Basic Information

Insect: Teleopsis dalmanni
Gene Symbol: su(Hw)
Assembly: GCA_002237135.5
Location: CM026971.3:132112503-132140571[+]

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 0.003 0.46 12.3 5.1 1 23 280 302 280 302 0.97

2 37 0.0088 1.4 10.8 4.3 1 23 308 330 308 330 0.98

3 37 6e-06 0.00093 20.8 2.6 1 23 336 358 336 358 0.99

4 37 0.00022 0.034 15.9 2.7 1 23 364 386 364 386 0.95

5 37 0.00068 0.1 14.4 3.0 1 23 392 414 392 414 0.98

6 37 0.0047 0.73 11.7 4.4 1 23 420 442 420 442 0.98

7 37 1.1e-06 0.00017 23.2 3.4 1 23 448 470 448 470 0.98

8 37 0.00018 0.027 16.2 0.2 1 23 476 498 476 498 0.97

9 37 0.022 3.4 9.6 6.2 1 23 504 526 504 526 0.98

10 37 2.7e-05 0.0041 18.8 3.7 1 23 532 554 532 554 0.97

11 37 0.042 6.5 8.7 0.8 7 23 564 580 558 580 0.88

12 37 0.0037 0.58 12.0 0.4 1 22 595 616 595 619 0.90

13 37 0.0024 0.38 12.6 7.2 1 23 878 900 878 900 0.97

14 37 0.00033 0.05 15.4 7.3 1 23 906 928 906 928 0.99

15 37 0.00042 0.065 15.0 1.1 1 23 934 956 934 956 0.95

16 37 0.00077 0.12 14.2 4.0 2 23 1025 1047 1024 1047 0.95

17 37 0.00015 0.024 16.4 0.9 2 23 1095 1117 1094 1117 0.94

18 37 0.35 54 5.8 0.6 1 23 1123 1145 1123 1145 0.97

19 37 0.00012 0.018 16.8 0.4 2 23 1154 1175 1153 1175 0.97

20 37 0.1 15 7.5 7.0 1 23 1181 1203 1181 1203 0.98

21 37 1.5e-05 0.0023 19.6 2.3 1 23 1209 1231 1209 1231 0.97

22 37 0.00025 0.039 15.7 3.9 1 23 1237 1259 1237 1259 0.98

23 37 7.3e-05 0.011 17.4 7.3 1 23 1265 1287 1265 1287 0.98

24 37 0.00026 0.041 15.7 1.9 1 23 1293 1315 1293 1315 0.97

25 37 6.3e-06 0.00098 20.7 1.8 1 23 1319 1341 1319 1341 0.97

26 37 0.00023 0.035 15.8 1.1 1 23 1356 1380 1356 1380 0.92

27 37 0.0015 0.23 13.3 0.5 3 23 1678 1698 1676 1698 0.95

28 37 0.002 0.31 12.9 2.2 1 23 1704 1726 1704 1726 0.98

29 37 0.5 78 5.3 1.2 1 23 1732 1754 1732 1754 0.92

30 37 0.00011 0.017 16.9 1.9 1 23 1758 1780 1758 1780 0.97

31 37 0.00058 0.089 14.6 3.3 1 23 1896 1918 1896 1918 0.97

32 37 2.2e-05 0.0033 19.1 1.4 1 23 1924 1946 1924 1946 0.98

33 37 1.6e-05 0.0025 19.4 1.5 1 23 1952 1974 1952 1974 0.97

34 37 0.00036 0.056 15.2 0.6 3 23 1980 2000 1978 2000 0.97

35 37 0.15 23 7.0 0.1 3 23 2034 2055 2033 2055 0.92

36 37 0.0038 0.58 12.0 0.2 5 23 2153 2171 2152 2171 0.96

37 37 4.8e-06 0.00075 21.1 2.2 1 23 2177 2199 2177 2199 0.98

#	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	0.003	0.46	12.3	5.1	1	23	280	302	280	302	0.97
2	37	0.0088	1.4	10.8	4.3	1	23	308	330	308	330	0.98
3	37	6e-06	0.00093	20.8	2.6	1	23	336	358	336	358	0.99
4	37	0.00022	0.034	15.9	2.7	1	23	364	386	364	386	0.95
5	37	0.00068	0.1	14.4	3.0	1	23	392	414	392	414	0.98
6	37	0.0047	0.73	11.7	4.4	1	23	420	442	420	442	0.98
7	37	1.1e-06	0.00017	23.2	3.4	1	23	448	470	448	470	0.98
8	37	0.00018	0.027	16.2	0.2	1	23	476	498	476	498	0.97
9	37	0.022	3.4	9.6	6.2	1	23	504	526	504	526	0.98
10	37	2.7e-05	0.0041	18.8	3.7	1	23	532	554	532	554	0.97
11	37	0.042	6.5	8.7	0.8	7	23	564	580	558	580	0.88
12	37	0.0037	0.58	12.0	0.4	1	22	595	616	595	619	0.90
13	37	0.0024	0.38	12.6	7.2	1	23	878	900	878	900	0.97
14	37	0.00033	0.05	15.4	7.3	1	23	906	928	906	928	0.99
15	37	0.00042	0.065	15.0	1.1	1	23	934	956	934	956	0.95
16	37	0.00077	0.12	14.2	4.0	2	23	1025	1047	1024	1047	0.95
17	37	0.00015	0.024	16.4	0.9	2	23	1095	1117	1094	1117	0.94
18	37	0.35	54	5.8	0.6	1	23	1123	1145	1123	1145	0.97
19	37	0.00012	0.018	16.8	0.4	2	23	1154	1175	1153	1175	0.97
20	37	0.1	15	7.5	7.0	1	23	1181	1203	1181	1203	0.98
21	37	1.5e-05	0.0023	19.6	2.3	1	23	1209	1231	1209	1231	0.97
22	37	0.00025	0.039	15.7	3.9	1	23	1237	1259	1237	1259	0.98
23	37	7.3e-05	0.011	17.4	7.3	1	23	1265	1287	1265	1287	0.98
24	37	0.00026	0.041	15.7	1.9	1	23	1293	1315	1293	1315	0.97
25	37	6.3e-06	0.00098	20.7	1.8	1	23	1319	1341	1319	1341	0.97
26	37	0.00023	0.035	15.8	1.1	1	23	1356	1380	1356	1380	0.92
27	37	0.0015	0.23	13.3	0.5	3	23	1678	1698	1676	1698	0.95
28	37	0.002	0.31	12.9	2.2	1	23	1704	1726	1704	1726	0.98
29	37	0.5	78	5.3	1.2	1	23	1732	1754	1732	1754	0.92
30	37	0.00011	0.017	16.9	1.9	1	23	1758	1780	1758	1780	0.97
31	37	0.00058	0.089	14.6	3.3	1	23	1896	1918	1896	1918	0.97
32	37	2.2e-05	0.0033	19.1	1.4	1	23	1924	1946	1924	1946	0.98
33	37	1.6e-05	0.0025	19.4	1.5	1	23	1952	1974	1952	1974	0.97
34	37	0.00036	0.056	15.2	0.6	3	23	1980	2000	1978	2000	0.97
35	37	0.15	23	7.0	0.1	3	23	2034	2055	2033	2055	0.92
36	37	0.0038	0.58	12.0	0.2	5	23	2153	2171	2152	2171	0.96
37	37	4.8e-06	0.00075	21.1	2.2	1	23	2177	2199	2177	2199	0.98

Sequence Information

Coding Sequence: ATGTATGCAACAGAGGAGGAACTTAATAAGCATATTGACATGGAAGTTCATGCAGcAACTGGACGAACAGATTGTGTGCTCGATTCAATTGAAACTTTAAATTCTCATATACTTGAGATTGACAAAGATGAGTCTGAGACCTTCGACAAAGAAAAACTGACTCCAAAATTAGGACCAAATTGTTCCATCGTCTCGATAAAAAAGATTTACAGAATTGATGATTTCAAcgaaaattcatttgaaaatattacaattaataataatgttacgCTACCAGAGAAACTTAAAGAACAAATATCAACGGAAACAGACGTTATTCCACAACCTCATGTTGAGTATGataatgaagtaattaaaaatgagaGTATTATACAGAAGCTGAACGATATTGCTTCAGAAACTCTAGCTGGTGTTGAAGAAaactttataaatgaaaaagcaaCAGAGAGTTTGTTATTAGAAAACCTAGACTGTTCTGTAATAACGATAGAAAATGAGACAACAAAATTGGAACCGggaactattgtttttaaaactcaAACTCGTAGCATTATTCTACCGGGATTTGTAAACACTGAAACTTATGAAGATTGTacagaaaatgtattattagaaaataatacgaTAGAAGATGAATTCATAAAAATGGAACCGGAAACTGCTCTCACTGAAACACTCAGTGGTACAATTACAGACAATGGAACCTCGTTCGAAAGTGGCAGTGaagtacaaaatttaaacaaaaataatgcaacTGAAACAACCACAGAAAATCCCTTTAACGAAAACGAATTATCAATTTCGAaTATTCATAAAAGTATGACAGAAAGGCGATTTTTTGCTTGTGACTTTTGTAAGAAGAAGTTTCGGTTTTACAGCAGATTAAGAAATCATCGTCGTTCTCATACTGATGAGAAACCTTATGAATGTACcgaatgcaATCAAAGATTTTCTGCAAAGAGCACACTTAAGTGTCATATGACtcgacatactggtgaaaaattctttaagtgTACAGAAtgtgATCAAAGTTTTTCTACTAAACGTGCTCTAAATTATCATTTGAAGCGACATAAAGGTGAAAAATCCTTCTTATGCACTGAAtgtagTAAAAGTTATGCTTTTAAGCATTCCCTTAACATTCATATGAGGCtacatactggtgaaaaaccgTACTCATGCACAGaaTGTAATCAAAGTTTTACTGCTAAGCAATCACTTCATCTTCATGTGAGgcgacatactggtgaaaaacctTACTCATGCacagaatgTAATCAAAGTTTTGCTGTTAGGCATGCACTCAACTGTCACATGCGGCGACATAATGGCGAAAAGCCGTATTCTTGTacagaatgtaataaaagtttttctgttAAGCATGCACTCAATCGTCATATGAATCGTCATACTGGTGATAAACCCTATCCATGCACTGAATGTAATCAAAATTTCAATGATTTGCGTTCACTCAATGACCACATGGCCCTACACACCGGAGAAAAACCCTATTCATGCACTAAATGCAATAAAAGTTATTCTATTAAAAGTTCACTCTATTGTCATATGAAGAGACATGCTACTGAAAAACCATATGTTTGTAAAGATTGTGGAAAACGTTTTAAACGAGGTCGTAATCTACATCGCCACAAGAGCATTCATCTACCTGCATTTACCTGTAATCAGTATCAAAAAAGGTTCACATCCAACAAGGGACTTAAGCAACATATTAGGATTCATTCATCCAAAAGCAATGATGAAAATGAAACCCAAAAGTATAAATTCAGTTGCAAAGAATGCGAAGTGATGTATACAACAGAGGAGGAACTTAATAAGCATTATGACATGAAAGTTCATGTAGcAACTGGACGAACAGATTGTGTGCTCGATTCAGTTGAAACTTTAAATTCTCATATACTTGAGATTGACAAAGATGAGTCTGAGACCTTCGACAAAGGAAAGCTTACTCCAAAATTAGGAACAAATCGTTCCATCTTCTCGATAAAAAAGATTTACAGAATTGATGATTTCAACGAAAATTCAActgaaaatattacaattaataataatattacgcTACCAGAGAAACTTAAAGAACAAATATCAACGGAAACAGACGTTATTCCACAACCTCATGTTGAGTATGataatgaagtaattaaaaatgagaGTATTATACAGAAGCTGAACGATATTGCTTCAGAAACTCTAGCTGGTGTTgaacaaaactttataaatgaaaaagcaaCAGAGAGTTTGTTATTAGAAAATCTAGACTGTTCTGTAATAATGATAGAAAATGAGACAACAAAATTGGAACCAGGAACTATAGTTTTCGAAAATCAAACTAGTGGCATTATTCTACCGGGCTTTGTAAACACTGAAACTTATGAAGCTTGTACAGAAAATAACACGATAGAAGATGAATTCATAAAAATGGAACCGGAAACTGCTCTCACTGAAACACTCAGTGGTACAATTACAGACAATGGAACCTCGTTCGAAAGTGGCAGTGAAgtacaaaatttaagaaaaaataatgcaaCTGAAACAACCACAGAAAATTCCTTTAACGAAAAGGAATTATCAATTTcgaaTATTCATAAAGGTATAACCACAGAAAAGCGATATTTTGCTTGTGACTTTTGTAAGAAGAAGTTTCGGTTTTGCAGCACATTAAGAAATCATCGTCGTTCTCATACTGATGAGAAACCTTATAAATGTAccgaatgcAATCAAAGATTTTCTAGAAAGAGCACACTTAAGTGTCATATGAAgcgacatactggtgaaaagcTTTTCTCATGCATTGAGtgtaataaaagttttgcttTGAAGCAGTCTCTTAATCGTCACATAAGAcaacatactggtgaaaaacctTATCAGtgcactgaactgaaattaaaagaaatgagtcacgttttaaaaacaatttccatTAGAGGCGAGGAAGGCCCTATAGTTGATTTTACACTAACTGATAGTGTAGTAAAATCGGAAACAACTACTGAATTTAATATGGTAGATTTAAGCAATGATACTTCAGAAGAAGATTGTACTCAAGAACAGAAATGCGGTAATTGTTATAAGTCGTTTAGACGATTTAGCGagcttgaaaaacatttaaacttGTGTCACTTGAATACTGGGTTCCACCTACCAAATATAGAAATGATGACAAATATTGAGAAAATCGAAGAGGATGCAGTTAATATGGAGCGGGACAATATATGCTTTTGCTGTGGCGAAAGTTATGATACATTTCatttggGTCCAATAAAATGTTCTGGttgtacaaaatcttttaaaacttcaattaGCTACGAGCGACATATTTTCATAACTCATTCGGAATCTGACGCATTTCCTTGCACTACATGTAATGCAAAATTACGAACAGTTAACCTTTTGAAGTTGCATGAAAAACAACATGAGAGATATGGAGAAAATCGCGTTGTTTGTGATTTTTGTGAGAAGAAATTTCCATCATTAAGTGCATTAAAAGATCATCGTCGTTCtcatactggtgaaaaacctTACTCATGTACTGAAtgTAATCAAAGCTTTTCTCATATGAATACACTTAAATGTCATATGACGCGGCATACTGGTACAAAATTATTTGCGTGTACTGAAtGTAATCAAACTTTTGCTCTAAAACATGCACTTACTCGTCATATGAAAACACATACTGGCGAAAGGCCCTACAAGTGTAATGAatgtAATCAGAGTTTCACTGCTAAACGTTCACTCCATGATCACATGACGCGTCATACCGGTGAAAAACCACACAAATGCACTGAATGTAACAAAAGCTTTTCTATTAAGAGTTCACTCTATCATCATATGAAGAGACATGCTGCTGAAAAACCACACGTTTGCAAAGATTGTGGAAAACGTTTCATACGTGCCCTTAATCTAGACTATCATAGCAAAACTCATGCACGTCCATTCGCTTGCGATCaatgtaaagaaaaattcaaaaccaATAAGGAACTTAAGAAACATATCAGAATTCATTCATCTAAAAGCAAGGATAAAAATGAATCCCAAGagcataaatttaaatgcaaagaaTGTAAAACGATGTATGCGACAAAGGAAGAACTCAAAACTCATTATAATATGGAAGTACataaaaATGCATTTATTTCAGCCAAACACAATACGAAGAAACAAAAAGGCTCTGTGACTCGTCATAAAGAATTCACATCAATTAAAAAAGATTCTGAGACTAATCGAAGTACTAAAAATTCACCAAAATTAGAACTAAATAATTCTGTGTCTTCGCTAACAAAGATTTACAGACTTGATGATTTAAACgaacttccaattaaaaatgtttcaactaataataatataatgtcaccaacaaaatattcatcaaTGGAAGATAAggttatttcacatttttcgaAAGATGAAGAAATGCCAAGAAATGTTCTAACGATAGAAAACAAAAGTATTGAAACGGAACCAACAGTTATTATTCCTCACAATCTAGTTGGTGCgataacaaaaaatgaaattttgtttgaaaatgacACTCCTAAACAAGAATTTATAGAAGAAGCAGTAAATGAAAGAAGTACTGTGGTTAGGGAGTATTCTACAATAATAATAGACAACGAGACTACAAAAATAGAGCTAAGGGCTACTATTCCTGATACTCTAATTGATCCAGTTATAAATGATTGTGCTATATTCGACGATGGTGTTGATgagaaagaatataaaaaaaatgaattatctGAAGGTAgtacagaaaatttatttttaggaatCGAACAGTACTCTGTTATAACGATAGAaaatgaaactattaaaaaggAGCCAGAAATTAGTATTCTTGAAACAGAGACTAGTACAGTTATAAATGATGGACCTACAATCGAAGGTGATAGTGATCCACAAAAGTTAATAGCAAATAACTTAACTGAAACAACCACACAGAATTTATTGATCAACAATGAATTACCGGctttgaaAGTTCCTAAAAATATGCAGAAAGAAAAACAACTTATTGCTTGTGATTTTTGTGAAAAGAAATTTCCGAATATGAGCTCGCTGAAAAATCATCGTGTTTCTCATACTGGTGAGAAACCTTACACGTGTACTGaatgtaataaaagttttgcgGCTAAGCAAGTATTTAATCACCATGTAAAGAtacatactggtgaaaaaccaCATGCTTGCCTTGATTGTGGAAAACGTTTTCTGCGAGCTATTGAGGTGTTTTACCATAGTAAAACTCATCTACGCCCATTTGCCTGTGATCAGTGTGAGGAAAAATTCAAAACcaataaacaaTTAAAGCAGCATACCAAAATTCATTCATCAGAGCCAAATTGTAACAATGAAGCCGAAAATCAAGAATTCAAATATCTAAAAGCCGCTGATAATGTTACATATATTGACGATACTGGTTTTACGCagcaatttataaaaactgaaatgtcTGAAACAAGCACAGAACAAGTGTTATTAGAAAACGAAGAATATACTGTTATAACAATAGaaaatgaaactataaaaaCCGATCCAGAAACTACTACAGAAACTCTTACTGGCGCAATCATAGACAAAAGAAATTCGTTTGAAGTTGATAGTGCTATGCAACAAGCTACAACAGATGATGTATCTAAAAACACCACAAATGCACATACGGGAGAGCCTCAATTTGATTGTGATTTCTGTGACAAGAAGTTTCGATTTCTAAGTAGACTGAAAATTCATCGTCGTTCTCACACTGGTGAAAAACCTTACATATGCAGTCAAtgtaaACAAAGTTTTGCTCGTAGGGCAACACTAAATCTTCATATGAAACGACATACTAATGAAAAGCCACACGTTTGTAACGATTGCGGAAAGCGTTTTATTCGAGCCGTTGATCTTCGTTATCATAGTAAAACGCATGCAAATACATTTGGCTGCGATCAGTGCGAGGAAACATTCAAAACCAATAAgaagcTTGAGCAACACATCGAAATGCATTCatctaaaagcaaaaataaaaaggaagcCCAGGTAGAATCTTTTCATGTGACAGAGGAAGACTTTAACATAGaTATGGAAAAAGCAGAACGGGCAAATTGCAAGGTTTGTGATAAAGAATTCGATTCAGTAAAAATTCTAAATGCTCACATACTTGAACTACATAAAGAGCACACGGAGCCTTTAAACAATGCTAAATTTACTGTTCCTGAATGTCTGAATGGTTCCATCACAAATGATCGCACATCAATTGAAAATGACATCATTGCTcaacaatttattaagaatGTAGTATCTAAAACAAGTACAGAATACGAAGAGTACTCTGTTATAACATTAGAAAATTATACCATAAAAACGGAACCGGAAATAAATGTTTCTAAAACTCTAGTTAGTGGTATTGTAGATGATCGGTCGTGTCTCGGAATTGGCgatattgtacatataataaaagataaatgTAAACAAGGTTTCACTCGTAAGGGGGCATTGGATGTTCACATGAGACGACATACTGGAGAGAAACCTTACTCATGCAAGgaaTGTAGTCGAAATTTTTCTACTACGAGCTCGCTTAATCGTCATATGGCTAAACATACTGatGAATATCCCAGCAGCAGCCTTAGAGAAGCAATCACGGAgaaaatattatcagaaaatGAAGTGCCtaattcaatagaaaataaaagtataaagatGGAGTCGAATATTACAGGTGATCAAACATCAATTGAAGATGAAGTTGTTGTTgagcaatttataaaaaatgaagtacCTGAAATAAGTACAGAGGAATTGTTATTAGAAAACGAAGTATATACTATTACAATGTTAGAAAATGAGAGTATAAGAATGAGGCCTGACCAAATTCCGTTTAAAGATTGCGTTACAAAACAACAACGTATAACAGAAGAAGCAATTGAAACAAGTACAAACCAATTATTATTAGAACATGAAGAAACCTCTAGActtgaaaaaattaatctaaaaatcgAACCAAATTTTACTGTTCGTGAACCTAAACTTGATGATATTACAGATGaacaagaatttataaaaaatgaagtacAGTATGACCTCGATTAA
Protein Sequence: MYATEEELNKHIDMEVHAATGRTDCVLDSIETLNSHILEIDKDESETFDKEKLTPKLGPNCSIVSIKKIYRIDDFNENSFENITINNNVTLPEKLKEQISTETDVIPQPHVEYDNEVIKNESIIQKLNDIASETLAGVEENFINEKATESLLLENLDCSVITIENETTKLEPGTIVFKTQTRSIILPGFVNTETYEDCTENVLLENNTIEDEFIKMEPETALTETLSGTITDNGTSFESGSEVQNLNKNNATETTTENPFNENELSISNIHKSMTERRFFACDFCKKKFRFYSRLRNHRRSHTDEKPYECTECNQRFSAKSTLKCHMTRHTGEKFFKCTECDQSFSTKRALNYHLKRHKGEKSFLCTECSKSYAFKHSLNIHMRLHTGEKPYSCTECNQSFTAKQSLHLHVRRHTGEKPYSCTECNQSFAVRHALNCHMRRHNGEKPYSCTECNKSFSVKHALNRHMNRHTGDKPYPCTECNQNFNDLRSLNDHMALHTGEKPYSCTKCNKSYSIKSSLYCHMKRHATEKPYVCKDCGKRFKRGRNLHRHKSIHLPAFTCNQYQKRFTSNKGLKQHIRIHSSKSNDENETQKYKFSCKECEVMYTTEEELNKHYDMKVHVATGRTDCVLDSVETLNSHILEIDKDESETFDKGKLTPKLGTNRSIFSIKKIYRIDDFNENSTENITINNNITLPEKLKEQISTETDVIPQPHVEYDNEVIKNESIIQKLNDIASETLAGVEQNFINEKATESLLLENLDCSVIMIENETTKLEPGTIVFENQTSGIILPGFVNTETYEACTENNTIEDEFIKMEPETALTETLSGTITDNGTSFESGSEVQNLRKNNATETTTENSFNEKELSISNIHKGITTEKRYFACDFCKKKFRFCSTLRNHRRSHTDEKPYKCTECNQRFSRKSTLKCHMKRHTGEKLFSCIECNKSFALKQSLNRHIRQHTGEKPYQCTELKLKEMSHVLKTISIRGEEGPIVDFTLTDSVVKSETTTEFNMVDLSNDTSEEDCTQEQKCGNCYKSFRRFSELEKHLNLCHLNTGFHLPNIEMMTNIEKIEEDAVNMERDNICFCCGESYDTFHLGPIKCSGCTKSFKTSISYERHIFITHSESDAFPCTTCNAKLRTVNLLKLHEKQHERYGENRVVCDFCEKKFPSLSALKDHRRSHTGEKPYSCTECNQSFSHMNTLKCHMTRHTGTKLFACTECNQTFALKHALTRHMKTHTGERPYKCNECNQSFTAKRSLHDHMTRHTGEKPHKCTECNKSFSIKSSLYHHMKRHAAEKPHVCKDCGKRFIRALNLDYHSKTHARPFACDQCKEKFKTNKELKKHIRIHSSKSKDKNESQEHKFKCKECKTMYATKEELKTHYNMEVHKNAFISAKHNTKKQKGSVTRHKEFTSIKKDSETNRSTKNSPKLELNNSVSSLTKIYRLDDLNELPIKNVSTNNNIMSPTKYSSMEDKVISHFSKDEEMPRNVLTIENKSIETEPTVIIPHNLVGAITKNEILFENDTPKQEFIEEAVNERSTVVREYSTIIIDNETTKIELRATIPDTLIDPVINDCAIFDDGVDEKEYKKNELSEGSTENLFLGIEQYSVITIENETIKKEPEISILETETSTVINDGPTIEGDSDPQKLIANNLTETTTQNLLINNELPALKVPKNMQKEKQLIACDFCEKKFPNMSSLKNHRVSHTGEKPYTCTECNKSFAAKQVFNHHVKIHTGEKPHACLDCGKRFLRAIEVFYHSKTHLRPFACDQCEEKFKTNKQLKQHTKIHSSEPNCNNEAENQEFKYLKAADNVTYIDDTGFTQQFIKTEMSETSTEQVLLENEEYTVITIENETIKTDPETTTETLTGAIIDKRNSFEVDSAMQQATTDDVSKNTTNAHTGEPQFDCDFCDKKFRFLSRLKIHRRSHTGEKPYICSQCKQSFARRATLNLHMKRHTNEKPHVCNDCGKRFIRAVDLRYHSKTHANTFGCDQCEETFKTNKKLEQHIEMHSSKSKNKKEAQVESFHVTEEDFNIDMEKAERANCKVCDKEFDSVKILNAHILELHKEHTEPLNNAKFTVPECLNGSITNDRTSIENDIIAQQFIKNVVSKTSTEYEEYSVITLENYTIKTEPEINVSKTLVSGIVDDRSCLGIGDIVHIIKDKCKQGFTRKGALDVHMRRHTGEKPYSCKECSRNFSTTSSLNRHMAKHTDEYPSSSLREAITEKILSENEVPNSIENKSIKMESNITGDQTSIEDEVVVEQFIKNEVPEISTEELLLENEVYTITMLENESIRMRPDQIPFKDCVTKQQRITEEAIETSTNQLLLEHEETSRLEKINLKIEPNFTVREPKLDDITDEQEFIKNEVQYDLD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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