTGCATCACTTCCTGCCGTTCGTCACGCTTCGTCTGTGGCTTCCAGCCCCTTGCGTTGTATCTGTTCCTCCCGTTTATCTCCCCCGCACGCTCTTTCTGTCATATCATGGCCGTTCTGCCCCGCCCATCTAGCTACATCCGCTCTATACTTCCCGCTTATCACGCACCTCTCGCCTTGTCACCACACACTTTTCTTCCACTCGGCCTCTTCTTTCGCTTCCTCACGGATCGCTGAACGactcctccctctcctttcgcTTCTATCGCTCCTCTCGCTTATTTTGCTTCGCCAGTTCCTTGCTATCCTTCTCCTCCCGCCTTTCTCGTTCCGCCAGTTCTGCCCTCTCCGTCCGGTCCTTCTCGGCCGcgcccgcGCGACGATGGCGCCACTGAGCTGCCGTTTCCTGTGCGGCCACTGCGGTGACGCCACCAACGACTCCTCTCATTGGGCACGCACCAGCGCGTGCACTCTGGGGAGAAGCCAGGACGGAGATGGTTGCGCCCCGGTGCGGCCGTTTCCAGTGCAGCCACTGCGGGTACTCCACCAACGTCTCCGATTGTTGGAGCAGACACTAGCGTGTGCGCACCGGCGAGACGCCTGGCTAGTGCACGGGAGTGCTCGCGGAAGGACTCTGCGGCGCGGGACGACGACGATAGAGCCGGCTGGGTGTCGCTTCCAATGTGGCTACTGCGGTTACGCCACAAGAGACGCCTACCGGGGCGTTCGCGGAAGGACTGTGCGGCGCGGGATGGCGACGGTGGCGCAGCCGGGTggccgcttccagtgcagccATTGCGGTTACACTACCAACGACTCCTACCGTTGGATCaggcaccagcgcgtgcacacgggGGAGAAGCCTTACCAGTGCACGCTCTGCCCCTTCTCCACGTCACAGTCTGGGAGTGTTCGCGGAAGGACTGTGCGGCGTGGGACAGCAACGTCGGTGCCGCCTGGATGCCGCTTTCAGTGCAGCCAATGCGGTTACGCCACCAACGTTTCCAACCCGAGGACTGTCCAGCATGGAACGGCGACGGTGGCCCCGCGGGAcggccgcttccagtgcagccACTACGACTGCGCCACCAACGGCCCGCCCTTTTCGGCCAGACACCAGCGCGTGTACATTGACGAGAAGCCCTACGAGGGCACTTTCTGCCCTTTCTCTACGTCCCAGCACGACAACTTACATGTTCACATGCGGAAATACACCGGGGCTCTTCGCGCCAGGGCTGCGCGCCGtcggacggcgacggtggcggcgcgcggcggccgcttccagtgcagcGACTGCGGCTACGCCACCAACGAGTCCTACTATTGGACCAGGCACCAGCGCGTGCACTCGGGCGAGAAGCCGTTCAAGTGCACGCTCTGCCCCTACGCGACGACGCATTCCTGGAACTTACATGTgcacatgcggaaacacaccggCGAGAAGCCCTATGCGTGTTCACAGTGGGGTCTTCGCGGGATGGCGTCGGTGGCGCTGCGGGGCAACCGCTTCCAGTGCAGCGACTGCGGCTACATGACCAACGACTCCTCCCGCTGGGTCAcgcaccagcgcgtgcacacgggcgagaagcctTTCAAGTGCACGGTCTGCCCCTATGCTACAACGCAGCTCAGGGGTGTTCGCGGAAGGGCTGCGCGGCGGACGACGGCGGCACAGCCAGGTggccgcttccagtgcagccACTGCGCCTACGCCATCAACGACTCCTACCGATGGGTCCggcaccagcgcgtgcacacgggGGAGAAACCTTACCAGTGCACGCTCTGCACTTTCTCCACGTCACCGCGGCGCGCGACGGCGATGGTGGCGTCTCGGGGCGACCGCTTCCAGTGCAGCCAGTGCGGATACTCCACCAACCATCCCACTTCTTGGGTCAcgcaccagcgcgtgcacacgggcgagaagcctTTCAAGTGCACGGTCTGGGGTGTTCGCACGCGGTctgcgcggcgcgggacggcgatGGAGGCGCCGCGCTCTggccgcttccagtgcagccACTGCGACTACGCCACCAACGACTCCTATTGGGGTGTTCCTACGAGGTCTTCCCGGCAGGGGATGTTCACTGTGGCGCCGCGGTGCGGCCGTTTCCAGTGCAGCCACTGCGGTTACGCCACAAATGACTCCTGCCATATGGTCACGCACCAGCGGGGTGTTCGCTCGAGGTCTTCACGGCGTGGGGTGGCGACTGTGGCGCAGCGGTGCGGCCGTTTCCAGTGCAGCCACTGCGGTTATGTCACCAACGACTCCTACCATTGGGGGGTGTTCGCACGAGGTCTTCACGGCGTGGGGTGGCGACTGTGGCGCAGCGGTGCGGCCGTTTCCAGTGCAGCCACTGCGGTTATGGGATGTTCGCGGAAGGTCAGCGCGGCGTGGGACGGCACTGGTGGCGCCGCAGAGCGGCCGATTCCAGTGCAGCCACTGCAGTTACTCCACCGCCTATTTCTCTCATTGGACGCGGCACCTACGGGGCGTGTTCGTCCGAAGGTTGCCCGGCGCGGGACAGCGACGGTGACTCCGCGGGACGGCCGTTACCAGTGCAGCTACTGCGACTACGCCACCAACGACTCCTCTCATTGGGTCAGGCACCAAcgcgtgcacacgggcgagaagcctTACACCTGCACGATTTGCGGCTATGCTACAACGCAGGGGGTGTACGCGGAATGTCTGCACTGCGCGggtcggcgacggtggcgccgcgggcaggccgcttccagtgcagccACTGCGGCCACGCCTTCAACGGCTTCTATGATTGGACCCAACACCAGCGCGCGCACAGGGCGGAGAGACCCTACAAGTGTTCGCTTTGCTCCTTCTCCTCGACGCAGCCTGGCAACTTAA
Protein Sequence: MRLCPWVGSQGVSPRDLHCAGRRRWRRVAAASTAASAATPPKTPPSGPRISACTRARGLLSARSARDVLAGSARRGMAPVAPRGGRFQCHDCGYSTTGAHLLARHQRAHTGEKPYKCTLCAYATTQLGNLNKHMRDVLASSARPATVAPRGGRVQCGQCGYSTCKASSLTRHQRGARRGTATVAPRGGRFQCRNCGYATNHSSHWTMHQRVHAGEKTHKCSVCAYATKQQGHLNRHMHQHTGEKSYKCSLCPYAAIQAWDTRRRLATAGPRDGCFQSSVCGFTTSESSRGTRHQRVHSDEKTYKCTVCAYATADASNLRVHLRKHTGKKPYRGKATVASRCDNFECSHCGYATNNSYDWIKHQRCRHCPYATDEAYRWARHQSVHTGERPYKCTLCPFASAQVCNLNVHMRGVPAGSALRETTAVAPRGGRFQCGQCGYATDGACFLERHLRVHTGERPYKCTFCPFSTSQLGNLNVHRRKHTGEKPFQWGVRAGSVRRGTARVAARGGRFQCGHCGYATNDSYDWTKHQRVHTGEKPYKCTFCPFSTSQLGNLNGVFVEGQCRARRRRWRRGAAASSATIAAIPPTNLLIGAVTSGCTPTRDPTSARSAPSPRGVRTGPVRRGSATVAPRGGRFQCGHCGYATNYPSVWATHQRVHNDERPYKCTFCPFSTSQLGNLNGVFARGLRGTGQRRWRRGAAVSSAATAVTPPTIPPCGPPTCACTQARNRGVRGRAVRRGTATVAPMCGRFQCNHCGYTTNDSYRWVTHQRVHTGEKPYNHLPSERQYKRDEPPPFPAGKFVARVTCLRSCPFLFYNSLGVFAEGLCGAGRRRRLRGAGVSSATTATTPLTTTTIGPNTSAVGTGSPLQGKAIAARGGRFQCRQCRYATNDFSHWTRHQLVHAGEKPHQCTLVADAVCTPFFPAGKCTCRPFGFVSARSAGSVGTGSPLQGKAIAARGGRFQCSHCGYATNDSSHWTRHQLVHAGEKPYKCTLCPYATMECSPEGCAARDIDCGAEVRPFPVQPLRLQHQRLLPLGDVRGRCARLGTVTVAPRGGRFQCSYCGYSTNDSEAWTKHQRVHTREKPYKCTLCPFSATQSCHLNVHMRTHTGEKPFKCTVCPFSATQSNNLKRHMRTHTGEKPYKCTICPFSTTQSCHLNAHMRGLRTGSARREMAMASRSGRFHCNHCSYVTNNCYDWTKHQRVHTGEKPYKCTFCPYATTQSCNLKRHITCPLQERYLPPLLPHTLLPSPCDMGGGARLLNWLCYVPSFVPMWPTVFQPPIARSEAWLPTGGVRGRAVRRGTATVAPRSGRFQCNHCSYATNDSYDWTRHQRVHTGEKPFNLSPPHASPVCPARFIRPSVAVLIKTLPAQLVPSALSFPAHLTSFTSSASFIRPALAVMPTAPALVQSIPLVHIGGGGASAALSYYLGCSALSRAPSIQSLAASLPAVRHASSVASSPLRCICSSRLSPPHALSVISWPFCPAHLATSALYFPLITHLSPCHHTLFFHSASSFASSRIAERLLPLLSLLSLLSLILLRQFLAILLLPPFSFRQFCPLRPVLLGRARATMAPLSCRFLCGHCGDATNDSSHWARTSACTLGRSQDGDGCAPVRPFPVQPLRVLHQRLRLLEQTLACAHRRDAWLVHGSARGRTLRRGTTTIEPAGCRFQCGYCGYATRDAYRGVRGRTVRRGMATVAQPGGRFQCSHCGYTTNDSYRWIRHQRVHTGEKPYQCTLCPFSTSQSGSVRGRTVRRGTATSVPPGCRFQCSQCGYATNVSNPRTVQHGTATVAPRDGRFQCSHYDCATNGPPFSARHQRVYIDEKPYEGTFCPFSTSQHDNLHVHMRKYTGALRARAARRRTATVAARGGRFQCSDCGYATNESYYWTRHQRVHSGEKPFKCTLCPYATTHSWNLHVHMRKHTGEKPYACSQWGLRGMASVALRGNRFQCSDCGYMTNDSSRWVTHQRVHTGEKPFKCTVCPYATTQLRGVRGRAARRTTAAQPGGRFQCSHCAYAINDSYRWVRHQRVHTGEKPYQCTLCTFSTSPRRATAMVASRGDRFQCSQCGYSTNHPTSWVTHQRVHTGEKPFKCTVWGVRTRSARRGTAMEAPRSGRFQCSHCDYATNDSYWGVPTRSSRQGMFTVAPRCGRFQCSHCGYATNDSCHMVTHQRGVRSRSSRRGVATVAQRCGRFQCSHCGYVTNDSYHWGVFARGLHGVGWRLWRSGAAVSSAATAVMGCSRKVSAAWDGTGGAAERPIPVQPLQLLHRLFLSLDAAPTGRVRPKVARRGTATVTPRDGRYQCSYCDYATNDSSHWVRHQRVHTGEKPYTCTICGYATTQGVYAECLHCAGRRRWRRGQAASSAATAATPSTASMIGPNTSARTGRRDPTSVRFAPSPRRSLAT*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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