Basic Information

Insect: Belgica antarctica
Gene Symbol: -
Assembly: GCA_000775305.1
Location: Belgica.207:3804-10914[+]

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 48 4.8e-05 0.002 17.8 1.6 1 23 81 104 81 104 0.97

2 48 5.7e-05 0.0023 17.6 1.2 1 23 110 133 110 133 0.97

3 48 0.44 18 5.4 1.6 2 23 139 160 138 160 0.93

4 48 0.0048 0.2 11.5 3.5 2 23 195 217 194 217 0.96

5 48 0.0054 0.22 11.4 1.4 2 23 238 260 237 260 0.95

6 48 1.3 54 3.8 2.1 2 23 268 289 267 290 0.90

7 48 1.4 57 3.8 0.1 2 13 294 305 294 307 0.89

8 48 0.12 4.9 7.1 1.1 1 23 338 361 338 361 0.94

9 48 6.6 2.7e+02 1.6 2.0 2 23 379 400 378 400 0.93

10 48 0.00072 0.03 14.1 0.8 1 23 405 428 405 428 0.97

11 48 0.031 1.3 9.0 1.0 5 23 437 455 434 455 0.94

12 48 0.095 3.9 7.4 3.2 2 23 460 482 459 483 0.95

13 48 1.1 47 4.0 1.8 1 23 522 544 522 544 0.94

14 48 9.4 3.9e+02 1.2 2.5 2 23 563 584 562 584 0.93

15 48 0.00052 0.021 14.6 0.8 1 23 589 612 589 612 0.94

16 48 0.2 8.2 6.4 0.4 5 23 621 639 619 639 0.94

17 48 0.0041 0.17 11.7 1.4 2 23 644 666 643 666 0.93

18 48 0.0082 0.34 10.8 0.9 1 23 706 729 706 729 0.96

19 48 0.00075 0.031 14.1 1.4 3 23 737 758 736 758 0.97

20 48 1.9e-05 0.00077 19.1 1.1 1 23 772 795 772 795 0.96

21 48 0.1 4.2 7.3 0.1 5 23 804 822 802 822 0.96

22 48 0.00072 0.03 14.1 1.5 3 23 829 849 827 850 0.94

23 48 0.1 4.3 7.3 0.7 1 23 888 911 888 911 0.97

24 48 0.00029 0.012 15.4 0.6 3 23 919 940 917 940 0.93

25 48 0.19 7.7 6.5 0.5 2 23 946 967 945 967 0.96

26 48 0.018 0.72 9.8 2.3 3 23 989 1012 987 1012 0.92

27 48 0.5 21 5.2 2.7 5 23 1021 1039 1018 1039 0.95

28 48 0.0092 0.38 10.6 3.4 2 23 1045 1067 1044 1067 0.96

29 48 0.77 32 4.6 1.3 1 23 1099 1122 1099 1122 0.95

30 48 1.7 71 3.5 1.7 3 23 1144 1164 1142 1164 0.93

31 48 0.00022 0.0092 15.7 0.8 1 23 1169 1192 1169 1192 0.97

32 48 0.017 0.69 9.8 1.9 5 23 1201 1219 1198 1219 0.95

33 48 0.11 4.6 7.2 0.3 2 23 1224 1246 1223 1246 0.96

34 48 0.062 2.5 8.0 3.2 1 23 1284 1307 1284 1307 0.97

35 48 0.0024 0.1 12.4 1.5 2 23 1314 1336 1313 1336 0.95

36 48 0.00065 0.027 14.3 3.0 1 23 1369 1392 1369 1392 0.93

37 48 0.08 3.3 7.7 2.4 5 23 1401 1419 1398 1419 0.94

38 48 2.2 91 3.1 1.4 2 23 1425 1447 1424 1447 0.96

39 48 0.058 2.4 8.1 0.3 1 23 1486 1509 1486 1509 0.91

40 48 5.3e-05 0.0022 17.7 0.6 3 23 1517 1537 1515 1537 0.96

41 48 0.00023 0.0093 15.7 2.6 1 23 1557 1580 1557 1580 0.96

42 48 0.1 4.2 7.4 2.4 5 23 1589 1607 1587 1607 0.95

43 48 0.61 25 4.9 0.9 3 22 1614 1632 1612 1634 0.74

44 48 0.19 8 6.5 0.5 1 23 1666 1689 1666 1689 0.97

45 48 0.92 38 4.3 0.9 2 23 1710 1731 1709 1731 0.93

46 48 0.00027 0.011 15.4 0.3 1 23 1736 1759 1736 1759 0.97

47 48 0.00019 0.0076 16.0 0.4 5 23 1768 1786 1766 1786 0.96

48 48 0.0011 0.043 13.6 0.2 2 23 1791 1813 1790 1813 0.95

#	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	48	4.8e-05	0.002	17.8	1.6	1	23	81	104	81	104	0.97
2	48	5.7e-05	0.0023	17.6	1.2	1	23	110	133	110	133	0.97
3	48	0.44	18	5.4	1.6	2	23	139	160	138	160	0.93
4	48	0.0048	0.2	11.5	3.5	2	23	195	217	194	217	0.96
5	48	0.0054	0.22	11.4	1.4	2	23	238	260	237	260	0.95
6	48	1.3	54	3.8	2.1	2	23	268	289	267	290	0.90
7	48	1.4	57	3.8	0.1	2	13	294	305	294	307	0.89
8	48	0.12	4.9	7.1	1.1	1	23	338	361	338	361	0.94
9	48	6.6	2.7e+02	1.6	2.0	2	23	379	400	378	400	0.93
10	48	0.00072	0.03	14.1	0.8	1	23	405	428	405	428	0.97
11	48	0.031	1.3	9.0	1.0	5	23	437	455	434	455	0.94
12	48	0.095	3.9	7.4	3.2	2	23	460	482	459	483	0.95
13	48	1.1	47	4.0	1.8	1	23	522	544	522	544	0.94
14	48	9.4	3.9e+02	1.2	2.5	2	23	563	584	562	584	0.93
15	48	0.00052	0.021	14.6	0.8	1	23	589	612	589	612	0.94
16	48	0.2	8.2	6.4	0.4	5	23	621	639	619	639	0.94
17	48	0.0041	0.17	11.7	1.4	2	23	644	666	643	666	0.93
18	48	0.0082	0.34	10.8	0.9	1	23	706	729	706	729	0.96
19	48	0.00075	0.031	14.1	1.4	3	23	737	758	736	758	0.97
20	48	1.9e-05	0.00077	19.1	1.1	1	23	772	795	772	795	0.96
21	48	0.1	4.2	7.3	0.1	5	23	804	822	802	822	0.96
22	48	0.00072	0.03	14.1	1.5	3	23	829	849	827	850	0.94
23	48	0.1	4.3	7.3	0.7	1	23	888	911	888	911	0.97
24	48	0.00029	0.012	15.4	0.6	3	23	919	940	917	940	0.93
25	48	0.19	7.7	6.5	0.5	2	23	946	967	945	967	0.96
26	48	0.018	0.72	9.8	2.3	3	23	989	1012	987	1012	0.92
27	48	0.5	21	5.2	2.7	5	23	1021	1039	1018	1039	0.95
28	48	0.0092	0.38	10.6	3.4	2	23	1045	1067	1044	1067	0.96
29	48	0.77	32	4.6	1.3	1	23	1099	1122	1099	1122	0.95
30	48	1.7	71	3.5	1.7	3	23	1144	1164	1142	1164	0.93
31	48	0.00022	0.0092	15.7	0.8	1	23	1169	1192	1169	1192	0.97
32	48	0.017	0.69	9.8	1.9	5	23	1201	1219	1198	1219	0.95
33	48	0.11	4.6	7.2	0.3	2	23	1224	1246	1223	1246	0.96
34	48	0.062	2.5	8.0	3.2	1	23	1284	1307	1284	1307	0.97
35	48	0.0024	0.1	12.4	1.5	2	23	1314	1336	1313	1336	0.95
36	48	0.00065	0.027	14.3	3.0	1	23	1369	1392	1369	1392	0.93
37	48	0.08	3.3	7.7	2.4	5	23	1401	1419	1398	1419	0.94
38	48	2.2	91	3.1	1.4	2	23	1425	1447	1424	1447	0.96
39	48	0.058	2.4	8.1	0.3	1	23	1486	1509	1486	1509	0.91
40	48	5.3e-05	0.0022	17.7	0.6	3	23	1517	1537	1515	1537	0.96
41	48	0.00023	0.0093	15.7	2.6	1	23	1557	1580	1557	1580	0.96
42	48	0.1	4.2	7.4	2.4	5	23	1589	1607	1587	1607	0.95
43	48	0.61	25	4.9	0.9	3	22	1614	1632	1612	1634	0.74
44	48	0.19	8	6.5	0.5	1	23	1666	1689	1666	1689	0.97
45	48	0.92	38	4.3	0.9	2	23	1710	1731	1709	1731	0.93
46	48	0.00027	0.011	15.4	0.3	1	23	1736	1759	1736	1759	0.97
47	48	0.00019	0.0076	16.0	0.4	5	23	1768	1786	1766	1786	0.96
48	48	0.0011	0.043	13.6	0.2	2	23	1791	1813	1790	1813	0.95

Sequence Information

Coding Sequence: ATGTCTAAAattaagcttgaaaacataaaatctgaaataataattgaaaatgagCCTGATGTATCAAATAATGTGAAAAGTGATCAAATAGTGAAACGAGAACCGACAGATATTCAGTTAGAGAAATGCCGACCGCATCGAAATTGGACCATTCCCGAGTTGAATCGAACTACGGATGTGGCGAAGGAAACTTGGTTTTCAATAAGCAATGTCAGTTGTTTAAAATCGCCTGCGAAGAATTACGTTTGTGACGTGTGTGGCAAAAGATCGTCAACTCTGCAATTGCTGAGAAAACATATAAGACATCAGCACACCAAGGCGGCAACCTTTTGCTGCACTCAATGTCCTAAGGCTTTTATTATCAAGTCTCTTCTTCAGCAACATATAAATACTGTACATTGGAAGATCCAAAAAAGCTGCGACATTTGtgatttcaaaactttattcagCTCAACTTTGAAAAGGCACAGAAATGCGCATCGTTCAAGGCCTGGATGTCATATCTGTCGGAAACCTATTGCACCTAGCATGATGGACAATCACCTGTTGACACACTTGAAAAACTATGTCAAGCCGTTGAAGTCTTGCGAGATTTGTGGAAAGTTGTTCAGTCACGCGAGTACAGTATCACATCACTggaaaaaaactcatttgacATCTCATGGTCCGCGTTTTCTTTGGAATAGAAAAGCACAAGAAAATCGGATTTTAGAGTGCGATTTTTgtgaaatgaagttgaaaacgaAACAACAACTGCGGTATCATATGCGTTTGAATCACATGGAAGTCAAACGTCATCTAAGTTGCAACATTTGCgactttaaaacttcataCCAGTTCACTTCGAAAAAACACAAACGTGCGCATTTGGAAAAGCCAGAGTGTCCTGTTTGTCGAAAGCCGTTTGCACAGCAATTTTTACCGATTCATGTTGCAACACATTCGAATAAGATTATCAAGACCAGCTCAAGTTCAAGAACGAGAAATGTGAAACTTCGCGACAAAGGTCCTTTTGAATGTGACAAGTGCAGCAGAGTTTACATGAATCGAAAATCAATCCTGAACCATTTTTTGAAGTGGCACACCGTGAAGCGAATTGAcaacgaattgaaaattgaaccaCAAGAAATTACGACTTGTCCGTGTTGCTACAAGCAGTTTGACATCAAAGCTTTGGAAAAGCACATCGAGAAAAAGCACCGTCGAGAGAACTTTAGGTGCCGAGAGtgtgatgaagtttttatgtaCAATGAACTTCTGAGAATtcATCGTTTGAGGAAACATTTTGATGGAGAACTGCACGAGTGTGACTGTGGGGCTGTTTATAGGAACAAATACGACctaaaatatcacaaaaagGCCCATGATTCACCAATCACTTGCGAAATCTGCCACAGAATCTTCACCGTTCAAAATTCGATTTACAGCCACTGGAAGAAACGTCACCACAGCTCTCATGGTCCTTACGTTGATTGGAAACATTCACGAGCGCCTAAACCACAAAGCCGACAGTTCAAGAAAAAATCcaacaagttttcaacaattctACGAAGAGAAGGTCCTTTCATTTGCGACTgctgtgaaaaagtttttcaaagtcgCACTTCTATTGTGAATCATGTAAAGAATCACGCTGGTCTTAGCTTCCAAAATCAACAATTGGGAAGAGGACCTCAATTTCCAACAACGTGTCCTTGTTGCTACAAAACTTTCGATGTCAAGGTTCTAGAAAATCATATTAAAAAGAAGCATCGAGTGCAAAGGTTCAGCTGTCAAGATtgcgataaaattttcatgtaCCAAGAAATGCTTAGAATccATCGCGTAAAGACGCACTACGATGGAGAACTGCACGAGTGTAATTGTGGGTCTGTTTACATGAACAAATATGACCTAAATAACCATAGGAAGGCGCACGATCCGCCAATTACATGCGCTGTTTGCAGCAGGTTCTTTGCAGACAAAGATTCGCTTAGAATTCATTGGAAGTTCTGCCATTCAATCTCTCATGGCAGCTTCGGTGACTGGAAAAAAGCGCAGCTACCAAAGATCGAGAAAGTCAAGTACATTAGAAAATCGCCATTGTTTCCGATACCGATCAAACAATATGGGCCGTACACTTGTGACTTCTGTGGCAAGGACTACATTAACCGCAATTCAATCATGAGCCACGTCAAGTACTCTCACATTTCGACTCCACTCTTGCTCTGCGAACTTTGTCCACAATCTTTCAACAAGAATTCGTTGATGAAGACTCACATGCAAAAATTCCACAAGAACAGAAAGTCATCGGGACaccataaaaaagtttttcacagtTGCACTGAATGTGGCGAAGCTTTTCCATACAAAAATGAGTTGCGAAAACATATTTTAAAGACACATTACGAAGGTGAACTGTTCGAATGTCAATGCGGAGCCGTTTTTAAAGACAAAGTAGGCTTGTATTATCACGAAAGAATACACAAACAAGGAGTCATTGCTTGCGAActATGTGATCGGAAGTACAAAAATGCATCTCTATTTTCCACCCACTGGAAAACTCATCATTACGAGACGCACGGATCTCGTTCAGATTGGAAAAAATCAATGGGTCTGCAGACACAAAAGCAATATCTGAAAGTGTCATCGCttatcaagaaattgaattacgCTGGACCTTACACTTGTGATTTGTGTGGCAGAATTCAAAAATCTAGAGTTTCAATGTTGAACCATTTGAGATATCAACACTTGAGAGTCAACCGTTTATTTTGTGACTTGTGTCCGAAATCATTTAACATAAAATCGTTACTAAGGACACACATGAGTGAATAtcacttgaaagaaaaaattacatGCGTGATCTGTGGCTTTCAAACTGTCTACAAGAATTCTCTGAGATTTCACATGCGTTTGCATGATAAAAATAGAGTGCAAGCAgtgcgaagaaaaatctcgacAAACAGAATCAAATCGCTGAATTGTAATTGCATTGAATGTGgcgagaattttaattccaattcAGATCGAAGAAGGCACACTTTGAAGAATCATTACGACGGAATCTTGCACGAATGTCACTGCGGCGAACTTTTCAAGTACAAGAATGGCTTGGAACAACACAAACAAGTTCATAAAAAGACTGAACTTAAATGCGAGCTCTGCGGCTTTGCAACTAAACACAGCAGTTCATTTTCGAAGCACTGGAAACGAAAACACCTTAATTCTGAGGGAAATTATGGAACTTGGAAGGAATTAATGGGCATCGCAAAAGTTCACTCGTCggCCATAGCTTTAAACGACGATGGTTTATATGCATGCAACCAATGCAGCAacgtttattcaaattttgagtCGATTGTGCTGCACATCAAACACAAACACGGAAAACAGCGTTCAAAGCCACGAACGGCTGCAAAAATAGAGCAACCACAGGTGATTAGTTCGTGTCCATGCTGCTACAAGACATTCGACATCAAAGCTTTGGAAAAGCACATCGAGAAAAAGCACAGAAGAGAGAACTTCAAATGCCAAGAGtgtgatgaagtttttatgtaCAGCGAACTTCTTAGGATtcATCGTTTGAGGAAACATTTTGATGGAGAACTACACGAGTGTGATTGTGGGGCTGTTTATAAGAACAAAAACGACTTGAATCACCACTTGAAGGCCCATGATCCACCAATCACTTGTGATGTTTGCATCAGAATCTTCGTTGACATGGAATCTTTTTACCGGCACTGGAGAACGAGACATTTCAGCTCTCACGGCTACTTCACCGAATGGAAAAAGATGAATGGAGTAAAGACTGCTtcgataaaacaaaaaattcaaaagttcccGATTATCATCAAACAGAAAGGTCCTTACAACTGCGACTTTTGTGATCGACAGTGCGTCAACCGCAACTCGGTCATGAATCATCTGAGATACACGCATTTCTTAAAGCCTTACTTGAACTGTGAACATTGCCCAGAAAAGTTCAACATGAAATCGTTGTTGGAATATCACGTGCAAAGATTCCACAGGAAGATCGAAGAACCAGTTGTACAATTACCAAGTCAGCTGCGCAAGCGAAAACCGAGACCAGACTTCCTTGACTTCAGTTTGAATCCAGTAGATCACACCTGCCAAGAGTGTGGAGAAACTTTCAGCCTGAAAAGGATGCTTAAAAGACACTTTCTGAATAACCACTATGCAGGAGAAGTTCACAAATGCCATTGCGGTGCTGTTTTTAAGCAAAAGCAATACTTGGCTAACCATGAATTGATTCATACACTGAGAAATATGCAGTGTGAGatttgttgcaaaactttaGGAAATAGATCAGCCTTTTATGAACACTGGAAGGTGAAGCACTTAAAGACACATGGATCTCGATCTGCCTGGAAAGAATCGATGGGAATTACGAGAAAGCGGAGAAAACCTTCAAACAGATCATCAACGATTCCAATTCTCAACCATCCTGGACCTTACACTTGCGATGTATGTGGGAAAGACCGAAGCACTCGTGGTTCAATTCTTACACATTTGGTTTATCGGCacttcaaaaagaatttcttgttctGTGATTTGTGTCCACGATCGTTCAACATGAAATCACTTCttgaaaagcatttgaaaatcCACAGTCGAtttaaaatgatgaagttGGAAAATGTGGTGACCACGGACATGATGAAAAGGTTCAACTGCTTGGAGTGCGGTGAAAGTTTTGACTATCACAGCAATTTTCGGAATCACTTGTTGAAGAACCATTACAACGGACAACTGTATGAATGTCACTGCGGTTctgttttcaaaagcaaaatgagCCTTAGGCAGCACAAATCAGTTCATTcaaatgtgaaaatcaattgcaagCTTTGTGGAATTAAATTCAAGAACAAGAACATTTACAATCACTGGAAGCTTAAGCACgcagaaacttttgaaaattgtgaatctTGGAAAGAAGCGATGGGAATTAAAAGTGGTCCACGAACTTctATCGTGTTGAACAACAAAGGCCCGTACACTTGTGACTTGTGTGGTCATGACTACTTAAACCGGTCTTCAATTTTGTCTCACATAAACTCTGCGCACTTGAATCCGAAAACGAAACTGGCCAAAGCTGTTAAGAAAGAAGAACCGCAGGTGATAACTTCTTGTCCATGCTGCTACAAGACGTTTGACGttgaagctttggaaaagCACATCGAAAAGTCACACAACAAATATAACTTCCGGTGTCGAGACtgcgaagaagttttcatctaCAGCGAACAGCTAAGGATTCATGTTTTGAAGCAACACTACGATGGAGAATTGCTGGAGTGTGATTGCGGTGCTGTGTTCAAAGACAAATATAAATTAAACCGGCATATGAAAGCACACGATCCACCAATCACTTGCGACATCTGCAGCAGAATATTTGTTGACATGGATTCACTATACAGACATTGGAGACAGCGGCATTACAGCACTCACCGAGGCTTTGGGGAatggaaaaaagctcaaatgGGCAATGatggaaactttgaacattcagattttttgattgttaGTATCAAAGGTGAATGTGATGAAGTCAACTCTTATTTTGACGGCCACTGGAATGATTAtgagaattga
Protein Sequence: MSKIKLENIKSEIIIENEPDVSNNVKSDQIVKREPTDIQLEKCRPHRNWTIPELNRTTDVAKETWFSISNVSCLKSPAKNYVCDVCGKRSSTLQLLRKHIRHQHTKAATFCCTQCPKAFIIKSLLQQHINTVHWKIQKSCDICDFKTLFSSTLKRHRNAHRSRPGCHICRKPIAPSMMDNHLLTHLKNYVKPLKSCEICGKLFSHASTVSHHWKKTHLTSHGPRFLWNRKAQENRILECDFCEMKLKTKQQLRYHMRLNHMEVKRHLSCNICDFKTSYQFTSKKHKRAHLEKPECPVCRKPFAQQFLPIHVATHSNKIIKTSSSSRTRNVKLRDKGPFECDKCSRVYMNRKSILNHFLKWHTVKRIDNELKIEPQEITTCPCCYKQFDIKALEKHIEKKHRRENFRCRECDEVFMYNELLRIHRLRKHFDGELHECDCGAVYRNKYDLKYHKKAHDSPITCEICHRIFTVQNSIYSHWKKRHHSSHGPYVDWKHSRAPKPQSRQFKKKSNKFSTILRREGPFICDCCEKVFQSRTSIVNHVKNHAGLSFQNQQLGRGPQFPTTCPCCYKTFDVKVLENHIKKKHRVQRFSCQDCDKIFMYQEMLRIHRVKTHYDGELHECNCGSVYMNKYDLNNHRKAHDPPITCAVCSRFFADKDSLRIHWKFCHSISHGSFGDWKKAQLPKIEKVKYIRKSPLFPIPIKQYGPYTCDFCGKDYINRNSIMSHVKYSHISTPLLLCELCPQSFNKNSLMKTHMQKFHKNRKSSGHHKKVFHSCTECGEAFPYKNELRKHILKTHYEGELFECQCGAVFKDKVGLYYHERIHKQGVIACELCDRKYKNASLFSTHWKTHHYETHGSRSDWKKSMGLQTQKQYLKVSSLIKKLNYAGPYTCDLCGRIQKSRVSMLNHLRYQHLRVNRLFCDLCPKSFNIKSLLRTHMSEYHLKEKITCVICGFQTVYKNSLRFHMRLHDKNRVQAVRRKISTNRIKSLNCNCIECGENFNSNSDRRRHTLKNHYDGILHECHCGELFKYKNGLEQHKQVHKKTELKCELCGFATKHSSSFSKHWKRKHLNSEGNYGTWKELMGIAKVHSSAIALNDDGLYACNQCSNVYSNFESIVLHIKHKHGKQRSKPRTAAKIEQPQVISSCPCCYKTFDIKALEKHIEKKHRRENFKCQECDEVFMYSELLRIHRLRKHFDGELHECDCGAVYKNKNDLNHHLKAHDPPITCDVCIRIFVDMESFYRHWRTRHFSSHGYFTEWKKMNGVKTASIKQKIQKFPIIIKQKGPYNCDFCDRQCVNRNSVMNHLRYTHFLKPYLNCEHCPEKFNMKSLLEYHVQRFHRKIEEPVVQLPSQLRKRKPRPDFLDFSLNPVDHTCQECGETFSLKRMLKRHFLNNHYAGEVHKCHCGAVFKQKQYLANHELIHTLRNMQCEICCKTLGNRSAFYEHWKVKHLKTHGSRSAWKESMGITRKRRKPSNRSSTIPILNHPGPYTCDVCGKDRSTRGSILTHLVYRHFKKNFLFCDLCPRSFNMKSLLEKHLKIHSRFKMMKLENVVTTDMMKRFNCLECGESFDYHSNFRNHLLKNHYNGQLYECHCGSVFKSKMSLRQHKSVHSNVKINCKLCGIKFKNKNIYNHWKLKHAETFENCESWKEAMGIKSGPRTSIVLNNKGPYTCDLCGHDYLNRSSILSHINSAHLNPKTKLAKAVKKEEPQVITSCPCCYKTFDVEALEKHIEKSHNKYNFRCRDCEEVFIYSEQLRIHVLKQHYDGELLECDCGAVFKDKYKLNRHMKAHDPPITCDICSRIFVDMDSLYRHWRQRHYSTHRGFGEWKKAQMGNDGNFEHSDFLIVSIKGECDEVNSYFDGHWNDYEN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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