Basic Information

Insect: Oryzaephilus surinamensis
Gene Symbol: VEZF1
Assembly: GCA_004796505.1
Location: SSSI01007002.1:112449-127507[-]

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 0.12 11 6.7 3.5 1 23 38 60 38 60 0.95

2 48 0.0001 0.01 16.3 2.3 1 23 66 88 66 88 0.94

3 48 0.0012 0.11 13.0 4.3 1 23 93 115 93 115 0.98

4 48 0.00015 0.014 15.9 0.7 1 23 121 144 121 144 0.94

5 48 2.6e-05 0.0025 18.2 0.2 1 23 150 172 150 172 0.98

6 48 0.055 5.3 7.8 0.8 1 23 200 222 200 222 0.91

7 48 0.23 22 5.8 1.1 1 23 257 279 257 279 0.88

8 48 0.0096 0.92 10.2 1.1 1 23 285 308 285 308 0.98

9 48 0.03 2.9 8.6 0.7 2 23 322 344 321 344 0.88

10 48 2.8 2.7e+02 2.4 0.0 3 15 353 365 352 367 0.82

11 48 0.6 57 4.5 0.4 2 23 422 443 421 443 0.86

12 48 0.072 6.9 7.4 0.3 1 13 489 501 489 513 0.78

13 48 4.1 3.9e+02 1.9 3.0 1 23 525 547 525 547 0.97

14 48 0.49 47 4.8 0.1 3 17 555 569 554 570 0.89

15 48 0.0081 0.78 10.4 0.7 2 23 606 627 605 627 0.95

16 48 5.4 5.2e+02 1.5 4.6 1 23 633 655 633 655 0.97

17 48 0.019 1.8 9.2 0.2 2 23 663 684 662 684 0.93

18 48 4.5e-06 0.00044 20.6 1.0 1 23 691 714 691 714 0.98

19 48 0.017 1.6 9.4 0.1 2 23 765 786 764 786 0.93

20 48 0.036 3.5 8.3 0.3 1 23 820 842 820 842 0.78

21 48 0.035 3.4 8.4 4.8 1 21 848 868 848 871 0.95

22 48 0.036 3.5 8.3 2.7 1 23 883 906 883 906 0.93

23 48 0.00066 0.064 13.8 0.3 2 23 969 990 968 990 0.95

24 48 4.3e-07 4.1e-05 23.8 0.9 1 23 1137 1159 1137 1159 0.97

25 48 0.00062 0.059 13.9 0.3 1 23 1163 1185 1163 1185 0.98

26 48 6.4 6.2e+02 1.3 0.3 1 23 1191 1214 1191 1214 0.93

27 48 0.0086 0.82 10.3 1.5 1 23 1248 1271 1248 1271 0.95

28 48 0.0075 0.72 10.5 5.0 1 23 1282 1304 1282 1304 0.96

29 48 0.92 88 3.9 0.1 3 17 1311 1325 1310 1325 0.90

30 48 4.5 4.3e+02 1.8 0.1 1 9 1369 1377 1369 1382 0.83

31 48 0.025 2.4 8.9 0.2 1 23 1394 1416 1394 1416 0.98

32 48 0.015 1.5 9.5 0.6 1 21 1467 1487 1467 1488 0.96

33 48 2 1.9e+02 2.9 1.7 1 23 1494 1516 1494 1516 0.94

34 48 0.14 13 6.5 0.1 2 23 1549 1570 1548 1570 0.92

35 48 5.2e-05 0.005 17.3 4.4 1 23 1576 1599 1576 1599 0.97

36 48 0.00015 0.015 15.8 0.5 1 23 1610 1633 1610 1633 0.96

37 48 9e-06 0.00086 19.7 0.1 2 23 1642 1663 1641 1663 0.97

38 48 0.0034 0.33 11.6 0.3 2 23 1735 1756 1734 1756 0.95

39 48 0.21 20 6.0 0.1 1 23 1775 1797 1775 1797 0.97

40 48 0.00044 0.042 14.4 1.2 1 23 1801 1823 1801 1823 0.95

41 48 0.0011 0.1 13.1 1.0 1 23 1828 1851 1828 1851 0.96

42 48 0.018 1.7 9.3 0.4 1 23 1857 1879 1857 1879 0.97

43 48 0.036 3.4 8.4 2.0 1 23 1885 1908 1885 1908 0.94

44 48 0.0018 0.17 12.4 0.3 2 23 1920 1942 1919 1942 0.95

45 48 1.6e-05 0.0015 18.9 1.2 3 23 1958 1978 1956 1978 0.96

46 48 0.00023 0.022 15.3 0.9 1 23 1984 2006 1984 2006 0.98

47 48 2.6e-05 0.0025 18.2 2.8 1 23 2012 2034 2012 2034 0.97

48 48 0.0033 0.32 11.6 0.4 1 21 2040 2060 2040 2061 0.94

#	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	0.12	11	6.7	3.5	1	23	38	60	38	60	0.95
2	48	0.0001	0.01	16.3	2.3	1	23	66	88	66	88	0.94
3	48	0.0012	0.11	13.0	4.3	1	23	93	115	93	115	0.98
4	48	0.00015	0.014	15.9	0.7	1	23	121	144	121	144	0.94
5	48	2.6e-05	0.0025	18.2	0.2	1	23	150	172	150	172	0.98
6	48	0.055	5.3	7.8	0.8	1	23	200	222	200	222	0.91
7	48	0.23	22	5.8	1.1	1	23	257	279	257	279	0.88
8	48	0.0096	0.92	10.2	1.1	1	23	285	308	285	308	0.98
9	48	0.03	2.9	8.6	0.7	2	23	322	344	321	344	0.88
10	48	2.8	2.7e+02	2.4	0.0	3	15	353	365	352	367	0.82
11	48	0.6	57	4.5	0.4	2	23	422	443	421	443	0.86
12	48	0.072	6.9	7.4	0.3	1	13	489	501	489	513	0.78
13	48	4.1	3.9e+02	1.9	3.0	1	23	525	547	525	547	0.97
14	48	0.49	47	4.8	0.1	3	17	555	569	554	570	0.89
15	48	0.0081	0.78	10.4	0.7	2	23	606	627	605	627	0.95
16	48	5.4	5.2e+02	1.5	4.6	1	23	633	655	633	655	0.97
17	48	0.019	1.8	9.2	0.2	2	23	663	684	662	684	0.93
18	48	4.5e-06	0.00044	20.6	1.0	1	23	691	714	691	714	0.98
19	48	0.017	1.6	9.4	0.1	2	23	765	786	764	786	0.93
20	48	0.036	3.5	8.3	0.3	1	23	820	842	820	842	0.78
21	48	0.035	3.4	8.4	4.8	1	21	848	868	848	871	0.95
22	48	0.036	3.5	8.3	2.7	1	23	883	906	883	906	0.93
23	48	0.00066	0.064	13.8	0.3	2	23	969	990	968	990	0.95
24	48	4.3e-07	4.1e-05	23.8	0.9	1	23	1137	1159	1137	1159	0.97
25	48	0.00062	0.059	13.9	0.3	1	23	1163	1185	1163	1185	0.98
26	48	6.4	6.2e+02	1.3	0.3	1	23	1191	1214	1191	1214	0.93
27	48	0.0086	0.82	10.3	1.5	1	23	1248	1271	1248	1271	0.95
28	48	0.0075	0.72	10.5	5.0	1	23	1282	1304	1282	1304	0.96
29	48	0.92	88	3.9	0.1	3	17	1311	1325	1310	1325	0.90
30	48	4.5	4.3e+02	1.8	0.1	1	9	1369	1377	1369	1382	0.83
31	48	0.025	2.4	8.9	0.2	1	23	1394	1416	1394	1416	0.98
32	48	0.015	1.5	9.5	0.6	1	21	1467	1487	1467	1488	0.96
33	48	2	1.9e+02	2.9	1.7	1	23	1494	1516	1494	1516	0.94
34	48	0.14	13	6.5	0.1	2	23	1549	1570	1548	1570	0.92
35	48	5.2e-05	0.005	17.3	4.4	1	23	1576	1599	1576	1599	0.97
36	48	0.00015	0.015	15.8	0.5	1	23	1610	1633	1610	1633	0.96
37	48	9e-06	0.00086	19.7	0.1	2	23	1642	1663	1641	1663	0.97
38	48	0.0034	0.33	11.6	0.3	2	23	1735	1756	1734	1756	0.95
39	48	0.21	20	6.0	0.1	1	23	1775	1797	1775	1797	0.97
40	48	0.00044	0.042	14.4	1.2	1	23	1801	1823	1801	1823	0.95
41	48	0.0011	0.1	13.1	1.0	1	23	1828	1851	1828	1851	0.96
42	48	0.018	1.7	9.3	0.4	1	23	1857	1879	1857	1879	0.97
43	48	0.036	3.4	8.4	2.0	1	23	1885	1908	1885	1908	0.94
44	48	0.0018	0.17	12.4	0.3	2	23	1920	1942	1919	1942	0.95
45	48	1.6e-05	0.0015	18.9	1.2	3	23	1958	1978	1956	1978	0.96
46	48	0.00023	0.022	15.3	0.9	1	23	1984	2006	1984	2006	0.98
47	48	2.6e-05	0.0025	18.2	2.8	1	23	2012	2034	2012	2034	0.97
48	48	0.0033	0.32	11.6	0.4	1	21	2040	2060	2040	2061	0.94

Sequence Information

Coding Sequence: ATGTTACTAATTATGTCGCCAATTATTGAAACAGATTCTCAAGGAAGGATAATTATAACGGAGAATCCATTAAGTAAAAAGATATTGGAAAAATCTGAGATTGATTCAACGTTTCTTTGCCATTTATGTGGTCAACAATTGACTAATTCAAGACGATTCAAAACTCACTTATTAAGCCATAGTGATCTTAAACCATTTGCCTGCCCAATTTGTAAAGCATCTTTTAAATTCAACAGTCATCTTACACGTCATAGTTTTGTACATAAAGATTATGCTTTCCAGTGCGATTTTtgcgaaaaaaaatataaaacgaaatacCTTCTGTATGAACACAAGAAATCACATTCAAACAATCACGCATTCAATTGTGATTTGTGTAATAAAggttttattagaaaatatgaCTATGAGGTGCATATGGACTTAAAACATGCGGAAAAAAAAAGATTCGTTTGTCCAATTTGTAACCGTGCTTTAGCTAGCAAAAGCTCCTTAGAATATCACACAAAAACACATGATTGGAATTTCAAAGAAACAGTTTCGGATTATAAATGTGAACAATGCAATAAgtgTAATAATGTAACCAGCCTAAAAGATTTTTCTTGTGAAGATTGTGGCAAAAAACTAAACACACATCTTAAATTGGCCCTGCATTCCATTGAACATTCAGTAGCAGAATCGTATTTATgtcatttttgtaaatataaaacaaaatgtgaTGAAAAACTCCGTAAACATATGTTTCAAAAGCATTGCAAAtccaaaaattataaatgtacaatGTGCGACTTGAAATTTTGTGAACAACGTATTGCAGAAGAACACATTAATGTTCATACTGGCCAAACACCATTTCAATGTAGTTTATGTTCAAAAAAGTACCCCTTTACTTGGTTATATACAATTCATCAGCAAACAGTACACGGTTACAATAACGACAAATTAAAAGTACCAATAAAATTAGAGTGCAAATTGTGTGATAAAACATTCAATTCAGATGCTGCAAGACGAAAACATAATGCGCGTACTCATAATAGAAGCAAAGTACCAATATTGTGTGATATATGTGGAAAAAGTTTAGCTTCCACAGAAACGTTGGATGAAGCACTTTTAAAAAACCTGCTATCATCGTTGCTACCTGATAATAAACTGacaaatatttcaaatcaaaATGGTGCTCAATCACtaaagaaaataagaaaaaggcCAAAGAAGCGGAACAGGATGCTTTCGAAGAATCctattgatttaaatgaacCAATTCATTGTGATGTTTGTAAAGAAACGTATAAAAATAACGTTGCCTTTGGTTTACATTCAATAGAACATAGTACAGATGATCGTTATGCGTGCCATTTATGTGACTATCGGAACGCTTCCAAgtcattaaacgaaattaattcatcaaaaaaaaattatgaatcaaAAAATGATAAACTTTCACCTCAAATACCAAGCGGCTCATTCAAATGtgatatttgcaaaaaaatttttaataatcatattGCAGCATTATTATCACATCGGCGCGAAGCTCATTTTGGAATTGTAAGTGGCCaagaaatgaaatattattattgtagaatATGCCAACAACAATGTCTTACATTTAATGCATTAAAAATACATGAAAGATCtcatgtaattaataaaagtgtATTATGTGATGTATGTGGAAAAGTATTATCCAACAAAGAATcGTATTTAAGAAATGTATGGGAATGTACATCCACAAATCAGAAGAACAATAAAAGGAGAGATACAAAATCTTTGGAACGAGTAACACCAGAATTGGATGAGCCTTTAATCAAAAAAGAATGTGATGTGTGCAATACagtatttaaaacaaacactaCTTACGCTTTGCATTCAATCAAACATCGAAATGACAAAAAATACTCCTGccatttatgtaaatttcttaataaatcaAAGTCTCGACTTTTGACTCACATCAGACAACATGAAAATGAGGCAATTAATAATAAGTGTGAAGTTTGTGGTAAAACTTTTGCTGCGACTTCATATGCAAtagaacataaaaattatcacaTGTCAGGGGAAAAACCATTCCAATGCGAaatttgtggaaaaaattttatatattcaagtCGATTATCATCGCATAGACGTACTGTACATTGGGAATTATTAACTGGTAAACCgataaaacaagaaattaaaaaagaaatcaaatCACCACCTAGGAGGAAACCACGAAAAACGAAacctaaaaaattaaaacgtgACGTACCAAAATCCGAGCCCTTACCCGATTTAGATGAACCAATTCAGTGTGATTTATGCGATGAAACATTTAGAAATATTGTTGCTTTGTCATTGCATTCCCTACAGCACAGTGATGATGGAAAATATTGGTGTCATTTATGCAATTATCGTAACAAATCAAAATTCAGAATAGAAATGCACGTTAGATTACATGAAGGCACAACGAAATACAAATGTGAAGAGTGCGGCAAAGCATTTTTATCCAGTATAGATGCCattgaacataaaaatttccatactggcgaaaaaccgtTCCAATGTGAAATTTGTGGTAAACATTATATGTTTTCACGTTTATTAACATCTCATCGACAGTGTCAACATTCAAATATATTGAAAGGTTGGGCAGAAGACAAATATGATTGTAAAATTTGTGGTAAACATTATACTTCGTTTACTGGAATACGATTGCATAAAATACGTAAACACAGTGCACAACCGATAGATACTAGTGTATTgGTTCTTTTAAAGTCAGAAATTAAATCAGAAGATGATTTAATCGTCTCAAAACCACGAAAGCTCAGAAGAGGTCGTAAAGCGAaaccaaaattgaaaataagaaatacGAGAGCACGAGCCGAGCCAGTACAATTAGCCGATTTAGATGAACCAATTCAATGTGATATATGTAacgaaacatttaaaaataacgttGCTTTCACATTACATTCTATACGGCACAGCGATGATGGAAAATATTCgTGTTTGCCGGATTTCTTTATGCCAATAGtacaaattaatgaaaaccCCAAAAAGTCttcacaacaaaaaaataatgccactgtacaaaatacaaaaaatcttAAATCAATTGAAAAGATAGCTAAAAAACGTAAACGGGGCCGACCAAAAAAAGATGAGGACAACGTGAAGAAGAGAAAAGCCAAAGAAGAATCTGCAAATGGATGTACAGAACAAGACAATTCCGAAgaattgaataatattaatgaaccaatgaaattaaaatcagTAAAAAAGAATCGTGTCGATGACACAACTACCTATTCTTGTCCAATATGTAAAGATGATGTTAAACGTACAATGAAAGAATTACGAAAACATTATCGCGATGATCACCAAGGCAAACGATTACGTTGGTCGCGTATTTCATCTGAAATGCATCCATGCGATATTTGtggtaaacaatttaaaacttCTGCTAGTTTAAAAGATCACATGGAaacacataataattattttgaatgttCGGATTGTGGAGCCAATTACAAGAAACTCATCGAATACATGATCCACTTACGAACACATTCGTTAGAaggtatttttaattgtttaatgtGTGATTTCATTACAACAGAAATAATCGAGTTTACAAATCATGTCAACAATAATCATGAagatacacataaatattggTGTGATAGTTGTAAAAAAGGCTTTCATATATTGACTTGGTTTCAAGAACATGATAATTTTCATACAGGCCTAAAGCCGTTTAGTTGCAATgaatgtggaaaaaattttctatattcgCGTTATTTGTCTGcccataaaaattatttacacaaagACGATTTAGGTATGGGCccaaattttcatatttgtgTTATATGTAAGAAACAATACCAgcataaaaatagtttaaaactACATATGAACTCACATACGGGTAATTATGCGATTTGTGATGTTTGTGGTAAGATATTGTCtagtaaagaaaaattaaaTTTTGTTCCCAGTtccattcaaattaaattagaagAACCAGACAATCATGAAGAACAAATTGTTATAACTGTAGTTGTCGATTCTGACGATGAAAAATTTGATCCAGACAAACGAATGAAAAACAGTAAATATTCTTGTAATATTTGTGGAGAATTTATAGAGAGATCTCGTATtagttttcatgaaaaattaattcatggtatatttaaatgtaaaatatgtttagcTAACTTTGGGAATGATGCAGATTTACGTTCACATAAACTGGTACAcaatgaaaagaaaacaatagaTATGATAGAAGATAGTAAAAATCAAACGATTAAAAGACGGACATTATGTCGTACACGCTGTTTATGTGATGTTTGTggtaaaatgattttaacaTCACAAATTTTGTCACATTTAAAATCACatggtatttttaaatgtgttttatgtaaacagatttttaaaaatgatgaagAATTACACGAACATCAAAAAGTGGAACAATCTGGCACGTTTCAGTGCATGATTTGCCAAGATATTTTCAATACTTTACAAAGTTTTACATTGCACAATTTCaaacacaataatttatatatttgtccTTTGTGTGAATTTACCACCGAAGTACGACAATCAATAATTTGTCATATAATGAGACATGAGGGAAAATTCAAATGGGTTTgtcaaatttgtaataaagGATTTTTAACAAGGGCTACATTAAGTTTACACGAAGAATTACATCTGGACATAAAAAAGTACACTtgtaaattttgcaataaGAAATTTAGTGTGAAACGTTATTTAACAACGCATATGAAATTGAATCATGCGAAAGAATTGTTTGGAGTTgaagataaatatatttgtgagGTGTGTAACAggaaatttacatttgaaaaaagtttgGTGCGACATTTAAGTGTGATACATAAAATCGGTGATGATCGAACGGTTCCATGTCCGATTTGTAAAAAGCGTATTGCAAATCCGTACAATTTAAAGTTGCATATGCGTGTCCATACTGGTGAAAAGAATTACGTATGCCATTTgatcaaaaaaaagaaatcgaGTACTCTTAGGGCACTAAGAAAACGTCGTAGAACTGATGATGATAATGATTATTTACCACcaagttatataaaaatggacCCACCAAcagaaacaacaaaattgaaaaaggaaaacgtccatttcaataacaaaaaacGTTCTTAcgataaaaacaaattgtggcCGTGTAAAAAGTGCGATGAAATTTTACCAACGAAACGTACATTACAAAAACATAGGATTCTGCATAAACCAAAAGAAGTGGAtgaatgtacatataaatatgatGAAATGCAAGAATTGTACATATGTAATGTTTGTTCAGCTGAATTTCAATcagaaaatgaaattcaagTGCATGTTAAACAACATGAAcagaatttttattgtagtGTATGTAATAAACCATTTAAAGATCCATACGCATTTTCAACGCACAAGACTGAACATGGTATTGAATGTTTTGAATGTCCATTGtgtacatttaaaacaaaacgacGGACTAGtttaaaaatacacataaataatgtacattttcATCAATATCAATATAATTGTGAAACTTGTAGAAGAccttttaataatgttgtattATACAAAGAACATTTAAATGGTCATTTAGGTGTTACGCCATTCACGTGCATTGTTTGTTCAAAAACTTTTATGCATTCCTCTTACATGTTAGCACATCAAGAACGCATGCATCGTGTTGGAATTGAGGGGCAATTATTGCCAACTCAGTGTTATATTTGTCAGAAAGTATTAAAATCTGCAAATTCTTTAGAAAACCACATTACTATAAAACATGCCAAAAAAGAAAGTAGGAATGAAATTAAAGAACGTCCACATTTATGTGATGTTTGTGGACAAGGCTTTACGCGACcagataaattaaaaatacattataggAAGCATACGGGTGATAAACCGTATAAATGTTCGTACTGTGAGAAAGCATTCATCAAAAAAGAGTATATGGTAATGCATGAACGAAttcatactggtgaaaaacccTACTGTTGTGGTGTTTGTGGAAAGTGCTTCAATCAGGACGCTTCTCTTCGATTGCATATGAGAGGACATACTGGCGAAAGACCTTTTGCATGCCCACATTGTAATACTGGGTGTATTTCTAGTGGggcattaaaattacatataaaaagttGTATACAATCTTTGTAA
Protein Sequence: MLLIMSPIIETDSQGRIIITENPLSKKILEKSEIDSTFLCHLCGQQLTNSRRFKTHLLSHSDLKPFACPICKASFKFNSHLTRHSFVHKDYAFQCDFCEKKYKTKYLLYEHKKSHSNNHAFNCDLCNKGFIRKYDYEVHMDLKHAEKKRFVCPICNRALASKSSLEYHTKTHDWNFKETVSDYKCEQCNKCNNVTSLKDFSCEDCGKKLNTHLKLALHSIEHSVAESYLCHFCKYKTKCDEKLRKHMFQKHCKSKNYKCTMCDLKFCEQRIAEEHINVHTGQTPFQCSLCSKKYPFTWLYTIHQQTVHGYNNDKLKVPIKLECKLCDKTFNSDAARRKHNARTHNRSKVPILCDICGKSLASTETLDEALLKNLLSSLLPDNKLTNISNQNGAQSLKKIRKRPKKRNRMLSKNPIDLNEPIHCDVCKETYKNNVAFGLHSIEHSTDDRYACHLCDYRNASKSLNEINSSKKNYESKNDKLSPQIPSGSFKCDICKKIFNNHIAALLSHRREAHFGIVSGQEMKYYYCRICQQQCLTFNALKIHERSHVINKSVLCDVCGKVLSNKESYLRNVWECTSTNQKNNKRRDTKSLERVTPELDEPLIKKECDVCNTVFKTNTTYALHSIKHRNDKKYSCHLCKFLNKSKSRLLTHIRQHENEAINNKCEVCGKTFAATSYAIEHKNYHMSGEKPFQCEICGKNFIYSSRLSSHRRTVHWELLTGKPIKQEIKKEIKSPPRRKPRKTKPKKLKRDVPKSEPLPDLDEPIQCDLCDETFRNIVALSLHSLQHSDDGKYWCHLCNYRNKSKFRIEMHVRLHEGTTKYKCEECGKAFLSSIDAIEHKNFHTGEKPFQCEICGKHYMFSRLLTSHRQCQHSNILKGWAEDKYDCKICGKHYTSFTGIRLHKIRKHSAQPIDTSVLVLLKSEIKSEDDLIVSKPRKLRRGRKAKPKLKIRNTRARAEPVQLADLDEPIQCDICNETFKNNVAFTLHSIRHSDDGKYSCLPDFFMPIVQINENPKKSSQQKNNATVQNTKNLKSIEKIAKKRKRGRPKKDEDNVKKRKAKEESANGCTEQDNSEELNNINEPMKLKSVKKNRVDDTTTYSCPICKDDVKRTMKELRKHYRDDHQGKRLRWSRISSEMHPCDICGKQFKTSASLKDHMETHNNYFECSDCGANYKKLIEYMIHLRTHSLEGIFNCLMCDFITTEIIEFTNHVNNNHEDTHKYWCDSCKKGFHILTWFQEHDNFHTGLKPFSCNECGKNFLYSRYLSAHKNYLHKDDLGMGPNFHICVICKKQYQHKNSLKLHMNSHTGNYAICDVCGKILSSKEKLNFVPSSIQIKLEEPDNHEEQIVITVVVDSDDEKFDPDKRMKNSKYSCNICGEFIERSRISFHEKLIHGIFKCKICLANFGNDADLRSHKLVHNEKKTIDMIEDSKNQTIKRRTLCRTRCLCDVCGKMILTSQILSHLKSHGIFKCVLCKQIFKNDEELHEHQKVEQSGTFQCMICQDIFNTLQSFTLHNFKHNNLYICPLCEFTTEVRQSIICHIMRHEGKFKWVCQICNKGFLTRATLSLHEELHLDIKKYTCKFCNKKFSVKRYLTTHMKLNHAKELFGVEDKYICEVCNRKFTFEKSLVRHLSVIHKIGDDRTVPCPICKKRIANPYNLKLHMRVHTGEKNYVCHLIKKKKSSTLRALRKRRRTDDDNDYLPPSYIKMDPPTETTKLKKENVHFNNKKRSYDKNKLWPCKKCDEILPTKRTLQKHRILHKPKEVDECTYKYDEMQELYICNVCSAEFQSENEIQVHVKQHEQNFYCSVCNKPFKDPYAFSTHKTEHGIECFECPLCTFKTKRRTSLKIHINNVHFHQYQYNCETCRRPFNNVVLYKEHLNGHLGVTPFTCIVCSKTFMHSSYMLAHQERMHRVGIEGQLLPTQCYICQKVLKSANSLENHITIKHAKKESRNEIKERPHLCDVCGQGFTRPDKLKIHYRKHTGDKPYKCSYCEKAFIKKEYMVMHERIHTGEKPYCCGVCGKCFNQDASLRLHMRGHTGERPFACPHCNTGCISSGALKLHIKSCIQSL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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