Basic Information

Insect: Orchestes rusci
Gene Symbol: ZFY
Assembly: GCA_958502075.1
Location: OY293311.1:29634243-29645455[-]

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 58 0.23 38 6.6 0.4 6 23 2 20 1 20 0.94

2 58 0.068 11 8.3 0.6 1 23 28 51 28 51 0.96

3 58 0.02 3.2 10.0 1.4 3 23 90 112 88 112 0.92

4 58 2.3e-05 0.0037 19.2 1.9 2 23 120 141 119 141 0.97

5 58 0.0021 0.34 13.1 0.6 1 23 148 170 148 170 0.97

6 58 2.5e-05 0.004 19.1 0.8 1 23 176 198 176 198 0.97

7 58 0.55 88 5.4 2.8 5 21 211 227 208 228 0.90

8 58 0.0029 0.46 12.6 2.8 1 23 274 297 274 297 0.97

9 58 0.0052 0.84 11.8 0.7 1 23 306 329 306 329 0.97

10 58 0.0009 0.14 14.2 0.4 1 23 335 358 335 358 0.96

11 58 0.28 45 6.4 1.8 3 23 368 390 366 390 0.90

12 58 2.5e-05 0.0041 19.1 1.8 2 23 398 419 397 419 0.97

13 58 7.6e-05 0.012 17.6 0.8 1 23 426 448 426 448 0.98

14 58 0.00044 0.072 15.2 0.3 1 23 454 476 454 476 0.96

15 58 0.0028 0.45 12.7 0.2 1 20 482 501 482 503 0.93

16 58 3.6 5.8e+02 2.9 0.2 5 15 503 513 502 513 0.91

17 58 2.3e-05 0.0037 19.2 1.3 2 23 519 541 518 541 0.96

18 58 0.0001 0.017 17.2 3.3 1 23 547 569 547 569 0.97

19 58 0.0064 1 11.5 0.4 1 20 573 592 573 594 0.94

20 58 0.78 1.3e+02 5.0 3.9 2 23 603 623 602 624 0.94

21 58 0.00015 0.025 16.6 5.6 1 23 629 651 629 651 0.98

22 58 0.19 30 6.9 0.3 1 23 657 680 657 680 0.94

23 58 9.8e-05 0.016 17.2 0.1 3 23 688 709 687 709 0.95

24 58 0.0028 0.44 12.7 0.2 3 23 717 739 715 739 0.90

25 58 0.043 7 8.9 2.4 1 23 746 769 746 769 0.96

26 58 0.00068 0.11 14.6 0.7 1 23 776 798 776 798 0.98

27 58 0.00074 0.12 14.5 2.3 1 23 804 826 804 826 0.97

28 58 0.00053 0.086 14.9 1.0 1 23 832 855 832 855 0.96

29 58 4.6e-05 0.0074 18.3 0.5 1 23 862 885 862 885 0.97

30 58 1.8e-05 0.0028 19.6 0.9 1 23 891 914 891 914 0.97

31 58 4.6e-05 0.0075 18.3 1.6 1 23 922 944 922 944 0.99

32 58 0.00056 0.09 14.9 1.2 1 20 952 971 952 973 0.94

33 58 0.41 66 5.8 1.1 2 23 982 1003 981 1003 0.91

34 58 7.7e-06 0.0012 20.7 0.8 1 23 1008 1030 1008 1030 0.98

35 58 0.42 68 5.8 0.1 2 23 1037 1059 1036 1059 0.87

36 58 0.004 0.65 12.2 0.9 3 23 1067 1088 1066 1088 0.95

37 58 0.0042 0.67 12.1 0.1 3 20 1100 1119 1099 1122 0.91

38 58 0.039 6.2 9.1 4.8 1 23 1129 1152 1129 1152 0.97

39 58 4.3e-05 0.0069 18.4 1.0 1 23 1160 1182 1160 1182 0.98

40 58 0.015 2.5 10.3 3.1 1 23 1188 1210 1188 1210 0.96

41 58 0.00099 0.16 14.1 0.8 1 23 1216 1239 1216 1239 0.92

42 58 7.2e-06 0.0012 20.8 1.5 1 23 1309 1332 1309 1332 0.96

43 58 0.0019 0.31 13.2 0.1 1 23 1338 1361 1338 1361 0.95

44 58 0.0023 0.37 12.9 3.3 1 23 1367 1390 1367 1390 0.95

45 58 0.087 14 8.0 0.2 1 19 1399 1419 1399 1423 0.89

46 58 0.00023 0.037 16.1 4.1 1 23 1430 1452 1430 1453 0.95

47 58 7e-05 0.011 17.7 2.3 1 23 1460 1482 1460 1482 0.99

48 58 3.5e-06 0.00056 21.8 3.4 1 23 1488 1510 1488 1510 0.96

49 58 8.6e-05 0.014 17.4 0.7 1 23 1516 1539 1516 1539 0.92

50 58 6.7e-05 0.011 17.8 0.8 1 23 1558 1581 1558 1581 0.95

51 58 0.91 1.5e+02 4.7 4.5 2 23 1588 1610 1585 1611 0.90

52 58 0.0042 0.67 12.1 0.4 2 23 1623 1645 1622 1645 0.89

53 58 0.5 81 5.6 4.4 1 19 1651 1669 1651 1674 0.88

54 58 3.8e-05 0.0061 18.5 0.9 3 23 1682 1702 1680 1702 0.96

55 58 0.00043 0.07 15.2 2.8 1 23 1708 1730 1708 1730 0.97

56 58 1.9e-06 0.00031 22.6 0.4 1 23 1737 1759 1737 1759 0.99

57 58 1.5e-05 0.0024 19.8 1.0 1 23 1765 1787 1765 1787 0.97

58 58 0.0064 1 11.5 7.0 1 23 1793 1816 1793 1816 0.91

#	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	58	0.23	38	6.6	0.4	6	23	2	20	1	20	0.94
2	58	0.068	11	8.3	0.6	1	23	28	51	28	51	0.96
3	58	0.02	3.2	10.0	1.4	3	23	90	112	88	112	0.92
4	58	2.3e-05	0.0037	19.2	1.9	2	23	120	141	119	141	0.97
5	58	0.0021	0.34	13.1	0.6	1	23	148	170	148	170	0.97
6	58	2.5e-05	0.004	19.1	0.8	1	23	176	198	176	198	0.97
7	58	0.55	88	5.4	2.8	5	21	211	227	208	228	0.90
8	58	0.0029	0.46	12.6	2.8	1	23	274	297	274	297	0.97
9	58	0.0052	0.84	11.8	0.7	1	23	306	329	306	329	0.97
10	58	0.0009	0.14	14.2	0.4	1	23	335	358	335	358	0.96
11	58	0.28	45	6.4	1.8	3	23	368	390	366	390	0.90
12	58	2.5e-05	0.0041	19.1	1.8	2	23	398	419	397	419	0.97
13	58	7.6e-05	0.012	17.6	0.8	1	23	426	448	426	448	0.98
14	58	0.00044	0.072	15.2	0.3	1	23	454	476	454	476	0.96
15	58	0.0028	0.45	12.7	0.2	1	20	482	501	482	503	0.93
16	58	3.6	5.8e+02	2.9	0.2	5	15	503	513	502	513	0.91
17	58	2.3e-05	0.0037	19.2	1.3	2	23	519	541	518	541	0.96
18	58	0.0001	0.017	17.2	3.3	1	23	547	569	547	569	0.97
19	58	0.0064	1	11.5	0.4	1	20	573	592	573	594	0.94
20	58	0.78	1.3e+02	5.0	3.9	2	23	603	623	602	624	0.94
21	58	0.00015	0.025	16.6	5.6	1	23	629	651	629	651	0.98
22	58	0.19	30	6.9	0.3	1	23	657	680	657	680	0.94
23	58	9.8e-05	0.016	17.2	0.1	3	23	688	709	687	709	0.95
24	58	0.0028	0.44	12.7	0.2	3	23	717	739	715	739	0.90
25	58	0.043	7	8.9	2.4	1	23	746	769	746	769	0.96
26	58	0.00068	0.11	14.6	0.7	1	23	776	798	776	798	0.98
27	58	0.00074	0.12	14.5	2.3	1	23	804	826	804	826	0.97
28	58	0.00053	0.086	14.9	1.0	1	23	832	855	832	855	0.96
29	58	4.6e-05	0.0074	18.3	0.5	1	23	862	885	862	885	0.97
30	58	1.8e-05	0.0028	19.6	0.9	1	23	891	914	891	914	0.97
31	58	4.6e-05	0.0075	18.3	1.6	1	23	922	944	922	944	0.99
32	58	0.00056	0.09	14.9	1.2	1	20	952	971	952	973	0.94
33	58	0.41	66	5.8	1.1	2	23	982	1003	981	1003	0.91
34	58	7.7e-06	0.0012	20.7	0.8	1	23	1008	1030	1008	1030	0.98
35	58	0.42	68	5.8	0.1	2	23	1037	1059	1036	1059	0.87
36	58	0.004	0.65	12.2	0.9	3	23	1067	1088	1066	1088	0.95
37	58	0.0042	0.67	12.1	0.1	3	20	1100	1119	1099	1122	0.91
38	58	0.039	6.2	9.1	4.8	1	23	1129	1152	1129	1152	0.97
39	58	4.3e-05	0.0069	18.4	1.0	1	23	1160	1182	1160	1182	0.98
40	58	0.015	2.5	10.3	3.1	1	23	1188	1210	1188	1210	0.96
41	58	0.00099	0.16	14.1	0.8	1	23	1216	1239	1216	1239	0.92
42	58	7.2e-06	0.0012	20.8	1.5	1	23	1309	1332	1309	1332	0.96
43	58	0.0019	0.31	13.2	0.1	1	23	1338	1361	1338	1361	0.95
44	58	0.0023	0.37	12.9	3.3	1	23	1367	1390	1367	1390	0.95
45	58	0.087	14	8.0	0.2	1	19	1399	1419	1399	1423	0.89
46	58	0.00023	0.037	16.1	4.1	1	23	1430	1452	1430	1453	0.95
47	58	7e-05	0.011	17.7	2.3	1	23	1460	1482	1460	1482	0.99
48	58	3.5e-06	0.00056	21.8	3.4	1	23	1488	1510	1488	1510	0.96
49	58	8.6e-05	0.014	17.4	0.7	1	23	1516	1539	1516	1539	0.92
50	58	6.7e-05	0.011	17.8	0.8	1	23	1558	1581	1558	1581	0.95
51	58	0.91	1.5e+02	4.7	4.5	2	23	1588	1610	1585	1611	0.90
52	58	0.0042	0.67	12.1	0.4	2	23	1623	1645	1622	1645	0.89
53	58	0.5	81	5.6	4.4	1	19	1651	1669	1651	1674	0.88
54	58	3.8e-05	0.0061	18.5	0.9	3	23	1682	1702	1680	1702	0.96
55	58	0.00043	0.07	15.2	2.8	1	23	1708	1730	1708	1730	0.97
56	58	1.9e-06	0.00031	22.6	0.4	1	23	1737	1759	1737	1759	0.99
57	58	1.5e-05	0.0024	19.8	1.0	1	23	1765	1787	1765	1787	0.97
58	58	0.0064	1	11.5	7.0	1	23	1793	1816	1793	1816	0.91

Sequence Information

Coding Sequence: ATGTGCTCCAGAAGTTATACCAGACAAGAGACCCTGGATTACCACATCAAACTCAAGCATACAAATGTTGAACGAGTCAGATACCCTTGCGACCTGTGCGGGAAACTTTTCCTAAAAAAGTCTTACGTGACGGTGCATGTGCagcgttttcatgaaaaaaagtttaatgtTTCTTGTTATAAGTGCAGTCAAGGGTTTTTGTTTATGTGGGAGTTGAACAATCATCTCAAGTTTGTGCATGATCGGAAAGATACTCCTTTGATTCCATGCACGTATTCTGGTTGCAAGAAAGTATTCAAACACACCAATGCCTTGCAGTACCATCTATACAACCACAAAAAGGACAAGACCACTGTGGAGTGTGATCAGTGTGGTAAAATTTTCAGCCATCCAACGTTGTACAAAAAACACCTCAAGAAGCATACAGGGAAAATGAAGGTTTATGCTTGTCAGATATGTGATAGAACTTTGAGTTCTAAACAGAGTTTTGATGATCATTTGAGGTTGCACAGTGGAGAGAAGCCCTTCGTTTGTGAGCATTGTGGCAGAGGGTTTAGGACAAAGGTTTTCCTCAAAGCCCATCTGGTGGTTCATACCAAGGAGAAGAAGCATGTTTCCACACACAAGTGCCACTGCAGCAAACCATTCCCCACCAAACGTGCCTTGGAACACCACAAGCTCACCTGCAAAAAAGTCCAATGCTACGTGTGCCTGGAAATCCTTGAATCCACAAAAATACGCAACCACTTGTACTTCCACAACCTCAAAGTGAAAATAGAAAACCAACTGACCAAGCCTGCCAAACGACCATGCAGGGTATTCACCTGCGACGTGTGTTCCAGAAGTTATTCCAGAAAAGATGCCCTTAATTGTCACATCATGCGCAAACATGCTGATCAAAGTGAAAGGGACAGGTACCCTTGTGACATGTGCGGCAAGCTTTTCCTCAATAAGTCCCACGTGACGGTGCATGTGCAGCGAATTCATAAAAAGGAGTTCAATTTTTCCTGCGACAAGTGCGGCAAAGGGTTTATGTTTATTGGAGAGTTGAACAAGCATGTCAAGTATGTGCATGAGAAGCAGGATACTCCTTTGATTCCATGCACGTACTCCAGttgcaaaaaagtttttaaaaccACCAATGCGTTGTACTACCATCTGCATAATCACAAAGAGGACAAGCCTACTATGGTGTGTGATCAATGCGGCAAGGTCTTCAACCATCCAACGTTGTACAAGAAGCACCTCAATAAGCATACGGGAAAGTTGAAGGTTTATGTTTGTCAAATGTGTGATAAAACTGTGAACTCTAAACAGAGTTTTGAGGATCATATGAGGTTGCATAGTGGAGAGAGGCCCTACATTTGTGAGCACTGTGGCAAAGGGTTTAGGACAAGGGTTATCCTCAAAGCCCACCTGGTGGTTCATACCAAGGAGAAGAAGCATGTTTGTAAGTTTTGTGCGAAGGCGTTTACACAGAGGAGTCCACTTAAGGCACATGTTCTTAACTGCAACAAAACCTTTGTCAGGAAATCAAATCACACACAAAGGTTAAAATGTCCACAATGCCCCTCTACTTTCTCCACCAACAGCTCCTACAAACGTCATCTAAAGCGAGCTCATCAACCCACGACCCCTCACCAATGTCCCATCTGCAACAAAAGCTTCAAACTACAGCAGTACCTCCAAACCCATGAGAAGCAGCACAATCCCTATTTCAACTGCTCCATCTGTCAAAAAGAGTATCGATCCCGCAAAGGCCTTCTCAAGCACGAACTCCAGTGCAAAGGTCTTACTTTCCAAGTAAAATGTGACCGATGTGACCGGAGTGTGGACAGCTCCAAAATGTACGACCACATGCGACATCACCACTCTGACAAGCGCTACGAGTGCCACATTTGCCACAAGAAGTTCAGGAATAATTGGTATATAAAGAAGCACCTGCAGATCCACGCTGGCAGTCTACGATATCCCTGCGACATCTGCGGCGTTATCTGCGCCTCCAAAACCAACGCTGatttgcacaaaaaaatcaGACACCTCAAAGAGTACTCGGCCTTTTGCGAAATTTGCGGCAAGGGTTTTGTCAATAATAACCAACTTAACTTGCACCTCAAAGCGGCACATCGTCCTCCCTGTATCATAGCTTGTCCTGTGGAAGGCTGCGGTAAGACCTACAAATCGGGCAGCTCGTTGAAGCACCACCTTCCTACTCATATGGAAGAGAAACCCACATTCCCTTGTCCTAGTTGTAGCAAAGTCTTCTTGCACCCCATATCTTTGCGGCATCACGTCAAAAACTTTCACTCTAAAGTGCGGGGAGTTCACCAATGTCAAATTTGTGCCAGAGAACTGTCTACTGCCAACACTTTGAAGGAACACATGCGCATCCATACTGGTGAACGGCCCTTTGAGTGTGCTTTATGTGATAAAACCTTCAACAAAAAGTGCCTTTTAAAGCTGCACCAGGTGGTGCACACCAAGGAACGGCCCTATGTGTGTCGCGTATGTTCCAAAGGGTTCACCCAGTATGGTTCTTTGAAAAACCACTTTCTTAAGGGACATCCTGGGGAAAGcaaaaacttCATGTGCAACTACTGCGCACGACCCTTCAGCAGAAAAAGAAACCTAGATGCGCACATAGCGACCAAACACACTAAAGAGTATCGTTTCACGTGTCCCCAATGCGGCATGGGGTTCTACTCCAACTTCTCCCTCAAGCGCCATCGCAAGGTGGTCCACGACCACGCCAAGAAGTACCCCTACGAATGCCAAGTGTGTCAGAAAGGGTTCAAGCTGCAAACGTACCTCAACTCACACATGCAGAGGCACCAGCCGGAAAGCCTCACCAAATACCGGTGTTCCAATTGTGATAAAGTCTACGCTCATAGAGTGAGCTTGTGGAGGCATGAGAACCACTGCAAAGGTCTGACCACTATGGTCAAATGCCATCTTTGCGACAAGGTTGTTGATAGTTCCAAAATGTACTATCACACAAGACTAGCTCATGGGGAGAGGAAGTACGAGTGTGATATTTGCCAGAAGAAGTTCAAAGAAAACTGGTATCTTCAAAAGCACATCCTCATGCACAAAGGATTGTTAAAGTGGCCTTGCGATGTGTGTGGGCAAATTTTTGCCTCACGCACTACAGCCGATGTCCACAAAAAGGCCAAACATTCCAAGGAGTTTTCGGCCTTTTGTGAAGTATGCGGCAAAGGTTTTGTGAACTGGAATCAGTTGAACTGTCACGTGAAGAGGGCCCATAGGCCCTCAGACGAGCCTCCTCCATCCATTTTATGTCCTGTCGCCGGCTGTGGTAAAACCTATCGATCTAATGCGTCCCTCAAACTACACCTACCAAGCCATCTTGACCATAAGCCTATATATCCATGCAGCCACTGCGACAAAATAAtgcatcaccctgtatctctcaagAGGCACCTGAAGAACAACCATGGTGATGGGCCTAAAAAGATCCATCGGTGTCATATATGTCAAAAGGTGTTGTCAGGGGCCGCAAATTTGAGAGACCACATCCGGATCCATACAGGTGAGAAGCCCTTTCGATGTGACAGTTGCTGCAAGTCGTTTACAACAAGGGACCTGCTGCGCATTCACCGCGTGGTCCATACGAAGGAACGGCCGTATGTTTGCAGAATCTGCAGCAAAGGCTTCACCCAGTACGGCTCCTTAAAGTCCCACTTTGTCAAGGGACATCCTGAACATCAATGGCAGGGAGTGGCCAAGATTGTCTCCAAGTTCCAATGCTCCAACTGCCCTCTTCTGTTATCCTGCAAGAGGACTTTGAAAAACCACGAGATACGATGCAAAGGACTGAGTGTACCGGTCAAATGTGAGATTTGTAGGGATTGGGTGGACAGTCTCAAGTTGTACAACCACATGCGGTCCCATAGAGACCGCCTGTTCAAGTGCTACGTTTGTGGCAAGGCCTTCAGAGACCATTGGTACTTGAAGAGGCACATCACTGTGGTGCATGATAAGGCACAGTGTTACCCTTGCGACATCTGTGGGCAGATGTACACTACTAAGGCCACAGCGGAGATCCACAAGAGGGCAGTTCATACGAAGGACCACACGCACTTTTGCGAAGTGTGCGGTCAGGGTTTTGTCAATTTGCACTTGTTGAAGATTCATAAGAGGAGGAAGCATTCCGTTGAGGGGGTCACGGCCAACTACCCTTGTCCGGTGGAGGGTTGTGAGAAGACTTATCGATCGCAAGGGTCTCTTAACTTCCATCTGCCCAAGCATGATCAGCGCAAGCCCACGTACCCTTGTCCCAGTTGTTCTAAGGTTTTTACCCATCCTATATCGCTGAAGCATCACGTTAAGTTGCACCATAACCATGATCCCGCCTTTTATAAGTGCCATCTATGTGATAAGGAGCTAATGTCGTCCAGTAGTCTTAAGGAGCACGTGCGCACGCACACAGGGGAAAAACCATTTGATTGTAATGTGTGTCACAAGTCGTTTAGCAGAAAGAAGTCCCTGAGACAACACATGGTGGTGCACACCAAGGAGCGACCATATGTTTGTAAGGTTTGCACGCGGGGGTTCTCCCAGCAAAGTTCCTTGAAGATACATTTCGTGAAGATCCATCCAGAGGTGCCGTGGGTTGTCAGGAACAATGCCTTGTTGCGTTGCAAGAAGCGGTACCAGTGCGAACACTGCGGCAACTCCTTCACCAGCAAAGTATTTCTTAAGGAGCACATTGTGGTGGTGCACACGCACGAGTACAGATGCGTTTGCCAGTACTGCGGCAAGGGGTTTTACATGGAGAGCCGCAGACGTACCCACGAAAATAAAGTACACCACAAGACTGCGCATCCGCGTGTTGAATCGCACTGGACTTGCGACGAGTGCGGCAGGGTGCTTGCCAATAAGTACTCGTTTAAGCAGCACAAGTTTTTGGCGCATGCCCGGGAAATCAAGCACTGCTGTGATAAATGTGGCAAGGGGTTCCCTCTTTTGGGGTATCTGACGCAGCACTGTCTGGTTAACCATGCCGAACAAGCGCGTATAGCTTGTGACGTGTGTAGtaaacaattcaaaacaaaggaCTCTTTGAAGAGGCACAAGTTGATTCATGACACTAATAGAGAGTACTTTTGTGAGTACTGCCCCAAGAAGTTTATTCATGTTGTGTCATATCGACGCCATCTAAGGGAGCACAAAAACGGCAAACGGACGTTTGAGTGTGACGTTTGCAAAAAAGTGGTGTCCAGCAGGGATAGTCTGCAGGATCATATGCGGACTCATACAGGGGAGAAGCCCTATTCATGTCCAATTTGTCATAAGACTTTTATTTCGAATAAGCAAATGAAAATACACATTGTGGTGCATACCAAGGAAAGAAAGCACGTTTGTAAGGCATGCGATAAGAAGTTCACCCAGCGaagtactttgaaaaaacattttgttaaatGTCATCCGGGACAAGAACTATGA
Protein Sequence: MCSRSYTRQETLDYHIKLKHTNVERVRYPCDLCGKLFLKKSYVTVHVQRFHEKKFNVSCYKCSQGFLFMWELNNHLKFVHDRKDTPLIPCTYSGCKKVFKHTNALQYHLYNHKKDKTTVECDQCGKIFSHPTLYKKHLKKHTGKMKVYACQICDRTLSSKQSFDDHLRLHSGEKPFVCEHCGRGFRTKVFLKAHLVVHTKEKKHVSTHKCHCSKPFPTKRALEHHKLTCKKVQCYVCLEILESTKIRNHLYFHNLKVKIENQLTKPAKRPCRVFTCDVCSRSYSRKDALNCHIMRKHADQSERDRYPCDMCGKLFLNKSHVTVHVQRIHKKEFNFSCDKCGKGFMFIGELNKHVKYVHEKQDTPLIPCTYSSCKKVFKTTNALYYHLHNHKEDKPTMVCDQCGKVFNHPTLYKKHLNKHTGKLKVYVCQMCDKTVNSKQSFEDHMRLHSGERPYICEHCGKGFRTRVILKAHLVVHTKEKKHVCKFCAKAFTQRSPLKAHVLNCNKTFVRKSNHTQRLKCPQCPSTFSTNSSYKRHLKRAHQPTTPHQCPICNKSFKLQQYLQTHEKQHNPYFNCSICQKEYRSRKGLLKHELQCKGLTFQVKCDRCDRSVDSSKMYDHMRHHHSDKRYECHICHKKFRNNWYIKKHLQIHAGSLRYPCDICGVICASKTNADLHKKIRHLKEYSAFCEICGKGFVNNNQLNLHLKAAHRPPCIIACPVEGCGKTYKSGSSLKHHLPTHMEEKPTFPCPSCSKVFLHPISLRHHVKNFHSKVRGVHQCQICARELSTANTLKEHMRIHTGERPFECALCDKTFNKKCLLKLHQVVHTKERPYVCRVCSKGFTQYGSLKNHFLKGHPGESKNFMCNYCARPFSRKRNLDAHIATKHTKEYRFTCPQCGMGFYSNFSLKRHRKVVHDHAKKYPYECQVCQKGFKLQTYLNSHMQRHQPESLTKYRCSNCDKVYAHRVSLWRHENHCKGLTTMVKCHLCDKVVDSSKMYYHTRLAHGERKYECDICQKKFKENWYLQKHILMHKGLLKWPCDVCGQIFASRTTADVHKKAKHSKEFSAFCEVCGKGFVNWNQLNCHVKRAHRPSDEPPPSILCPVAGCGKTYRSNASLKLHLPSHLDHKPIYPCSHCDKIMHHPVSLKRHLKNNHGDGPKKIHRCHICQKVLSGAANLRDHIRIHTGEKPFRCDSCCKSFTTRDLLRIHRVVHTKERPYVCRICSKGFTQYGSLKSHFVKGHPEHQWQGVAKIVSKFQCSNCPLLLSCKRTLKNHEIRCKGLSVPVKCEICRDWVDSLKLYNHMRSHRDRLFKCYVCGKAFRDHWYLKRHITVVHDKAQCYPCDICGQMYTTKATAEIHKRAVHTKDHTHFCEVCGQGFVNLHLLKIHKRRKHSVEGVTANYPCPVEGCEKTYRSQGSLNFHLPKHDQRKPTYPCPSCSKVFTHPISLKHHVKLHHNHDPAFYKCHLCDKELMSSSSLKEHVRTHTGEKPFDCNVCHKSFSRKKSLRQHMVVHTKERPYVCKVCTRGFSQQSSLKIHFVKIHPEVPWVVRNNALLRCKKRYQCEHCGNSFTSKVFLKEHIVVVHTHEYRCVCQYCGKGFYMESRRRTHENKVHHKTAHPRVESHWTCDECGRVLANKYSFKQHKFLAHAREIKHCCDKCGKGFPLLGYLTQHCLVNHAEQARIACDVCSKQFKTKDSLKRHKLIHDTNREYFCEYCPKKFIHVVSYRRHLREHKNGKRTFECDVCKKVVSSRDSLQDHMRTHTGEKPYSCPICHKTFISNKQMKIHIVVHTKERKHVCKACDKKFTQRSTLKKHFVKCHPGQEL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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