Basic Information

Insect: Operophtera brumata
Gene Symbol: -
Assembly: GCA_001266575.1
Location: JTDY01002088.1:22511-40909[+]

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 6e-05 0.0038 17.5 0.3 1 23 12 34 12 34 0.98

2 58 0.0096 0.61 10.6 1.6 1 23 39 62 39 62 0.93

3 58 0.17 11 6.6 1.9 2 23 70 92 69 92 0.90

4 58 0.00042 0.027 14.9 3.4 2 23 100 122 99 122 0.95

5 58 1.4e-06 8.7e-05 22.7 1.2 1 23 128 150 128 150 0.99

6 58 0.0037 0.24 11.9 0.2 1 19 156 174 156 175 0.96

7 58 0.00036 0.023 15.1 1.2 1 23 226 249 226 249 0.93

8 58 0.27 17 6.0 0.1 1 23 345 368 345 368 0.95

9 58 0.13 8.1 7.0 1.7 2 23 403 425 402 425 0.96

10 58 0.0002 0.013 15.8 0.3 1 23 432 455 432 455 0.96

11 58 0.00039 0.025 15.0 2.5 1 23 461 483 461 483 0.97

12 58 4.4 2.8e+02 2.2 4.4 1 10 489 498 489 499 0.95

13 58 2.1 1.3e+02 3.3 4.3 1 23 606 629 606 629 0.94

14 58 0.74 47 4.6 0.2 1 23 726 749 726 749 0.88

15 58 0.00027 0.017 15.4 1.2 1 23 755 777 755 777 0.98

16 58 0.00014 0.0087 16.4 2.3 1 23 783 806 783 806 0.97

17 58 0.0027 0.17 12.3 0.2 2 23 814 836 813 836 0.96

18 58 0.00021 0.013 15.8 2.6 1 23 842 864 842 864 0.97

19 58 1e-06 6.5e-05 23.1 0.5 2 23 871 892 870 892 0.97

20 58 0.17 11 6.6 1.8 1 21 898 918 898 919 0.96

21 58 0.077 4.9 7.7 1.8 1 23 1144 1167 1144 1167 0.93

22 58 0.082 5.2 7.7 0.1 2 23 1196 1218 1195 1218 0.93

23 58 0.46 29 5.3 0.8 2 23 1241 1262 1240 1262 0.96

24 58 0.0044 0.28 11.6 0.1 1 23 1266 1288 1266 1288 0.95

25 58 0.098 6.2 7.4 3.0 1 23 1293 1316 1293 1316 0.96

26 58 0.16 10 6.7 3.3 1 23 1425 1448 1425 1448 0.93

27 58 0.033 2.1 8.9 0.5 3 23 1476 1497 1476 1497 0.98

28 58 0.059 3.7 8.1 2.7 2 23 1520 1541 1519 1541 0.98

29 58 0.0035 0.22 12.0 0.0 1 23 1545 1568 1545 1568 0.93

30 58 0.12 7.3 7.2 1.6 1 14 1573 1586 1573 1596 0.88

31 58 0.33 21 5.8 3.1 1 23 1746 1769 1746 1769 0.94

32 58 1.1 71 4.1 0.1 2 23 1796 1818 1795 1818 0.94

33 58 0.15 9.3 6.9 4.1 2 23 1841 1862 1840 1862 0.97

34 58 8.6e-05 0.0055 17.0 0.3 1 23 1866 1888 1866 1888 0.97

35 58 0.00035 0.022 15.1 1.3 1 23 1893 1916 1893 1916 0.97

36 58 0.00034 0.022 15.1 3.1 1 23 1922 1945 1922 1945 0.97

37 58 0.00012 0.0074 16.6 1.3 2 23 1953 1975 1952 1975 0.96

38 58 0.014 0.9 10.1 1.7 1 23 1981 2003 1981 2003 0.97

39 58 4.8e-05 0.003 17.8 3.0 1 23 2009 2031 2009 2031 0.99

40 58 0.021 1.3 9.5 4.5 1 21 2037 2057 2037 2058 0.96

41 58 0.049 3.1 8.3 0.1 2 23 2209 2231 2208 2231 0.95

42 58 0.0012 0.075 13.4 4.6 2 23 2254 2275 2253 2275 0.98

43 58 0.011 0.68 10.4 0.0 1 23 2279 2301 2279 2301 0.93

44 58 0.0038 0.24 11.9 4.1 1 23 2306 2329 2306 2329 0.94

45 58 0.13 8 7.1 2.6 1 21 2336 2356 2336 2359 0.80

46 58 0.0019 0.12 12.8 3.4 2 23 2367 2389 2366 2389 0.96

47 58 0.01 0.66 10.5 0.2 1 23 2394 2416 2394 2416 0.97

48 58 0.27 17 6.0 3.2 1 17 2422 2438 2422 2439 0.93

49 58 1.9 1.2e+02 3.3 0.4 1 23 2509 2532 2509 2532 0.92

50 58 0.12 7.7 7.1 1.3 2 23 2559 2581 2558 2581 0.96

51 58 0.016 1 9.9 0.2 2 23 2604 2625 2603 2625 0.96

52 58 0.00016 0.01 16.2 0.0 1 23 2629 2651 2629 2651 0.99

53 58 0.12 7.7 7.1 1.8 1 23 2656 2679 2656 2679 0.93

54 58 1.3 85 3.8 0.3 2 22 2686 2706 2685 2708 0.78

55 58 0.0025 0.16 12.4 3.6 2 23 2716 2738 2716 2738 0.97

56 58 0.0015 0.092 13.2 1.2 1 23 2744 2766 2744 2766 0.97

57 58 5.4e-06 0.00034 20.8 3.1 1 23 2772 2794 2772 2794 0.99

58 58 0.00025 0.016 15.5 6.0 1 23 2800 2823 2800 2823 0.97

#	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	6e-05	0.0038	17.5	0.3	1	23	12	34	12	34	0.98
2	58	0.0096	0.61	10.6	1.6	1	23	39	62	39	62	0.93
3	58	0.17	11	6.6	1.9	2	23	70	92	69	92	0.90
4	58	0.00042	0.027	14.9	3.4	2	23	100	122	99	122	0.95
5	58	1.4e-06	8.7e-05	22.7	1.2	1	23	128	150	128	150	0.99
6	58	0.0037	0.24	11.9	0.2	1	19	156	174	156	175	0.96
7	58	0.00036	0.023	15.1	1.2	1	23	226	249	226	249	0.93
8	58	0.27	17	6.0	0.1	1	23	345	368	345	368	0.95
9	58	0.13	8.1	7.0	1.7	2	23	403	425	402	425	0.96
10	58	0.0002	0.013	15.8	0.3	1	23	432	455	432	455	0.96
11	58	0.00039	0.025	15.0	2.5	1	23	461	483	461	483	0.97
12	58	4.4	2.8e+02	2.2	4.4	1	10	489	498	489	499	0.95
13	58	2.1	1.3e+02	3.3	4.3	1	23	606	629	606	629	0.94
14	58	0.74	47	4.6	0.2	1	23	726	749	726	749	0.88
15	58	0.00027	0.017	15.4	1.2	1	23	755	777	755	777	0.98
16	58	0.00014	0.0087	16.4	2.3	1	23	783	806	783	806	0.97
17	58	0.0027	0.17	12.3	0.2	2	23	814	836	813	836	0.96
18	58	0.00021	0.013	15.8	2.6	1	23	842	864	842	864	0.97
19	58	1e-06	6.5e-05	23.1	0.5	2	23	871	892	870	892	0.97
20	58	0.17	11	6.6	1.8	1	21	898	918	898	919	0.96
21	58	0.077	4.9	7.7	1.8	1	23	1144	1167	1144	1167	0.93
22	58	0.082	5.2	7.7	0.1	2	23	1196	1218	1195	1218	0.93
23	58	0.46	29	5.3	0.8	2	23	1241	1262	1240	1262	0.96
24	58	0.0044	0.28	11.6	0.1	1	23	1266	1288	1266	1288	0.95
25	58	0.098	6.2	7.4	3.0	1	23	1293	1316	1293	1316	0.96
26	58	0.16	10	6.7	3.3	1	23	1425	1448	1425	1448	0.93
27	58	0.033	2.1	8.9	0.5	3	23	1476	1497	1476	1497	0.98
28	58	0.059	3.7	8.1	2.7	2	23	1520	1541	1519	1541	0.98
29	58	0.0035	0.22	12.0	0.0	1	23	1545	1568	1545	1568	0.93
30	58	0.12	7.3	7.2	1.6	1	14	1573	1586	1573	1596	0.88
31	58	0.33	21	5.8	3.1	1	23	1746	1769	1746	1769	0.94
32	58	1.1	71	4.1	0.1	2	23	1796	1818	1795	1818	0.94
33	58	0.15	9.3	6.9	4.1	2	23	1841	1862	1840	1862	0.97
34	58	8.6e-05	0.0055	17.0	0.3	1	23	1866	1888	1866	1888	0.97
35	58	0.00035	0.022	15.1	1.3	1	23	1893	1916	1893	1916	0.97
36	58	0.00034	0.022	15.1	3.1	1	23	1922	1945	1922	1945	0.97
37	58	0.00012	0.0074	16.6	1.3	2	23	1953	1975	1952	1975	0.96
38	58	0.014	0.9	10.1	1.7	1	23	1981	2003	1981	2003	0.97
39	58	4.8e-05	0.003	17.8	3.0	1	23	2009	2031	2009	2031	0.99
40	58	0.021	1.3	9.5	4.5	1	21	2037	2057	2037	2058	0.96
41	58	0.049	3.1	8.3	0.1	2	23	2209	2231	2208	2231	0.95
42	58	0.0012	0.075	13.4	4.6	2	23	2254	2275	2253	2275	0.98
43	58	0.011	0.68	10.4	0.0	1	23	2279	2301	2279	2301	0.93
44	58	0.0038	0.24	11.9	4.1	1	23	2306	2329	2306	2329	0.94
45	58	0.13	8	7.1	2.6	1	21	2336	2356	2336	2359	0.80
46	58	0.0019	0.12	12.8	3.4	2	23	2367	2389	2366	2389	0.96
47	58	0.01	0.66	10.5	0.2	1	23	2394	2416	2394	2416	0.97
48	58	0.27	17	6.0	3.2	1	17	2422	2438	2422	2439	0.93
49	58	1.9	1.2e+02	3.3	0.4	1	23	2509	2532	2509	2532	0.92
50	58	0.12	7.7	7.1	1.3	2	23	2559	2581	2558	2581	0.96
51	58	0.016	1	9.9	0.2	2	23	2604	2625	2603	2625	0.96
52	58	0.00016	0.01	16.2	0.0	1	23	2629	2651	2629	2651	0.99
53	58	0.12	7.7	7.1	1.8	1	23	2656	2679	2656	2679	0.93
54	58	1.3	85	3.8	0.3	2	22	2686	2706	2685	2708	0.78
55	58	0.0025	0.16	12.4	3.6	2	23	2716	2738	2716	2738	0.97
56	58	0.0015	0.092	13.2	1.2	1	23	2744	2766	2744	2766	0.97
57	58	5.4e-06	0.00034	20.8	3.1	1	23	2772	2794	2772	2794	0.99
58	58	0.00025	0.016	15.5	6.0	1	23	2800	2823	2800	2823	0.97

Sequence Information

Coding Sequence: ATGCAGTGGCACATGAGCGTGCATTACAGAAACTACGAATGCGATGAATGTAGCGCTACATTCATTAACAAAGCTACGCTGAGAAACCACCTACTTAGACATAGAACTGGCATCTTCGAATGCCGGTTTTGCAGGAAAGCTTTTGACACGAAAGACAAGTTGTCTGTCCACGAGAAGTTCGTGCATGTAACTGATCATAAGCGGAACAAATGCACGTATTGCAATGAGTTTTTCACGAGATACATCAAGAAGATGCAGCATATGGTCGAGAAACACGGCCACACGCCGCGCGTCGTCAAATGCACGTCCTGCGATAGGACTTTCAAAACCAAAGAGAAGCTTACAAAGCACAACAAAAGAGATCATATGTTGCAACGTAACTACCAATGTGATGTGTGCGGTCGCAACTTCTTCGATAACTATGACTTGCGGAGACATGAGCGCACACACATGGATGCTAAGCCTTTTACGTGTGGAGTTTGCAACAAGGGCTTCAATCGCAAGGATAATATGTTGGAGCATCCGCGTAATCAAGAAGCCGAAGAGGAAATCCGGCGAGGTAAACCAGAGTTCGGTAAACCTAACCCAGAGGAATTGCAAAAGCAAAGACACAACTTGAGACAAATATTGCTGTTAACGAATGCGACGCCAATAAGGCGTCACACTGATATGGGCTACGTCTGCGGATTCTGCTCGAAATGTTTCCAAAATCCCGCAGATCTCAAGAAACACACGCTAGGGATCCATGATACTAAAACAAAGGCCACCTTTATGCATCAGACATGCCTGTCAAGATTCCTGGTCAAACTTGATGTAACAGATCTGGAGTGCATTATATGCGGCGATGCAATCGTATCTTTTGCTGAAGTGTTGGAACATCTCAAAGGCCACGGAAAAGTTTTGCACAATgatataaaaaactacttaataccTTTCAAATTCGATGACGTTGTTCTAAAATGCACGCTCTGTTTCGAAATTCATAGAAAATTCAAATCGCTGCAGATACACATGTATAGTCATTATAAAAATTTCGTATGCGCCGTCTGCAGCGTGGGCTTCGTCAACCAACAAATGGTCACCACCCATTACCTCAACTCGCACCAAATCGGGTCGTTCTCTTGCTCTTATTGCACGAACGTTAACGATACTGTCAAGAAGAAGAAATCTCATGAGCATCATGCTCATGATAAGAAGAAAATGAACAAGTGCGGATACTGTAGTGAAAAGTTCAAGAGTTTCGATATGAAAAGGCTACATCAGATGAGCGAGCACAACATCAGGAGTCCCACGTTCGACTGCAGCGCTTGTAATAAGAGTTTCTCGAAGCCGTCACTGCTGGCCATCCATGTCAAGAAGGATCATCTCATGGAGACACGGTTCCAGTGCACCTATTGCGAAAAAGCGTTCTTCTTCAAGTTTCAATTGAATACCCACATAGTCAGTCACACGCACTCTAGGGATTTCAAGTGTGAAATCTGCAACAAATGCTTTGgTATCGTCATCAGTGACGTCAAACCCATAAAACTGGAAATAGAATgggatttagaaaaaaaaattgaagctGCAAAGATAAAAGAAGAGCATATGGAATCGAGAGCCAGTGAGAAAATGAAAAAAGCAAGAACTCCAAGACGCGCAGTAAATCGGAATAAAACAGCTGAAAGTGTGAAATCAGATAGATTCCAACCACTCAAAATTAAACCACCAGCAAAAGCTGAGCTTTTAGACGTCGACAAGCATCGATATAACGTACGAGCGATCTTACAATATTCGAATGCTACGCCCATCCGGGCTCACTATGCCGGAAATGGCTATGCGTGTTGTTTCTGCAAGCAGTATTTTCATAAAGCAGCAGAACTCAAAGCCCACACCTTACAAACACACGATGATCAAACTAAAAGAAAATACATGCAAAAAGCATTTCTGTTTAAGCTCTTTGTGAAACTTGATATCACATCCCTGCGTTGTATCGTCTGCACAAATGAAGTGATCAATCTCGATGAACTAATCGAACACTTAAACACTGCGCACCAAAAAGGCATTCACACCGACGTCAAAAATCAAATTATGTGTTTTAAACTAGACGATGAAGTTTTTCGGTGCTTTATGTGCTCGGTCGAGTATCACAGCTTTAAAAATTTGTTAGAACATGCACATTCACATTACAGAAACTTTGTCTGTGATGTATGCGACGCTGGTTTCATCAACCGGTTAAAACTCTATGGCCACGTGTACAACAAACATAAAGGCGCGGGCTCTCATAAATGCGGCACGTGCGAGAAAGTGTTCGACACGCCCATCAAACTGAAGACTCACGAACGGATCCACGCTGGCACGGTACTTTACAAATGTCATGAATGCGGTGAAAAGTTCtcgaaaaagaaagaaaagagagATCATATGATAATTGTGCACGGAGCTGAATTCGCACGGATCAAATGCACGGCTTGCGACAAGCTGTTTATCAGCAAAGCCTCCCTTAGTGTTCACATCAACAGAGATCACTTGATGGACAGACGCCACCAGTGCGCTCTATGCGACAAAACATTTTTCACGTCATCGTTTTTGAGGGATCACATGGTGTCGCATTCGAGGATTCGGGAAATCCAGTGTGATGAGTGCCCCAAAACGTTTGCGAGAAAGAAAGCTCTCCGTGAGCACATGAAGTCGCACACGGGTGATCGCAGATTCAAATGCACTTTCTGTGACATGGCCTTCTTGCAAAAGTGCAGTCTGAAGGGCCACTTGCGTGTCGACGTCAGAGACCACAAAGCAATAAAATCAGAAGTAGAGAGCTCTTGGGGAGTAACTATAGTAAAAGTTAAAGGTCCGAAAGCTGACGAAGGCCCGGCAAAACCTGACTATAGTGAATCTAAAACATCACAATCTAAtaaacgccaaaaaaagaacaaaaaaactcaaatgtCAGATATGAACACACTCAAAGGAATGAGAGTAAACCGCCTGCCAGGAAAGAAGTTAAACATTGAACAAGTAACAGTGGAATGTCAGCAAGTCTTTGAGCATCCATCGATGGTTGTAGATAACAAACCTGATACCCTCGAATCGAGTAAACGCCCAGCAGCTAAAAAAGCAGCACTTAAATTAGATGATACTCCAACACAAAGAATGAAAATAAATCCTCCACCAGACCTTAGTTTTATGAagcaaattaaaacaaaaagcaCAAAGCCCGGTGAAAACCCAGCTAAAGTTGTCGTTGCTAAACCTAAACTGCAATCAAGAAAAAGCCAAACAGTCAAAGCTGAATCTTCGAAGCTTAGCGACGCTCCTGTTCAGAGAATCAAAATAATCCCACCACCTGACATGGATTTTATGATGGAACTGGACAAACACAGGTTCAACATTCGGACTGTAATGGCCAATTCAAACGCTACTCCGATCAGAAACCATGTTAAAAGTGGATTCGTCTGCTGCTTCTGCGACGCACACTTCCCCAAACCCGCAGACCTCAAGCTCCACACCATACAGAGCCATGCTGACGACGAAAGTAAAGAcaaattctttagaaaaaaggcAGTCTTGTACTCGTTTATGGTAAAACTCGATATTACAACGCTAGTTTGCAATATCTGCCACATTGCTGTCGACACTCTCGAACAGCTAATCGATCACCTCAACGACACGCATCAGAAAGGCCTGCACACGGATATAAAAAGTCACATCGTGTGTTTTAAATTCGAAAGCGAAGTGATGAGATGCCTTATGTGTTTGCTAGAATTTAACAGCTTCAAACTGCTCTCGGAACATATGAACCAGCATTATACAAATTTCGTTTGCGACGAGTGCGGGGCGGGGTTTATCAACCGAAGACAACTCTTGCTACATTCTGATAAACACAAGGTTGGTGCACACAAATGCGGTTCTTGCGATAAAGTGTTTCAGTCCTTGAAAAGGATGAAGACTCACGAACGCATAACGCATGTCTACAACTCTGGACTCGgtgTCCACGTCAGAGACCACAAAACCATTAAAAAGGAACTTGATGTTTCCTGGGAAGTAACTATAGTTAAAGTTGAAGACGCGTCAAAAGTCACTgttaataaatcaaaaacagtaCAAGCCAGGAAACGACAACCGAATACAAAAACTCAAAAGCCAGACGAGATCTCGATcaaaagaacaaaaataaaaacgccaGATCACTCTCAAGAGACTTCGGAACTTGATAAACATCGACACAACGTCCGGACGCTATTGCAATGTTCCAACGCTACTCCGATTCGAACGCATTCCATCGCAAGTGGATACATCTGCTGTTTCTGCAAAGCGCATTTTTCTAAAGCTGCTGACCTCAAGACGCACACAATACAAGAACATGACGATGATACCAAAAACAAATTTATGCAAGGGAGTACTCTGTTCTCGTTCATCGTGAAACTTGACATAACTGGACTCGGCTGCAACATTTGCAGCACGTCCACGGATACCCTGGACCAACTATTCGATCATCTAAACAAAATTCATCAGAAAGAGCTCCACACTGATATCAAAAGCTACATTGCCTGTTTTAAACTGGACGGTGAAGCGATGAAGTGCCACATTTGTTCAGCAGAATATAAGAGTTTCAAGTTTTTACTGGAGCACATGAACAAACATACTACGAACTTTGTTTGCGACGAGTGTGGTGCAGGATTCATAAATCTGGGACAGCTTCGGTACCACACGGATAATATACACTTAGTGGGCACATACAAATGCGAGACTTGCGATAAAGTGTTTCCGTCGTCGAAAAAGAAATACTTTCACGAACGTGCTTCGCATTTTCAATCGAAAAAGAGGTATGACCAACGGCCTGTTCGCGACTCTAACAgTGTCGTCATCAAAGACAGCAAACCCATTAAAACGGAAGTTCCTAATTGGTGGGAAGGAATGCGAGTCAAAGTTGAAGGCACAGCAAACATTCCCGTTGATAATCCTACAGCACTACCCAGAAAAAATCAAACAAgtgcaaaaataaaacataaaccaGGCGAGTTCCCGATTCGAAAAATAATCAACATAAAACCTCCACCAGTTGTCGTTCCAGCAGCGCttctaagaataaaaataaaacccccGGCAGAACAAGaatttaaagaaattaaaataagaccTCCAACAGGACACCCTCCCGAAAAGTTGGAAATCGATAAACAGCGATATAACATTAAAACGCTATTACAATGCTCAAACGCAACTCCGATCCGGAGGCACGCAGTCGGAAGTGGATATAGCTGCTGCTTCTGCAAAGCGCATTTCCCTAAAGCTGCTGAGCTCAAGACGCACACAATACAAGATCATGACGAtgatacaaaaaacaaattcatgCAAAAGAATCACTTGTTTTCGTTCATCGTAAAACTCGATATAACATCACTAAGCTGCAACATTTGCTCCATGGACTTAGATACCGTTGAGCAACTCATTGATCATCTCAACAACACTCATCAGAAAGGGCTCCACACCGACATCAAAAGTCATATTGCCTGTTTTAAACTGAACAATGAAGAGACGAAGTGTCACATATGTTCGGCAGGATATCACAGCTTCAAATTGTTACAGGAGCATATGAACAAACATTACATGAACTTTGTTTGCGACAAGTGCGGGGCGGGGTTTATCAATCGAAGCCAGCTTAAAATACACTCTAGTACGCATCAAGAGGGCTCATACAAATGCGAAACATGTGATAAAGTATTTAAAACGGTTTTAAATATGCAGACCCACGCACGCCAAAGGCATTCAGGTATTTCTATATACAAGTGTCACCAGTGCGATGAAAGATTCAAAACAAAGGGTTCCAAGGTTAAACACCTAAGAGAAGCTCACGGGGTCATATTTGCAAATTTAAAATGCAATGCTTGCAACCGGACTTTTAAAAACAACGATGCTCTGCGTATCCACAGAAAAAGAGATCATTTAATGGAAAGACAGTATCAGTGCGAGTTATGTGACAGTAAATTTTTCACTGCGCATATGTTAAAAGAGCATGAAGTGACGCACACAGGGGTGCGAGAATTCAAATGTGACGTGTGTTTCAAATCGTATTCGAGGAAGTTTGCGCTCAGAGAACACAGACGTTCTCACACTGGCGATCGTCGTTTCAAATGCACGCATTGTGACATGACTTTCTTGCAAAAGTGCAGCTTGAAGAGTCATTTACGTATCGACAACAGTGACAACAAAACCATTAAAACGGAAGTAGATGCGTCATGGGGAGTAACCATAAAAGTTGTAGACAGATCAAACGTTGTCACTACCAAGCCTAAAACAACACAAGCCAAACAACTCCAAACAAGGAAAAAAACATCTCAAGAACAAGATGAAATCCTCATTCAAAGAACGAAAACCAAAATGTCACGTTCATCTTCTGTGAAGCTGGAGCTTGATAAACACAGATATAACATTCGAACGCTATTGCGATGTTCAAACGCCACGCCGATTCGAACGCATTACGTCGGAAGTGGATACATCTGCTGTTTCTGCAAAGCGCATTTCCTTAAAGCTACGGACCTCAAGACGCACACCATACAGGATCACGACGATAATGCAAAAAACAAATTCATGGCAACTActccattgttttgttttactgtaAAACTGGATATAACATCACTAAGTTGCAGCATTTGCAACATGGCGACTGATACCCTTGAACAACTCATTGATCATCTGAACAACACTCATCAGAAGGGGCTCCACACCGACATCAAAAGTCACATCGCGTGTTTTAAACTCGACGGAGAAGTGATGAAGTGCCACATTTGTTCCATAGATTTTAACAGCTTCAAACATTTGCAGGCGCACATGAATAAACATTTCTCTAATTTCATTTGCGACGTATGCGGAGCCGGATTTATCAATCGAAGCCAGCTTGGAATCCATTCCGATATACACCGAGAGGGTTCACACAATTGCAGCAGATGTGGAAAAACTTTTCAGTCGTCGAACAAGCTGAAGTCCCATGAGCGTCTAACGCACTTAGCAGCTTCAGAAAAGTACAAGTGCTATCACTGCGGGGAAAAGTTCAAAAATCGGAACATAAAGAAATATCACATGATAGAAGCTCATGGAGTCGAATACGCGGACTTGAAATGTGATGCTTGCGATAGGACTTTCAAAAGTTCCAAAAGCCTGCACGATCACAAAAGAAGAGATCACTTGATGCGAAGATACCCGTGCGTCCTTTGTGACAGTGTGTTCTCCAGGGTGGACCGATTGAAGCGTCACGAGGTGACACACACTGGGATTAGAAAGTTCAAATGTGATCTGTGTTCCAAGTCGTATACGAGGAAATgTAAACTGACAATCAAAAAGGAAATCTTCCTAACTGAGATAAAAGAGGAGCCACGGACAGGTGAAGACTCGTgtaaaagtgaaataaaaatcaaGCTAGTAAAAGTTCTTCATGATACCAAGGCACCTAACAGTATTGCGTATAAAAAACTACAACATAATCTGAGACAAATCATACAAAATTCGAATGCAACACCTATAAGACGTGTAAACGATTTAGATTATGTTTGTGCGTACTGCGAATACCAACACCCAAAACCGGACGAACTAAAAAACCATACGATAGCTACACACAGTAAGGAGACCGTCATCACATCAACAAAGAAAATGTGTGCGTACGACTTACTAGTCAAACTTGATATCTCATCTCTACGCTGCAAGCTGTGCAATCACAACTTAGAAACCTTGGAACAGCTACTCGAACATCTCCAAACGTCGCACAGCAGAAAAATCCATACggacattccaaatcaaatttTGCCCTTCAAATTTGGCGACGGACCTCTCTCTTGCTTCATTTGCAACGCCACCTTCGCTAATTTCAAGGTGTTAAACGTTCATGTAAATACACATTATAGGCACTACGTTTGCAAGATCTGCGGCGTGGGGTTTGTGAACCCCAACAAACTCGGATTACACATGCTAACCCACAAAACCGGCTCATTCGTTTGCTCTCATTGCTTCAAGGAGTTTCCCACGAATGTCAAGAAGATGGCTCACGAAAAACAGGTTCACGGCACGAAGCTGCGTTTGAAGTGCTGGCATTGTGACGAGCGGTTCGCAGACATTCTAGTGAAGGAGAAGCACATGACCGAAGCGCACGGCATCGTGTTCCCTACACCGAAATGCGAAACCTGCGACAAGGTGTTCCTTCATCGGAAATCGTTGAACTCCCACATGAAAAGAGTCCACTTGGTGGATCGTCGGCACGAGTGTTCGCAATGTGAAATGAAGTTTTACGCGCCTTCGGGGTTGAGGAATCACATGTTGAAACACACTGGCGATCGACAGTTTAAATGTGAGGTGTGCCACAAAGGGTACTCGAGGAAGAATACTCTGAGAgaacacatgagaatccacacgaATGATCGTAGGTTCAAATGTGAACATTGCGGGATGACCTTCGTTCAAAAGTGCAGCTGGAGGAGTCATATGCGCAACAAACACGGAGATATTGCTTAG
Protein Sequence: MQWHMSVHYRNYECDECSATFINKATLRNHLLRHRTGIFECRFCRKAFDTKDKLSVHEKFVHVTDHKRNKCTYCNEFFTRYIKKMQHMVEKHGHTPRVVKCTSCDRTFKTKEKLTKHNKRDHMLQRNYQCDVCGRNFFDNYDLRRHERTHMDAKPFTCGVCNKGFNRKDNMLEHPRNQEAEEEIRRGKPEFGKPNPEELQKQRHNLRQILLLTNATPIRRHTDMGYVCGFCSKCFQNPADLKKHTLGIHDTKTKATFMHQTCLSRFLVKLDVTDLECIICGDAIVSFAEVLEHLKGHGKVLHNDIKNYLIPFKFDDVVLKCTLCFEIHRKFKSLQIHMYSHYKNFVCAVCSVGFVNQQMVTTHYLNSHQIGSFSCSYCTNVNDTVKKKKSHEHHAHDKKKMNKCGYCSEKFKSFDMKRLHQMSEHNIRSPTFDCSACNKSFSKPSLLAIHVKKDHLMETRFQCTYCEKAFFFKFQLNTHIVSHTHSRDFKCEICNKCFGIVISDVKPIKLEIEWDLEKKIEAAKIKEEHMESRASEKMKKARTPRRAVNRNKTAESVKSDRFQPLKIKPPAKAELLDVDKHRYNVRAILQYSNATPIRAHYAGNGYACCFCKQYFHKAAELKAHTLQTHDDQTKRKYMQKAFLFKLFVKLDITSLRCIVCTNEVINLDELIEHLNTAHQKGIHTDVKNQIMCFKLDDEVFRCFMCSVEYHSFKNLLEHAHSHYRNFVCDVCDAGFINRLKLYGHVYNKHKGAGSHKCGTCEKVFDTPIKLKTHERIHAGTVLYKCHECGEKFSKKKEKRDHMIIVHGAEFARIKCTACDKLFISKASLSVHINRDHLMDRRHQCALCDKTFFTSSFLRDHMVSHSRIREIQCDECPKTFARKKALREHMKSHTGDRRFKCTFCDMAFLQKCSLKGHLRVDVRDHKAIKSEVESSWGVTIVKVKGPKADEGPAKPDYSESKTSQSNKRQKKNKKTQMSDMNTLKGMRVNRLPGKKLNIEQVTVECQQVFEHPSMVVDNKPDTLESSKRPAAKKAALKLDDTPTQRMKINPPPDLSFMKQIKTKSTKPGENPAKVVVAKPKLQSRKSQTVKAESSKLSDAPVQRIKIIPPPDMDFMMELDKHRFNIRTVMANSNATPIRNHVKSGFVCCFCDAHFPKPADLKLHTIQSHADDESKDKFFRKKAVLYSFMVKLDITTLVCNICHIAVDTLEQLIDHLNDTHQKGLHTDIKSHIVCFKFESEVMRCLMCLLEFNSFKLLSEHMNQHYTNFVCDECGAGFINRRQLLLHSDKHKVGAHKCGSCDKVFQSLKRMKTHERITHVYNSGLGVHVRDHKTIKKELDVSWEVTIVKVEDASKVTVNKSKTVQARKRQPNTKTQKPDEISIKRTKIKTPDHSQETSELDKHRHNVRTLLQCSNATPIRTHSIASGYICCFCKAHFSKAADLKTHTIQEHDDDTKNKFMQGSTLFSFIVKLDITGLGCNICSTSTDTLDQLFDHLNKIHQKELHTDIKSYIACFKLDGEAMKCHICSAEYKSFKFLLEHMNKHTTNFVCDECGAGFINLGQLRYHTDNIHLVGTYKCETCDKVFPSSKKKYFHERASHFQSKKRYDQRPVRDSNSVVIKDSKPIKTEVPNWWEGMRVKVEGTANIPVDNPTALPRKNQTSAKIKHKPGEFPIRKIINIKPPPVVVPAALLRIKIKPPAEQEFKEIKIRPPTGHPPEKLEIDKQRYNIKTLLQCSNATPIRRHAVGSGYSCCFCKAHFPKAAELKTHTIQDHDDDTKNKFMQKNHLFSFIVKLDITSLSCNICSMDLDTVEQLIDHLNNTHQKGLHTDIKSHIACFKLNNEETKCHICSAGYHSFKLLQEHMNKHYMNFVCDKCGAGFINRSQLKIHSSTHQEGSYKCETCDKVFKTVLNMQTHARQRHSGISIYKCHQCDERFKTKGSKVKHLREAHGVIFANLKCNACNRTFKNNDALRIHRKRDHLMERQYQCELCDSKFFTAHMLKEHEVTHTGVREFKCDVCFKSYSRKFALREHRRSHTGDRRFKCTHCDMTFLQKCSLKSHLRIDNSDNKTIKTEVDASWGVTIKVVDRSNVVTTKPKTTQAKQLQTRKKTSQEQDEILIQRTKTKMSRSSSVKLELDKHRYNIRTLLRCSNATPIRTHYVGSGYICCFCKAHFLKATDLKTHTIQDHDDNAKNKFMATTPLFCFTVKLDITSLSCSICNMATDTLEQLIDHLNNTHQKGLHTDIKSHIACFKLDGEVMKCHICSIDFNSFKHLQAHMNKHFSNFICDVCGAGFINRSQLGIHSDIHREGSHNCSRCGKTFQSSNKLKSHERLTHLAASEKYKCYHCGEKFKNRNIKKYHMIEAHGVEYADLKCDACDRTFKSSKSLHDHKRRDHLMRRYPCVLCDSVFSRVDRLKRHEVTHTGIRKFKCDLCSKSYTRKCKLTIKKEIFLTEIKEEPRTGEDSCKSEIKIKLVKVLHDTKAPNSIAYKKLQHNLRQIIQNSNATPIRRVNDLDYVCAYCEYQHPKPDELKNHTIATHSKETVITSTKKMCAYDLLVKLDISSLRCKLCNHNLETLEQLLEHLQTSHSRKIHTDIPNQILPFKFGDGPLSCFICNATFANFKVLNVHVNTHYRHYVCKICGVGFVNPNKLGLHMLTHKTGSFVCSHCFKEFPTNVKKMAHEKQVHGTKLRLKCWHCDERFADILVKEKHMTEAHGIVFPTPKCETCDKVFLHRKSLNSHMKRVHLVDRRHECSQCEMKFYAPSGLRNHMLKHTGDRQFKCEVCHKGYSRKNTLREHMRIHTNDRRFKCEHCGMTFVQKCSWRSHMRNKHGDIA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00663296;
90% Identity: -
80% Identity: -