Basic Information

Insect: Anaspis maculata
Gene Symbol: -
Assembly: GCA_949128115.1
Location: OX421963.1:7887760-7897477[+]

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 47 3.4 1.9e+02 4.0 4.1 1 23 395 417 395 417 0.97

2 47 0.00086 0.047 15.4 0.7 1 23 426 449 426 449 0.95

3 47 0.034 1.9 10.3 2.2 1 23 458 481 458 481 0.97

4 47 0.18 9.8 8.1 3.8 1 23 500 523 500 523 0.97

5 47 1.3 69 5.4 1.1 1 20 531 550 531 555 0.90

6 47 0.0029 0.16 13.7 5.4 2 23 565 586 564 586 0.97

7 47 0.0015 0.082 14.6 3.8 1 23 595 617 595 617 0.99

8 47 1.1 60 5.6 2.0 3 23 628 648 626 648 0.95

9 47 0.008 0.44 12.3 1.9 2 23 658 679 657 679 0.96

10 47 0.0016 0.087 14.5 1.2 1 23 688 710 688 710 0.98

11 47 0.011 0.58 11.9 5.3 1 23 718 741 718 741 0.97

12 47 1.3 70 5.4 0.5 1 23 760 783 760 783 0.90

13 47 0.21 12 7.8 0.7 1 23 802 825 802 825 0.93

14 47 0.21 12 7.8 0.7 1 23 844 867 844 867 0.93

15 47 0.018 0.97 11.2 3.9 1 23 886 909 886 909 0.97

16 47 0.024 1.3 10.8 0.9 1 23 928 951 928 951 0.93

17 47 0.054 3 9.7 4.7 1 23 970 993 970 993 0.95

18 47 0.08 4.4 9.2 0.6 1 23 1012 1035 1012 1035 0.93

19 47 0.08 4.4 9.2 0.6 1 23 1054 1077 1054 1077 0.93

20 47 0.09 4.9 9.0 0.7 1 23 1096 1119 1096 1119 0.94

21 47 0.0023 0.13 14.0 3.7 1 23 1138 1161 1138 1161 0.95

22 47 0.3 16 7.4 5.9 1 23 1180 1203 1180 1203 0.96

23 47 1.3 69 5.4 1.1 1 20 1211 1230 1211 1235 0.90

24 47 0.0029 0.16 13.7 5.4 2 23 1245 1266 1244 1266 0.97

25 47 0.0015 0.082 14.6 3.8 1 23 1275 1297 1275 1297 0.99

26 47 1.1 60 5.6 2.0 3 23 1308 1328 1306 1328 0.95

27 47 0.008 0.44 12.3 1.9 2 23 1338 1359 1337 1359 0.96

28 47 0.0016 0.087 14.5 1.2 1 23 1368 1390 1368 1390 0.98

29 47 0.09 4.9 9.0 0.7 1 23 1414 1437 1414 1437 0.94

30 47 0.018 0.97 11.2 3.9 1 23 1456 1479 1456 1479 0.97

31 47 0.058 3.2 9.6 1.2 1 23 1498 1521 1498 1521 0.93

32 47 0.21 12 7.8 0.7 1 23 1540 1563 1540 1563 0.93

33 47 0.95 53 5.8 3.4 1 23 1582 1605 1582 1605 0.97

34 47 0.08 4.4 9.2 0.6 1 23 1624 1647 1624 1647 0.93

35 47 0.08 4.4 9.2 0.6 1 23 1666 1689 1666 1689 0.93

36 47 0.3 16 7.4 5.9 1 23 1708 1731 1708 1731 0.96

37 47 1 56 5.7 1.2 1 20 1739 1758 1739 1763 0.90

38 47 0.0029 0.16 13.7 5.4 2 23 1773 1794 1772 1794 0.97

39 47 0.017 0.95 11.3 5.9 1 23 1803 1825 1803 1825 0.98

40 47 0.085 4.7 9.1 1.8 3 23 1836 1856 1834 1856 0.96

41 47 0.00029 0.016 16.8 1.0 2 23 1866 1887 1865 1887 0.96

42 47 0.012 0.66 11.8 4.9 1 23 1896 1918 1896 1918 0.98

43 47 0.053 2.9 9.7 0.8 1 23 1925 1948 1925 1948 0.97

44 47 0.0058 0.32 12.8 1.8 1 23 1957 1979 1957 1979 0.98

45 47 3.2 1.7e+02 4.1 6.3 1 23 1988 2010 1988 2010 0.96

46 47 0.014 0.79 11.5 2.3 1 23 2019 2041 2019 2041 0.97

47 47 0.0013 0.07 14.8 2.1 1 23 2050 2072 2050 2072 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	47	3.4	1.9e+02	4.0	4.1	1	23	395	417	395	417	0.97
2	47	0.00086	0.047	15.4	0.7	1	23	426	449	426	449	0.95
3	47	0.034	1.9	10.3	2.2	1	23	458	481	458	481	0.97
4	47	0.18	9.8	8.1	3.8	1	23	500	523	500	523	0.97
5	47	1.3	69	5.4	1.1	1	20	531	550	531	555	0.90
6	47	0.0029	0.16	13.7	5.4	2	23	565	586	564	586	0.97
7	47	0.0015	0.082	14.6	3.8	1	23	595	617	595	617	0.99
8	47	1.1	60	5.6	2.0	3	23	628	648	626	648	0.95
9	47	0.008	0.44	12.3	1.9	2	23	658	679	657	679	0.96
10	47	0.0016	0.087	14.5	1.2	1	23	688	710	688	710	0.98
11	47	0.011	0.58	11.9	5.3	1	23	718	741	718	741	0.97
12	47	1.3	70	5.4	0.5	1	23	760	783	760	783	0.90
13	47	0.21	12	7.8	0.7	1	23	802	825	802	825	0.93
14	47	0.21	12	7.8	0.7	1	23	844	867	844	867	0.93
15	47	0.018	0.97	11.2	3.9	1	23	886	909	886	909	0.97
16	47	0.024	1.3	10.8	0.9	1	23	928	951	928	951	0.93
17	47	0.054	3	9.7	4.7	1	23	970	993	970	993	0.95
18	47	0.08	4.4	9.2	0.6	1	23	1012	1035	1012	1035	0.93
19	47	0.08	4.4	9.2	0.6	1	23	1054	1077	1054	1077	0.93
20	47	0.09	4.9	9.0	0.7	1	23	1096	1119	1096	1119	0.94
21	47	0.0023	0.13	14.0	3.7	1	23	1138	1161	1138	1161	0.95
22	47	0.3	16	7.4	5.9	1	23	1180	1203	1180	1203	0.96
23	47	1.3	69	5.4	1.1	1	20	1211	1230	1211	1235	0.90
24	47	0.0029	0.16	13.7	5.4	2	23	1245	1266	1244	1266	0.97
25	47	0.0015	0.082	14.6	3.8	1	23	1275	1297	1275	1297	0.99
26	47	1.1	60	5.6	2.0	3	23	1308	1328	1306	1328	0.95
27	47	0.008	0.44	12.3	1.9	2	23	1338	1359	1337	1359	0.96
28	47	0.0016	0.087	14.5	1.2	1	23	1368	1390	1368	1390	0.98
29	47	0.09	4.9	9.0	0.7	1	23	1414	1437	1414	1437	0.94
30	47	0.018	0.97	11.2	3.9	1	23	1456	1479	1456	1479	0.97
31	47	0.058	3.2	9.6	1.2	1	23	1498	1521	1498	1521	0.93
32	47	0.21	12	7.8	0.7	1	23	1540	1563	1540	1563	0.93
33	47	0.95	53	5.8	3.4	1	23	1582	1605	1582	1605	0.97
34	47	0.08	4.4	9.2	0.6	1	23	1624	1647	1624	1647	0.93
35	47	0.08	4.4	9.2	0.6	1	23	1666	1689	1666	1689	0.93
36	47	0.3	16	7.4	5.9	1	23	1708	1731	1708	1731	0.96
37	47	1	56	5.7	1.2	1	20	1739	1758	1739	1763	0.90
38	47	0.0029	0.16	13.7	5.4	2	23	1773	1794	1772	1794	0.97
39	47	0.017	0.95	11.3	5.9	1	23	1803	1825	1803	1825	0.98
40	47	0.085	4.7	9.1	1.8	3	23	1836	1856	1834	1856	0.96
41	47	0.00029	0.016	16.8	1.0	2	23	1866	1887	1865	1887	0.96
42	47	0.012	0.66	11.8	4.9	1	23	1896	1918	1896	1918	0.98
43	47	0.053	2.9	9.7	0.8	1	23	1925	1948	1925	1948	0.97
44	47	0.0058	0.32	12.8	1.8	1	23	1957	1979	1957	1979	0.98
45	47	3.2	1.7e+02	4.1	6.3	1	23	1988	2010	1988	2010	0.96
46	47	0.014	0.79	11.5	2.3	1	23	2019	2041	2019	2041	0.97
47	47	0.0013	0.07	14.8	2.1	1	23	2050	2072	2050	2072	0.98

Sequence Information

Coding Sequence: ATGTCATTTCCAAGATTCGGAAGTCAATCCATGGAAGAAATCGACAAAACGATTGAAGCGACAACCCCAAAAACAACAGCGAACAGTAAGAAGTACACGTGGAAAATGTTCCTGGACTTTTGCACGGAAAGAAAATACGTCCTTATCGGAAGCCGGAGCGAACAAGAGCTAGCGCTGATACTCAAGGATTGGGCTTGTAATATGAACAAAAAAGATGGGAGCGAATTCAAAGAAACAACGGTCAAGACAGTTTGGAACATTACAAGCAAACTCCTGCAAGAAAAATATTACAACGAGTTCAACATCCTCACAGATCCTTTCAACAGCGTGATTTTTAAACAAGCAAGAAATGCTCGAGATGCCACACGCAAACGACTTCAAGCCGATCCATTGAGAAGAAAGACAAGCGCGGTGCCGTTGAGTTCAACTGAACTTGATCAAATAATTAACTACTGGGACGAAAACACGCCAGAGGGgctgcaaagaaaattttacCATATCGCCGCTGTGGAACTGGCATGGAGAGGAGGCGAAGCTGTAGCCTGtttgactgattttttttttcaactgaaaagaGCAATGATGGAACATTCACTGGCAGGGTGGAATACAACCCGGTATTCACCAAAACGTGCCAAGGAGGGTCAAAAAGCTGCGCTGGAAGTAAATTTCTTGTTCAGAACAAAGATGAAAAGgtcAGCATCGCCCAAAGGGAGCACGTCACTTTGTTgtgcgcaatgttcgcatcgacCAGTTTGGCCGTTTCAACTCGACCATCACATCCAAAGGAACCACAAAAATGTTTACGCAGCTGAACTGTTCCATGCCGGAATAGAACCGGAACCGTATCCTTGCCTCATTTGCGGTTTCGACTGCCACTACAAGCTCTGCCGAGATGAACACTGCATACGCCCGCATGCCACTTCTGACGGTGAATGTGAAAACTTTGAGGACGGACATTTTGACGAAAAATTCGATGGGTGGCTGTGCAACTATTGCGACTATGAAGGGCATTCGAGCCTGTCGCTCGTCATACATCACGATGTTGCTCACCCCACAGTACAACCCGAAGTTTCAACAGGAGCTGCCACTCTTCCAAGCTCTTTCGAGGCTACTTCTGTCAAAAACTACAGTGTCATCAAAACGCAGAAACTTTTtattgattcaaaagtgacgaaAAATCACCAATGTCCCCGTTGCCCATACCGAGGCAAATGCAACTACAACGTAAAGCGACACATGCTGGAACACGCCaaagatgaagaaatcaactggttcattTGTAACGGATGCTCCTATCGGGCTAAACGAAAAGACAATTTGGAGAAGCATATTATGCTGAAACATGTAACAGATGgtgaaatcaactggttcaatTGCACCGTGTGTTCTTATCGAGCCACTCGTGAGGACCATGTGACAAGACACATGTTGAGACAGCACATGCCAGATCTAAATGGACTGCAACATTATGCTGCAGATGGTCAAATCAAGTGGTTCAATTGCACCGTGTGTTCTTTTCGAACCAAGCGTAAAGATCGtgtgaaaagacacatgttgaaAAAGCACACGCCCAATCCCAATGGCTGCTTCAGTTGTGCCAAGTGTTCGTACCGTACCGAAAACCAAGACGATTGGACAAAGCACAGTAGTTCAGAAAAGCACAGCCACATTGGCGAAATAGACTGGCTGTATTGTTTCCATTGTTCGCGTCGATTTCGATTCAAATCGGTCTTGAGAAAGCACATGTTGACGCATGCTGCCGCCGACAAGATCGAATGGTTTCGTTGCACCCAGTGTACGTATCGTGGCAAAACACAATATCTCTTGAAATCGCACATGCGAAGACACGTTGCCACAAATGAAATCGCCTGGCTGGACTGTAAAAAATGTTCGTTTCGCAGCAAGCGAAAGCGCGGTTTGGAATTACACACGCTTCAACACGCCGACCCCGAAGAAATCACTTGGCTCAGTTGCGTCAAGTGTTCGTATCGCGCGAGACGCCAAAAATACCTGACGAAAcacatgctgacgcacgccTCGGCCGACGAAATTAGCTGGTTCTCTTGCGAGCTTTGTCCGTACCGAGGCAAGACCAAGGAGTATCTGAGCAGGCACATGACAACACACACAGATGGGGAAATCAAGTGGTTCAATTGCACTGTGTGTTCATTTCGATCCAAGCGTAAACACgatttgaaaagacacatgttgaaacagCACATGCGTGATCTTAATGGCCTTGCACAACTCGCCACAGATGGGGAAATCAAGTGGTTCAATTGCACTGTGTGTTCTTTTCGAGCCACGCGTGAAGACAATGTTGAAAGACACGTGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCCACAGATGGGGAAATCAAGTGGTTCAATTGCACTGTGTGCTCTTTTCGAGCCACGCGTGAAGACAATGTTGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCCACAGATGGGGAAATCAAGTGGTTCAATTGCACTGTGTGCTCTTTTCGAGCCACGCGTGAAGACAATGTTGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGTGAAATCAGGTGGTTCACTTGCACCGTGTGTTTTTTTCAATCCAAGCGTAAAGACAATTTGAAAAGACATACGTTGAAACAGCACATGCGTGATCTTAATGGCCTTGAACAACTCGCTACAGATCGGGAAATCAAGTGGTTCAATTGCACCGTGTGTTCTTATCGAGCCACGCGTCAAGACAATGTGGAGAGACACATGTTTGAACGGCACGTGCCTGAGCTTAATGGCCTTGAACAACTCGCTACAGATGGTGAAATCAAGTGGTTCACTTGCACCATGTGTTCTTTTCGAACCAAgcgtaaattttttttgaaaagacacatgCTTGAACGGCACGCGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGGGAAATCCAGTGGTTCAATTGCACCGTGTGTTCTTATCGAGCCACGCGTGAAGACAATGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGGGAAATCAAGTGGTTCAATTGCACCGTGTGTTCTTATCGAGCCACGCGTGAAGACAATGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACACATGGTGAAATCAAGTGGTTCACTTGCACCGTGTGTTCTTTTCGAGCCACGCGTGAAGACAATGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCATTGAACAACTCGCTACAGATGGTGAAATCAAGTGGTTCACTTGCACCATATGTTCTTTTCGAACCAAGCGTAAATCTtttttgaaaagacacatgCTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGTGAAATCAAGTGGTTCACTTGCACCATGTGTTCTTTTCGAACCAAGcataaaatttttttgaaaagacacatgttgcaACGGCACATGCGTGTTCCCAATGGCTGCTTCAGTTGTGCCAAGTGTTCGTACCGTACCGAAAACCAAGACGATTGGACAAAGCACAGTAGTTCAGAAAAGCACAGCCACATTGGCGAAATAGACTGGCTGTATTGTTTCCATTGTTCGCGTCGATTTCGATTCAAATCGGTCTTGAGAAAGCACATGTTGACGCATGCTGCCGCCGACAAGATCGAATGGTTTCGTTGCACCCAGTGTACGTATCGTGGCAAAACACAATATCTCTTGAAATCGCACATGCGAAGACACGTTGCCACAAATGAAATCGCCTGGCTGGACTGTAAAAAATGTTCGTTTCGCAGCAAGCGAAAGCGCGGTTTGGAATTACACACGCTTCAACACGCCGACCCCGAAGAAATCACTTGGCTCAGTTGCGTCAAGTGTTCGTATCGCGCGAGACGCCAAAAATACCTGACGAAAcacatgctgacgcacgccTCGGCCGACGAAATTAGCTGGTTCTCTTGCGAGCTTTGTCCGTACCGAGGCAAGACCAAGGAGTATCTGAGCAGGCACATGACAACACACATGTTTGAACGACACGCGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGTAAAATCAAGTGGTTCACTTGCACCGTGTGTTCTTTTCGAGCCACGCGTGAAGACAATGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGTGAAATCAAGTGGTTCACTTGCACCGTGTGTTTTTTTCAATCCAAGCGTAAAGACAATTTGAAAAGACATACGTTGAAACAGCACATGCGTGGTCTTAATGGCCTTGAACAACTCGCTGCATATGGGGAAATCAAGTGGTTCAATTGCACTGTGTGTTCTTTTCGAACGACGCGTGAAGACAATGTTGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGTCTTGAACAACTCGCTGCAGATGGGGGAATCAAGTGGTTCAATTGCACTGTGTGTTCTTTTCGAGCCACGCGTGAAGACAACGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGTGGAACCAAGTGGTTCACTTGCACCGTGTGTTTTTTTCAATCCAAGCTTAAAGACACCTTGAAAAGACATACTTTGAAACAGCACATGCGTGATCTTAATGACCTTGAACAACTCGCTACAGATGGAAAAATCAAGTGGTTCAATTGCACCGTGTGTTCTTATCGAGCCACGCGTGAAGACAATGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGGGAAATCAAGTGGTTTAATTGCACCGTGTGTTCTTATCGAGCCACGCGTGAAGACAATGTGGAAAGACACATGTTTGAACGGCACGTGCCTGATCTTAATGGCCTTGAACAACTCGCTACAGATGGTGAAATCAAGTGGTTCACTTGCACCATGTGTTCTTTTCGAACCAAGcataaaatttttttgaaaagacacatgttgcaACGGCACATGCGTGTTCCCAATGGTTGCTTCAGTTGTGCCAAGTGTTCGTACCGTACCGAAAACCAAGACGATATGACAAAGCACAGTAGTTCAGAAAAGCACAGCCACATTGGCGAAATAGACTGGCTGTATTGTTTCCATTGTTCGCGTCGATTTCGATTCAAATCGGTCTTGAGAAAGCACATGTTGACGCATGCTGCCGCCGACAGGATCGAATGGTTTCGTTGCACCCAGTGTACGTATCGTGGCAAAACAAAACACCTCTTGAAACAGCACATGCAAAGACACGTTGCCACAGATGAAATCGTCTGGCTGGACTGTAAAAAATGTTCGTTTCGCAGCAAGCAAAAACGCGGTTTGGAATTACACATGCTTCGACATGCCGATCCCGAAGAAATCATTTGGCTCAGTTGCGTCAAGTGTTCGTATCGCGCGAAACGCCCAAGCAATCTGCGAAGgcacatgctgacgcacgccTCGGACGATGAAATTCGCTGGTTCTCTTGCGAGCAGTGTCCGTACCGATGCAAGATCAAGGGGCATCTGAACAATCACATGACAACACACTCCGACGAAGCCAGCTGGTTCAAGTGCACCGAGTGTTCGTACCGTGCGAAGCTCAAAGGGCAATTAACGATCCACAAGCGGCTGGCTCACGTTGCAGAGGACGAAATCGTCTGGTTCAGCTGCGACGACTGTTCGTATCGTTCGAAGAAAAAAGGGAGCCTGGTGAAACACAGGCTTACGCACGCTGCCGAtgacgaaatcaactggttctgTTGTGCGAAATGCTCGTATCGAGCCAAACAgaaggtttgtttgaagacgcacatgttgcaacacgcCAACGCTGATGAGATCAACTGGTTCGAGTGCACCAAATGCTCGTATCGTACGTCTAGAAAAGCTTATTTGACGATGCACGAGCTGAAGCATGCTTCAAGTGACGAAATTAACTGGTTCTCTTGCGAGAAGTGCCCGTATCGAGCAAAACAAAAAAGATATTTGAAGAGTCACATGTTGACCCACACTAGGGGTGACAAAACGAAGTGA
Protein Sequence: MSFPRFGSQSMEEIDKTIEATTPKTTANSKKYTWKMFLDFCTERKYVLIGSRSEQELALILKDWACNMNKKDGSEFKETTVKTVWNITSKLLQEKYYNEFNILTDPFNSVIFKQARNARDATRKRLQADPLRRKTSAVPLSSTELDQIINYWDENTPEGLQRKFYHIAAVELAWRGGEAVACLTDFFFQLKRAMMEHSLAGWNTTRYSPKRAKEGQKAALEVNFLFRTKMKRSASPKGSTSLCCAQCSHRPVWPFQLDHHIQRNHKNVYAAELFHAGIEPEPYPCLICGFDCHYKLCRDEHCIRPHATSDGECENFEDGHFDEKFDGWLCNYCDYEGHSSLSLVIHHDVAHPTVQPEVSTGAATLPSSFEATSVKNYSVIKTQKLFIDSKVTKNHQCPRCPYRGKCNYNVKRHMLEHAKDEEINWFICNGCSYRAKRKDNLEKHIMLKHVTDGEINWFNCTVCSYRATREDHVTRHMLRQHMPDLNGLQHYAADGQIKWFNCTVCSFRTKRKDRVKRHMLKKHTPNPNGCFSCAKCSYRTENQDDWTKHSSSEKHSHIGEIDWLYCFHCSRRFRFKSVLRKHMLTHAAADKIEWFRCTQCTYRGKTQYLLKSHMRRHVATNEIAWLDCKKCSFRSKRKRGLELHTLQHADPEEITWLSCVKCSYRARRQKYLTKHMLTHASADEISWFSCELCPYRGKTKEYLSRHMTTHTDGEIKWFNCTVCSFRSKRKHDLKRHMLKQHMRDLNGLAQLATDGEIKWFNCTVCSFRATREDNVERHVFERHVPDLNGLEQLATDGEIKWFNCTVCSFRATREDNVERHMFERHVPDLNGLEQLATDGEIKWFNCTVCSFRATREDNVERHMFERHVPDLNGLEQLATDGEIRWFTCTVCFFQSKRKDNLKRHTLKQHMRDLNGLEQLATDREIKWFNCTVCSYRATRQDNVERHMFERHVPELNGLEQLATDGEIKWFTCTMCSFRTKRKFFLKRHMLERHAPDLNGLEQLATDGEIQWFNCTVCSYRATREDNVERHMFERHVPDLNGLEQLATDGEIKWFNCTVCSYRATREDNVERHMFERHVPDLNGLEQLATHGEIKWFTCTVCSFRATREDNVERHMFERHVPDLNGIEQLATDGEIKWFTCTICSFRTKRKSFLKRHMLERHVPDLNGLEQLATDGEIKWFTCTMCSFRTKHKIFLKRHMLQRHMRVPNGCFSCAKCSYRTENQDDWTKHSSSEKHSHIGEIDWLYCFHCSRRFRFKSVLRKHMLTHAAADKIEWFRCTQCTYRGKTQYLLKSHMRRHVATNEIAWLDCKKCSFRSKRKRGLELHTLQHADPEEITWLSCVKCSYRARRQKYLTKHMLTHASADEISWFSCELCPYRGKTKEYLSRHMTTHMFERHAPDLNGLEQLATDGKIKWFTCTVCSFRATREDNVERHMFERHVPDLNGLEQLATDGEIKWFTCTVCFFQSKRKDNLKRHTLKQHMRGLNGLEQLAAYGEIKWFNCTVCSFRTTREDNVERHMFERHVPDLNGLEQLAADGGIKWFNCTVCSFRATREDNVERHMFERHVPDLNGLEQLATDGGTKWFTCTVCFFQSKLKDTLKRHTLKQHMRDLNDLEQLATDGKIKWFNCTVCSYRATREDNVERHMFERHVPDLNGLEQLATDGEIKWFNCTVCSYRATREDNVERHMFERHVPDLNGLEQLATDGEIKWFTCTMCSFRTKHKIFLKRHMLQRHMRVPNGCFSCAKCSYRTENQDDMTKHSSSEKHSHIGEIDWLYCFHCSRRFRFKSVLRKHMLTHAAADRIEWFRCTQCTYRGKTKHLLKQHMQRHVATDEIVWLDCKKCSFRSKQKRGLELHMLRHADPEEIIWLSCVKCSYRAKRPSNLRRHMLTHASDDEIRWFSCEQCPYRCKIKGHLNNHMTTHSDEASWFKCTECSYRAKLKGQLTIHKRLAHVAEDEIVWFSCDDCSYRSKKKGSLVKHRLTHAADDEINWFCCAKCSYRAKQKVCLKTHMLQHANADEINWFECTKCSYRTSRKAYLTMHELKHASSDEINWFSCEKCPYRAKQKRYLKSHMLTHTRGDKTK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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