Basic Information

Insect: Morpho achilles
Gene Symbol: -
Assembly: GCA_947086495.1
Location: CAMTZB010000031.1:2429600-2440348[+]

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 49 0.27 24 6.5 1.6 2 23 35 56 34 56 0.96

2 49 0.021 1.9 10.0 0.0 3 23 82 103 81 103 0.95

3 49 0.0024 0.22 12.9 1.0 2 23 123 145 122 145 0.93

4 49 2.3 2.1e+02 3.6 0.4 2 21 184 203 183 204 0.90

5 49 0.012 1.1 10.8 1.5 1 23 247 270 247 270 0.95

6 49 8.2 7.4e+02 1.8 0.5 3 23 343 365 341 365 0.90

7 49 0.0017 0.15 13.4 1.5 2 23 371 393 370 393 0.95

8 49 0.076 6.8 8.2 0.6 2 23 399 421 398 421 0.92

9 49 0.00025 0.023 16.0 0.4 1 23 426 449 426 449 0.97

10 49 5.9e-05 0.0053 18.0 6.4 1 23 453 476 453 476 0.97

11 49 0.0012 0.11 13.9 0.2 2 23 483 504 482 504 0.96

12 49 0.047 4.2 8.9 1.4 1 23 510 532 510 532 0.96

13 49 0.098 8.8 7.9 1.4 2 23 572 593 571 593 0.95

14 49 0.02 1.8 10.0 0.1 2 23 621 643 620 643 0.91

15 49 0.00045 0.04 15.2 0.7 3 23 693 714 691 714 0.96

16 49 0.00021 0.019 16.3 1.8 1 23 718 741 718 741 0.97

17 49 0.018 1.6 10.2 2.8 2 23 744 766 744 766 0.96

18 49 0.011 1 10.9 1.6 1 23 843 866 843 866 0.96

19 49 0.02 1.8 10.0 0.0 2 23 894 916 893 916 0.95

20 49 0.00019 0.017 16.4 0.5 1 22 938 959 938 961 0.90

21 49 7.9e-05 0.0071 17.6 2.8 3 23 968 988 967 989 0.94

22 49 0.00039 0.036 15.4 0.7 1 23 995 1018 995 1018 0.95

23 49 9.3e-05 0.0084 17.4 0.2 1 23 1023 1046 1023 1046 0.96

24 49 0.26 23 6.5 5.1 1 23 1050 1073 1050 1073 0.96

25 49 0.38 34 6.0 2.9 2 23 1080 1101 1079 1101 0.96

26 49 0.11 10 7.7 1.3 1 23 1107 1129 1107 1129 0.94

27 49 0.0023 0.21 13.0 1.8 1 23 1169 1191 1169 1191 0.96

28 49 0.18 17 7.0 0.0 3 23 1220 1241 1218 1241 0.96

29 49 0.0033 0.3 12.5 1.2 2 23 1262 1284 1261 1284 0.95

30 49 0.0021 0.19 13.1 2.2 1 23 1289 1312 1289 1312 0.95

31 49 0.21 19 6.8 5.3 1 23 1317 1340 1317 1340 0.94

32 49 0.13 12 7.5 0.4 2 20 1343 1361 1343 1362 0.95

33 49 5.9 5.4e+02 2.3 4.4 3 21 1374 1392 1373 1393 0.95

34 49 0.059 5.4 8.6 0.9 1 21 1445 1465 1445 1468 0.90

35 49 0.11 10 7.7 0.1 2 23 1541 1563 1540 1563 0.95

36 49 4e-05 0.0036 18.6 0.1 3 23 1570 1591 1569 1591 0.94

37 49 0.19 17 7.0 5.1 2 23 1596 1618 1595 1618 0.94

38 49 0.0051 0.46 11.9 4.0 1 23 1623 1646 1623 1646 0.97

39 49 3.6e-05 0.0032 18.7 5.3 1 23 1650 1673 1650 1673 0.97

40 49 0.001 0.095 14.1 0.3 2 23 1680 1701 1679 1701 0.96

41 49 0.0025 0.23 12.9 0.1 2 23 1812 1834 1811 1834 0.94

42 49 0.0076 0.69 11.4 1.2 2 23 1857 1878 1857 1879 0.94

43 49 0.0085 0.77 11.2 1.5 1 23 1884 1907 1884 1907 0.95

44 49 0.093 8.4 8.0 1.5 1 23 1912 1935 1912 1935 0.96

45 49 0.013 1.1 10.7 1.0 2 23 1941 1963 1940 1963 0.91

46 49 0.00058 0.052 14.9 0.1 2 23 1971 1993 1970 1993 0.97

47 49 0.16 14 7.2 0.1 2 23 2000 2021 1999 2021 0.96

48 49 1.2e-05 0.0011 20.1 0.8 1 23 2027 2049 2027 2049 0.96

49 49 1.3e-05 0.0012 20.1 1.4 1 23 2055 2078 2055 2078 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	49	0.27	24	6.5	1.6	2	23	35	56	34	56	0.96
2	49	0.021	1.9	10.0	0.0	3	23	82	103	81	103	0.95
3	49	0.0024	0.22	12.9	1.0	2	23	123	145	122	145	0.93
4	49	2.3	2.1e+02	3.6	0.4	2	21	184	203	183	204	0.90
5	49	0.012	1.1	10.8	1.5	1	23	247	270	247	270	0.95
6	49	8.2	7.4e+02	1.8	0.5	3	23	343	365	341	365	0.90
7	49	0.0017	0.15	13.4	1.5	2	23	371	393	370	393	0.95
8	49	0.076	6.8	8.2	0.6	2	23	399	421	398	421	0.92
9	49	0.00025	0.023	16.0	0.4	1	23	426	449	426	449	0.97
10	49	5.9e-05	0.0053	18.0	6.4	1	23	453	476	453	476	0.97
11	49	0.0012	0.11	13.9	0.2	2	23	483	504	482	504	0.96
12	49	0.047	4.2	8.9	1.4	1	23	510	532	510	532	0.96
13	49	0.098	8.8	7.9	1.4	2	23	572	593	571	593	0.95
14	49	0.02	1.8	10.0	0.1	2	23	621	643	620	643	0.91
15	49	0.00045	0.04	15.2	0.7	3	23	693	714	691	714	0.96
16	49	0.00021	0.019	16.3	1.8	1	23	718	741	718	741	0.97
17	49	0.018	1.6	10.2	2.8	2	23	744	766	744	766	0.96
18	49	0.011	1	10.9	1.6	1	23	843	866	843	866	0.96
19	49	0.02	1.8	10.0	0.0	2	23	894	916	893	916	0.95
20	49	0.00019	0.017	16.4	0.5	1	22	938	959	938	961	0.90
21	49	7.9e-05	0.0071	17.6	2.8	3	23	968	988	967	989	0.94
22	49	0.00039	0.036	15.4	0.7	1	23	995	1018	995	1018	0.95
23	49	9.3e-05	0.0084	17.4	0.2	1	23	1023	1046	1023	1046	0.96
24	49	0.26	23	6.5	5.1	1	23	1050	1073	1050	1073	0.96
25	49	0.38	34	6.0	2.9	2	23	1080	1101	1079	1101	0.96
26	49	0.11	10	7.7	1.3	1	23	1107	1129	1107	1129	0.94
27	49	0.0023	0.21	13.0	1.8	1	23	1169	1191	1169	1191	0.96
28	49	0.18	17	7.0	0.0	3	23	1220	1241	1218	1241	0.96
29	49	0.0033	0.3	12.5	1.2	2	23	1262	1284	1261	1284	0.95
30	49	0.0021	0.19	13.1	2.2	1	23	1289	1312	1289	1312	0.95
31	49	0.21	19	6.8	5.3	1	23	1317	1340	1317	1340	0.94
32	49	0.13	12	7.5	0.4	2	20	1343	1361	1343	1362	0.95
33	49	5.9	5.4e+02	2.3	4.4	3	21	1374	1392	1373	1393	0.95
34	49	0.059	5.4	8.6	0.9	1	21	1445	1465	1445	1468	0.90
35	49	0.11	10	7.7	0.1	2	23	1541	1563	1540	1563	0.95
36	49	4e-05	0.0036	18.6	0.1	3	23	1570	1591	1569	1591	0.94
37	49	0.19	17	7.0	5.1	2	23	1596	1618	1595	1618	0.94
38	49	0.0051	0.46	11.9	4.0	1	23	1623	1646	1623	1646	0.97
39	49	3.6e-05	0.0032	18.7	5.3	1	23	1650	1673	1650	1673	0.97
40	49	0.001	0.095	14.1	0.3	2	23	1680	1701	1679	1701	0.96
41	49	0.0025	0.23	12.9	0.1	2	23	1812	1834	1811	1834	0.94
42	49	0.0076	0.69	11.4	1.2	2	23	1857	1878	1857	1879	0.94
43	49	0.0085	0.77	11.2	1.5	1	23	1884	1907	1884	1907	0.95
44	49	0.093	8.4	8.0	1.5	1	23	1912	1935	1912	1935	0.96
45	49	0.013	1.1	10.7	1.0	2	23	1941	1963	1940	1963	0.91
46	49	0.00058	0.052	14.9	0.1	2	23	1971	1993	1970	1993	0.97
47	49	0.16	14	7.2	0.1	2	23	2000	2021	1999	2021	0.96
48	49	1.2e-05	0.0011	20.1	0.8	1	23	2027	2049	2027	2049	0.96
49	49	1.3e-05	0.0012	20.1	1.4	1	23	2055	2078	2055	2078	0.98

Sequence Information

Coding Sequence: ATGCAATCGGTATCTCCTGGACTTACGGCGAAGCAGCGTCGAAATCTTCAAACATTTTTCTCCAACACAAGCATAATACCTTTTGAGTGCAATAACGGATTGTCTTGCTTTTTTTGTAGTAAACTTATTTCCCAGTATGCCGATTTGAAAAAGCACACAAAATCCCACGATTTATCTGTTATTACTGCCGTTTTCAAACAATTCAGCTCTCATGTCATCAATATTGACGTATCCGAAGCAAATTGTGAAATTTGCGACTTGCCCTTTGAAAATTTCGCAAATCTACTCGACCACGTAATATCTCTTCATGGTCATAAAAATTTAACTAGTGATATTGATATTATGAAGTTCCGATTGGTTGACACTCGTTGTTTAGAATGTGATAAAcggtttataaatatttctgtttTGCAACGGCATATACACGAAATGCATGAATCGGCGATACATAATAATAGATTTACCCAAAAttcattgaaaaataaaattacgacGGCTGTTATTTCTAAATCTAATAAAAGTTTAAACGAGAAAAAAAAGTATAGTTTACACTGTCCAAACTGCTCTAAAATTTTAACATCCAAACTAGGCTATCAGTTGCATTTATCAAAATGTGGCCTTAAGAAAGAATCCAATTCAGTGTCAGTAAAAAGTTCGACTCCCTTGAAAGTTCGTCAAAACATTGCATCTGTAATTAGTATGTCCACAGCAATACCGtttaagtttttcaaaaatcattttcGCTGCTTCTATTGTTCTAAAGATTATGCTGATTTCGATATGTTAAAAAATCATACACTAAATGATCATTCTAATTTCAATGATGAATCTAAGGTTATGAAAAAGATCAAAGGCAAAGAGGTTACAGTAAAAATTGATATTCTGAATCTAACGTGtaaattatgttttgaaaatatCTTAGATTTGAGTGATTTAATCAATCACTTAACTTTGAACCATGGTGCAAATTATGATAAATCCATAGAATGTCTACAAccatttagaattataaaagataatatacaTTGCCCTCTATGTCCCGATAGtgtttttagatattttaaaaaacttctTGAACACATGAATGAAATTCATACAGATAACAATATTGTTTGTGCACATTGTGGCCTGACTTTTAGAGGACATCCAAACTATCGAGCTCATATGTCTCGCTATCATAGAACGAGAGCTTGTAAATGTCCAGATTGCAATATGGAGTTTTGGAATTTGGAAAAGTTAGCGCGGCACAGGGCCAACGTTCACGGCACCAAGAAATATAAATGTCCTCAATGCGTAGAAAAATTTGTGACTAATTACATGATGCGGCGACATCAAATAGTTGCTCACGGTTTCGGCCACAAATGCCCgtattgtaataaattgttCACGCGTAACTCTCATATGAAGAATCATGTAAGACGATTGCATTTGAAGGAGAAAAACGTCGAATGTAATGTTTGTAAAGAGAAATTTTTCGATCGAGCTCTTCTGAATGTCCATATGGTAAAACACATAGGTGAAAGAAATTATCATTGCGATGTATGCGGAAAGAAGTTTTTGTGGAAAAAGAATTTGCGAGGACACATGGCATCACATGAACGAAatGTAAATAATACGGCAAAGACGCTCGGACCTAATGCTCTGAGGCGGAGAAATCTTCTGATATTATTCAACAATACGTCCATCATTCCATTCAAATGCCGTGGGAAATGTAGATGTTTTTATTGCGGGGAAGAGTTGCCCATTTACGAGAATTTGAAGAAGCATACAAAAGCGCACGGGCCTTGTACAGAGAAAGATCGCGcaattaaattagttaaaacTGATGATGCTGAAGTAAAAATAGATGTTTCAGATATAACTTGTGAATTGTGCAATGAATCATTTTCAAATTTAGACGATATAGTATCACATTTAATAGCCAAACATAAACTGCCTTATATTAAAGACATTAAATTGCTCATCATGACATATCGACTGATTGACTTACAATGTCTGCTGTGTGAACAAAAATTTAGCGCAGTGAATGCTTTAGTCACACATGTTAATTGCGAACATCCCAGTCAGAGTCTGGATTGTGATGTTTGTCATCAGAAGTTTATAAGAAAAGGTTATTTGGATGCTCATATTAGGATAAAACACAAAAATGATTACAAATGTCTGAAATGTTCAAAGACGTTTCCATCCTACTCAGCTTTGCAAGATCATAAAATGAAATCACACGTTGCCGTATGTAATATATGTTTTACAAGATTCTCTACACAAAAGAAGAGATTAAAGCACATGAAAAATGAACACACAGGTGAAGCTTTAAAGTGCGGATTTTGCTTGAAATCGATGAGTACAAAGTTAGGTTTTCTTCGGCATTCAGCTAAATGTACTTACAAAGGTGTTGATGACTCTATAAATGAAACTTTTGTGGTTGATGACGACGATAGAAAGCCAGCAGTTATTCAAATAAGAAAGAACATAGCATGCATACTTAACATGTCTACAGCAATACCTTTCAAGTACTTTATGAGCCGATTTAGGTGTTTTTACTGCCCGAGAAATTTCATAGATTGTCTAGAACTTCGAGAGCACACTATCATGGAACACCCAATAtgcgacattaattttaaatccaTGCGATTACGTAATAGGCAGGAAGGTTGTGTCAAACTTGATATATCTATATTGTCTTGTAAATTATGCCTGGAGATTTTTCCAAATCTAGATAATCTTATAGACCATTTGATATCAGAACATAAAGCTGAATATGATTTGTCTGTAGATAGCAATATACAGCCGTATAAACTTGTCAAAGATAACTATCCATGTCCTATTTGCGGAGAAGTGTACACTCACTTCAGCACATTATTAAAACACGTAGGACAATTCCATACAGATAACAAAAACATTTGTATGCATTGTGGGAAATCGTTTCGGAACTTGCCAAATTTACGTGTACATATTTCTAATCATCACAAAACATCAGGGAGCTTCAAATGTGATACATGCGGACTAGAATTCccttcaaataaatatttacagacTCACTTAGGAAGGACGCACGGTGTAAAAGTTTTCGAATGTCTCGAATGTCCGGAGAGGTTTACATCGAACTACGCCATGCAGAGACATATGATAAATATACATAGCTCTGGTCACAaatgtgtgtattgtggtaAATTGTTCACATCGAATTGTTTTATGGTAGATCATGTAAAAAGAACGCATTTGAAAGAAAAGAACGTGGAGTGTAAAATCTGTTGCGAAAGATTTTTCGATTCACAACGCTTAAAAACTCACATGATTAAGCATAATGGTGAAAGGAACTTTCACTGTGATGTATGCGGGAAAAAATTTTTGTGGAAGAAAAATTTAAGAGGTCACATGGCCTTGCATATAAGAACTACCCATGATGAAGGCCCTTACGACCACTGTACGACAGAGCGGAGAAGGAAAAATTTGCAAATTCTGTTCAACAACAGCACTATATTGCCATTTAAATGGCGCGGGAAGTATCTCTGCTTTTATTGCGGCATGAGTTTCACCGAATACCCGGAGTTTAGAAAGCATACAAAATCTCACGGTTTATGCAACACGACTGACCATGCCCTCAAACTTATTAAAGGGAATCATATAGAAGTCAAAATTGACGTATCGAAGATTGCATGTGAAATCTGTTATGAACCATTTACgacttttaatgaaattattgaaCACTTAATAACAAAACATGACTTAGATTACGACAAAGCCATTGACATTCCGTTCCAAGAATACAGATTGGTAGATTGCCGTTGCAAATTGTGCGGCCAAGAATTTAACTATTTCGGAAATCTCATAATGCATACAAATATTGCTCATCCTAATAATAGTTTCATATGCGATAATTGTGGActgacatttaataaaaagcGAGATTTAGCAGTTCACTTTAGACATTACCATAGGGAAGGCGGCCATTGCTGCGATGAATGCGCAAAAGTATTTCCTACACACATTCTCTTATCCAGACATAAGAACAATTTTCACTTCAGGAGATGCAAGCTATGTGATTCACGATTTCCTACTTTCACGCTCCTACAGAAGCATGTGGAATGTGATCATCCTGAAGATGGCCGTCAGAAGTTCTGTTTGTACTGCTCTAAATTGTGTAAAACCACGCAGGGATTGAAGCACCATTTAAGGAATTGTAAATTGAAACATAATGATAGCGCGACTTCATCAACGTTTCCCGGAGAGATGTTAGAACCGAAAAAGAAGAGAGATATAAtgcaaataagaaaaaatatccAATGCGTATTGAATATGTCGACGGCAATACCTTTCAGATTTTTCTCAAGATTTTCATGTTTTCATTGTTCCAAAGATTTCGTTGAATTCGACGATTTGAAAGAACATGTAGTAGCCGAGCATCCAGTATGCGGCTTAAAAGATAAAAGCATGAAGAAATGCAAAGGGGAACGAATAACTgtaaaaattgacatatctgGCCTAGCTTGTAAAGTTTGTTACGAACCAATGGAAGATTTAGATATATTAATAGACCACTTAATATCCAAACACAAGGCTTCTTACGATAAAACGATCACTGGATGCTTCGATCCGTTTAAAATAGTAAAAGACAATATTCCTTGCAACATTTGCTCCAGTGCCTTTCGATACTTTGGGACAGTTTTGAGACACATAAATTCTGAACATAGCAATAACAATAAGATATGTGATTATTGCGGGCGTAGTTTTAAGAACGTGGCAAACTTGAACGTACATATAACGTACGCGCACACTGGTTCCTGTGAATGCGAGATTTGTGGTGCAAAATACAAAAATCAGTGGTGTTTAGGTAGACATAGGGCGAAATGCCACAACGCGAAAGATTTCCAATGTACTAAATGCCCCGAGCGTTTCCAATCCCAGTATCACAAGCAGAAACATTTGATTAAGGTACACGAAATCGGTCACAAGTGTTCTTATTGCGATAAAATGTTCACGAGGAACTCCTTCATGAAAGATCACATCAGGAGGACTCATTTAAAGGAGAAGAATGTGCCGTGTTCTGTTTGCAATGAGAAGTTTTTCGATAATTATTTGCTAAGGCTACATATGGTTAAACATAAAGGCGAGAGAAATTTCAGCTGCGATGTTTGCGGTGCAAAATTGAGCACAGTGGAGGACAAATATAAGAAAAACGAAATGGTGCGTAAGCTGTTATTAAAACGACGAAATGTCGAATATGTTTTGCAATACAGTAACGTTACACCATTCACCTGGTACAAGGGCAAATATAGGTGCTTCTACTGTTCTGAGCCCATGAAAGATCCCGTCATTCTGAGAGAACATACGGCTGCTATGCACCAATATGCTAATTTAGAGCTAGTCGTGTTTGATAGgacaaaaaataataggaaCAGGGATGCAGCGGTCAAAATTGATGTAACTGATATATCCTGCAAGCTATGTCCTAAAACTCTTAGCAGTTTAGAACAACTGATCAATCATTTGATCATCGCTCACGACGCAGAGTACGACGTAAGCGTTCCCAACTGTCTCCTGCCTTTTAAACTTAACAAAGATCAACCTTCGTGCCCTATTTGCAATATAAAGTTTGTTTTCTTCGAATATCTACTCCGTCATGCGAATAAACACCATTTAGCTCATGATTATATTTGTGATGTTTGTGGAACAAGTTTTCAAGGTGAAAATCATTTGAAAATGCATAATAGATACTATCATAGAGAAGGAGGGTACACATGTGATCATTGCGGTATCAATTTGACCACGCTGTCCAAAAAGACGTTGCACGAGAGGAACGTGCATATGGTAAATTTGTCTACATGCCCGCACTGTCCGGAAACCTTTAAGAGTCCGTATTTCAAGAAACTTCATTTAGCAAATGTGCACGGTGTTGAAGAGCTGAAAATAAAATGTCCATATTGCCCAAAAGTTTATCCCCAAGAGAGTATAATGTCTCGTCACATGAGACGAGTCCATTTGCGCGAAAAAAATGTTGAGTGTCAAGTTTGTGGTGATAAATTCTTTGGGCCGTACGACGTAAAATTGCATATGTTGAAACACAATGGCGACAAAAAATTTGTGTGCTCCGCTTGCGGCAAGAAGTTTTCGAAGAAAAGCAATCTAAATGCTCATTTTCTTATTCATACGGGACAAAAGAAGTACATATGTACTGTTTGTGGTAAGGAATTCGCACATAGGCCAAATTTAAGGATACATTTTAGGACCCGGCATCCGCAGTATGTATCTGAACAAGGTATGAGTGCCACAGATGATATGGACGATGGAGAACTAGTTCAAATAACAACTTTCGAACTTGAACGGGAATTAGAAGCCGTGGAAGAAGCTGTATAA
Protein Sequence: MQSVSPGLTAKQRRNLQTFFSNTSIIPFECNNGLSCFFCSKLISQYADLKKHTKSHDLSVITAVFKQFSSHVINIDVSEANCEICDLPFENFANLLDHVISLHGHKNLTSDIDIMKFRLVDTRCLECDKRFINISVLQRHIHEMHESAIHNNRFTQNSLKNKITTAVISKSNKSLNEKKKYSLHCPNCSKILTSKLGYQLHLSKCGLKKESNSVSVKSSTPLKVRQNIASVISMSTAIPFKFFKNHFRCFYCSKDYADFDMLKNHTLNDHSNFNDESKVMKKIKGKEVTVKIDILNLTCKLCFENILDLSDLINHLTLNHGANYDKSIECLQPFRIIKDNIHCPLCPDSVFRYFKKLLEHMNEIHTDNNIVCAHCGLTFRGHPNYRAHMSRYHRTRACKCPDCNMEFWNLEKLARHRANVHGTKKYKCPQCVEKFVTNYMMRRHQIVAHGFGHKCPYCNKLFTRNSHMKNHVRRLHLKEKNVECNVCKEKFFDRALLNVHMVKHIGERNYHCDVCGKKFLWKKNLRGHMASHERNVNNTAKTLGPNALRRRNLLILFNNTSIIPFKCRGKCRCFYCGEELPIYENLKKHTKAHGPCTEKDRAIKLVKTDDAEVKIDVSDITCELCNESFSNLDDIVSHLIAKHKLPYIKDIKLLIMTYRLIDLQCLLCEQKFSAVNALVTHVNCEHPSQSLDCDVCHQKFIRKGYLDAHIRIKHKNDYKCLKCSKTFPSYSALQDHKMKSHVAVCNICFTRFSTQKKRLKHMKNEHTGEALKCGFCLKSMSTKLGFLRHSAKCTYKGVDDSINETFVVDDDDRKPAVIQIRKNIACILNMSTAIPFKYFMSRFRCFYCPRNFIDCLELREHTIMEHPICDINFKSMRLRNRQEGCVKLDISILSCKLCLEIFPNLDNLIDHLISEHKAEYDLSVDSNIQPYKLVKDNYPCPICGEVYTHFSTLLKHVGQFHTDNKNICMHCGKSFRNLPNLRVHISNHHKTSGSFKCDTCGLEFPSNKYLQTHLGRTHGVKVFECLECPERFTSNYAMQRHMINIHSSGHKCVYCGKLFTSNCFMVDHVKRTHLKEKNVECKICCERFFDSQRLKTHMIKHNGERNFHCDVCGKKFLWKKNLRGHMALHIRTTHDEGPYDHCTTERRRKNLQILFNNSTILPFKWRGKYLCFYCGMSFTEYPEFRKHTKSHGLCNTTDHALKLIKGNHIEVKIDVSKIACEICYEPFTTFNEIIEHLITKHDLDYDKAIDIPFQEYRLVDCRCKLCGQEFNYFGNLIMHTNIAHPNNSFICDNCGLTFNKKRDLAVHFRHYHREGGHCCDECAKVFPTHILLSRHKNNFHFRRCKLCDSRFPTFTLLQKHVECDHPEDGRQKFCLYCSKLCKTTQGLKHHLRNCKLKHNDSATSSTFPGEMLEPKKKRDIMQIRKNIQCVLNMSTAIPFRFFSRFSCFHCSKDFVEFDDLKEHVVAEHPVCGLKDKSMKKCKGERITVKIDISGLACKVCYEPMEDLDILIDHLISKHKASYDKTITGCFDPFKIVKDNIPCNICSSAFRYFGTVLRHINSEHSNNNKICDYCGRSFKNVANLNVHITYAHTGSCECEICGAKYKNQWCLGRHRAKCHNAKDFQCTKCPERFQSQYHKQKHLIKVHEIGHKCSYCDKMFTRNSFMKDHIRRTHLKEKNVPCSVCNEKFFDNYLLRLHMVKHKGERNFSCDVCGAKLSTVEDKYKKNEMVRKLLLKRRNVEYVLQYSNVTPFTWYKGKYRCFYCSEPMKDPVILREHTAAMHQYANLELVVFDRTKNNRNRDAAVKIDVTDISCKLCPKTLSSLEQLINHLIIAHDAEYDVSVPNCLLPFKLNKDQPSCPICNIKFVFFEYLLRHANKHHLAHDYICDVCGTSFQGENHLKMHNRYYHREGGYTCDHCGINLTTLSKKTLHERNVHMVNLSTCPHCPETFKSPYFKKLHLANVHGVEELKIKCPYCPKVYPQESIMSRHMRRVHLREKNVECQVCGDKFFGPYDVKLHMLKHNGDKKFVCSACGKKFSKKSNLNAHFLIHTGQKKYICTVCGKEFAHRPNLRIHFRTRHPQYVSEQGMSATDDMDDGELVQITTFELERELEAVEEAV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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