Basic Information

Insect: Eumeta japonica
Gene Symbol: -
Assembly: GCA_005406025.1
Location: BGZK01000269.1:58268-86940[+]

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 61 0.95 2.1e+02 4.4 3.7 1 23 7 30 7 30 0.97

2 61 8.8 2e+03 1.3 5.3 1 23 37 60 37 60 0.90

3 61 0.0011 0.25 13.6 2.6 1 23 91 113 91 113 0.96

4 61 3.7 8.3e+02 2.5 5.8 1 23 121 144 121 144 0.96

5 61 0.38 86 5.6 1.1 1 23 216 239 216 239 0.95

6 61 0.33 74 5.8 0.6 2 23 264 286 263 286 0.95

7 61 0.26 59 6.1 2.3 1 21 308 328 308 329 0.91

8 61 0.081 18 7.7 0.9 1 21 334 354 334 355 0.95

9 61 4.5 1e+03 2.3 0.2 2 23 443 465 442 465 0.94

10 61 0.0044 0.98 11.7 0.8 2 20 488 506 487 509 0.93

11 61 6.6e-05 0.015 17.5 0.1 1 23 513 536 513 536 0.97

12 61 0.32 72 5.9 4.1 1 23 540 563 540 563 0.96

13 61 3.3 7.4e+02 2.7 0.9 1 23 568 593 568 593 0.90

14 61 0.0016 0.37 13.1 1.6 1 23 600 623 600 623 0.98

15 61 0.84 1.9e+02 4.5 0.5 2 23 827 849 826 849 0.94

16 61 0.16 35 6.8 2.1 2 20 875 893 874 896 0.92

17 61 0.0011 0.24 13.6 0.4 1 23 900 923 900 923 0.97

18 61 0.04 9.1 8.7 3.0 1 23 927 950 927 950 0.98

19 61 0.0066 1.5 11.2 0.5 1 23 987 1010 987 1010 0.98

20 61 0.015 3.4 10.0 4.0 2 23 1016 1037 1015 1037 0.97

21 61 2.1e-06 0.00047 22.2 3.1 1 23 1043 1065 1043 1065 0.99

22 61 0.018 4 9.8 1.0 1 20 1140 1159 1140 1161 0.94

23 61 0.028 6.3 9.2 0.2 2 23 1233 1254 1232 1254 0.97

24 61 0.007 1.6 11.1 0.1 1 23 1258 1280 1258 1280 0.92

25 61 0.00054 0.12 14.6 0.6 1 23 1285 1308 1285 1308 0.96

26 61 0.058 13 8.2 0.7 1 23 1314 1337 1314 1337 0.95

27 61 0.0048 1.1 11.6 1.6 1 23 1344 1367 1344 1367 0.97

28 61 2.9e-05 0.0066 18.6 0.4 3 23 1376 1396 1375 1396 0.98

29 61 7.3e-06 0.0016 20.5 3.1 1 23 1402 1424 1402 1424 0.98

30 61 1.1 2.4e+02 4.2 3.9 1 19 1430 1448 1430 1450 0.95

31 61 0.027 6.1 9.2 0.1 1 23 1524 1547 1524 1547 0.95

32 61 0.6 1.4e+02 5.0 0.2 2 23 1574 1595 1573 1595 0.96

33 61 0.00052 0.12 14.6 2.8 1 23 1618 1640 1618 1640 0.99

34 61 0.00016 0.036 16.3 0.8 1 23 1644 1666 1644 1666 0.98

35 61 0.14 32 7.0 0.2 1 22 1700 1721 1700 1723 0.88

36 61 0.013 3 10.2 0.7 1 23 1730 1753 1730 1753 0.97

37 61 1.4 3.1e+02 3.9 0.3 1 23 1807 1829 1807 1829 0.89

38 61 1.1 2.5e+02 4.1 0.3 2 23 1855 1877 1854 1877 0.93

39 61 0.35 78 5.8 1.9 1 23 1899 1921 1899 1921 0.96

40 61 0.0017 0.37 13.1 1.4 1 23 1925 1947 1925 1947 0.98

41 61 0.0011 0.25 13.6 0.3 1 23 1952 1975 1952 1975 0.95

42 61 0.00018 0.041 16.1 1.1 1 23 1981 2004 1981 2004 0.97

43 61 0.029 6.5 9.2 0.1 1 23 2074 2096 2074 2096 0.94

44 61 0.016 3.7 9.9 0.1 2 23 2120 2142 2119 2142 0.90

45 61 0.0012 0.27 13.5 0.9 1 23 2163 2185 2163 2185 0.98

46 61 0.0035 0.78 12.0 1.0 1 23 2189 2211 2189 2211 0.97

47 61 3.2 7.2e+02 2.7 1.4 1 22 2216 2237 2216 2239 0.85

48 61 0.37 84 5.7 5.2 1 23 2245 2268 2245 2268 0.94

49 61 0.014 3.1 10.2 0.9 1 23 2274 2297 2274 2297 0.96

50 61 0.55 1.2e+02 5.1 2.4 1 23 2303 2325 2303 2325 0.93

51 61 1e-05 0.0023 20.0 1.7 1 23 2331 2353 2331 2353 0.99

52 61 0.00067 0.15 14.3 5.2 1 23 2359 2381 2359 2382 0.95

53 61 0.071 16 7.9 0.7 1 23 2446 2469 2446 2469 0.95

54 61 0.0013 0.3 13.3 1.5 2 23 2536 2557 2536 2557 0.97

55 61 3.9e-05 0.0088 18.2 0.6 1 23 2561 2583 2561 2583 0.97

56 61 0.4 90 5.6 3.7 1 23 2588 2611 2588 2611 0.95

57 61 0.001 0.23 13.7 0.3 1 23 2617 2640 2617 2640 0.95

58 61 0.18 40 6.7 2.7 1 23 2647 2670 2647 2670 0.95

59 61 0.017 3.9 9.9 3.5 3 23 2678 2698 2676 2698 0.95

60 61 4.9e-05 0.011 17.9 1.3 1 23 2704 2726 2704 2726 0.99

61 61 8.9e-05 0.02 17.1 4.1 1 23 2732 2755 2732 2755 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	61	0.95	2.1e+02	4.4	3.7	1	23	7	30	7	30	0.97
2	61	8.8	2e+03	1.3	5.3	1	23	37	60	37	60	0.90
3	61	0.0011	0.25	13.6	2.6	1	23	91	113	91	113	0.96
4	61	3.7	8.3e+02	2.5	5.8	1	23	121	144	121	144	0.96
5	61	0.38	86	5.6	1.1	1	23	216	239	216	239	0.95
6	61	0.33	74	5.8	0.6	2	23	264	286	263	286	0.95
7	61	0.26	59	6.1	2.3	1	21	308	328	308	329	0.91
8	61	0.081	18	7.7	0.9	1	21	334	354	334	355	0.95
9	61	4.5	1e+03	2.3	0.2	2	23	443	465	442	465	0.94
10	61	0.0044	0.98	11.7	0.8	2	20	488	506	487	509	0.93
11	61	6.6e-05	0.015	17.5	0.1	1	23	513	536	513	536	0.97
12	61	0.32	72	5.9	4.1	1	23	540	563	540	563	0.96
13	61	3.3	7.4e+02	2.7	0.9	1	23	568	593	568	593	0.90
14	61	0.0016	0.37	13.1	1.6	1	23	600	623	600	623	0.98
15	61	0.84	1.9e+02	4.5	0.5	2	23	827	849	826	849	0.94
16	61	0.16	35	6.8	2.1	2	20	875	893	874	896	0.92
17	61	0.0011	0.24	13.6	0.4	1	23	900	923	900	923	0.97
18	61	0.04	9.1	8.7	3.0	1	23	927	950	927	950	0.98
19	61	0.0066	1.5	11.2	0.5	1	23	987	1010	987	1010	0.98
20	61	0.015	3.4	10.0	4.0	2	23	1016	1037	1015	1037	0.97
21	61	2.1e-06	0.00047	22.2	3.1	1	23	1043	1065	1043	1065	0.99
22	61	0.018	4	9.8	1.0	1	20	1140	1159	1140	1161	0.94
23	61	0.028	6.3	9.2	0.2	2	23	1233	1254	1232	1254	0.97
24	61	0.007	1.6	11.1	0.1	1	23	1258	1280	1258	1280	0.92
25	61	0.00054	0.12	14.6	0.6	1	23	1285	1308	1285	1308	0.96
26	61	0.058	13	8.2	0.7	1	23	1314	1337	1314	1337	0.95
27	61	0.0048	1.1	11.6	1.6	1	23	1344	1367	1344	1367	0.97
28	61	2.9e-05	0.0066	18.6	0.4	3	23	1376	1396	1375	1396	0.98
29	61	7.3e-06	0.0016	20.5	3.1	1	23	1402	1424	1402	1424	0.98
30	61	1.1	2.4e+02	4.2	3.9	1	19	1430	1448	1430	1450	0.95
31	61	0.027	6.1	9.2	0.1	1	23	1524	1547	1524	1547	0.95
32	61	0.6	1.4e+02	5.0	0.2	2	23	1574	1595	1573	1595	0.96
33	61	0.00052	0.12	14.6	2.8	1	23	1618	1640	1618	1640	0.99
34	61	0.00016	0.036	16.3	0.8	1	23	1644	1666	1644	1666	0.98
35	61	0.14	32	7.0	0.2	1	22	1700	1721	1700	1723	0.88
36	61	0.013	3	10.2	0.7	1	23	1730	1753	1730	1753	0.97
37	61	1.4	3.1e+02	3.9	0.3	1	23	1807	1829	1807	1829	0.89
38	61	1.1	2.5e+02	4.1	0.3	2	23	1855	1877	1854	1877	0.93
39	61	0.35	78	5.8	1.9	1	23	1899	1921	1899	1921	0.96
40	61	0.0017	0.37	13.1	1.4	1	23	1925	1947	1925	1947	0.98
41	61	0.0011	0.25	13.6	0.3	1	23	1952	1975	1952	1975	0.95
42	61	0.00018	0.041	16.1	1.1	1	23	1981	2004	1981	2004	0.97
43	61	0.029	6.5	9.2	0.1	1	23	2074	2096	2074	2096	0.94
44	61	0.016	3.7	9.9	0.1	2	23	2120	2142	2119	2142	0.90
45	61	0.0012	0.27	13.5	0.9	1	23	2163	2185	2163	2185	0.98
46	61	0.0035	0.78	12.0	1.0	1	23	2189	2211	2189	2211	0.97
47	61	3.2	7.2e+02	2.7	1.4	1	22	2216	2237	2216	2239	0.85
48	61	0.37	84	5.7	5.2	1	23	2245	2268	2245	2268	0.94
49	61	0.014	3.1	10.2	0.9	1	23	2274	2297	2274	2297	0.96
50	61	0.55	1.2e+02	5.1	2.4	1	23	2303	2325	2303	2325	0.93
51	61	1e-05	0.0023	20.0	1.7	1	23	2331	2353	2331	2353	0.99
52	61	0.00067	0.15	14.3	5.2	1	23	2359	2381	2359	2382	0.95
53	61	0.071	16	7.9	0.7	1	23	2446	2469	2446	2469	0.95
54	61	0.0013	0.3	13.3	1.5	2	23	2536	2557	2536	2557	0.97
55	61	3.9e-05	0.0088	18.2	0.6	1	23	2561	2583	2561	2583	0.97
56	61	0.4	90	5.6	3.7	1	23	2588	2611	2588	2611	0.95
57	61	0.001	0.23	13.7	0.3	1	23	2617	2640	2617	2640	0.95
58	61	0.18	40	6.7	2.7	1	23	2647	2670	2647	2670	0.95
59	61	0.017	3.9	9.9	3.5	3	23	2678	2698	2676	2698	0.95
60	61	4.9e-05	0.011	17.9	1.3	1	23	2704	2726	2704	2726	0.99
61	61	8.9e-05	0.02	17.1	4.1	1	23	2732	2755	2732	2755	0.98

Sequence Information

Coding Sequence: ATGCGATCGCGTTTTCTGTACGTCTGCCGGATGTGCGACGCGAGATTTCATCATTTCGATTCCAAGCAAAGCCATCTGGAGACGGTCCATGGGCAGCCAAAGAGAGTGTATTCATGTTACGTGTGCGGAGAAATCTTCAACCACAGGAAACGTCACAGAGCGCACTTTAAGATGAAGCATAGCCGCGACTGTTTCGAATGCGTCTGTGGATCGAGATTCGCCTTCAGATCTGATTACGATGACCATAGAGTGAGTCACGAGAAGAAGGAGTTCATCTGCGAGAAATGCGGGAAGATGTACCGTACAAGGAGAACTTTGGGCCATCATAGACAGGCGCACGTTCTAGAAACATCTATCAGACACGTATGCGGCTTTTGCGATTTGGCCTGCTTCAAGGTCGAAAACTTGAGATACCATATCAAAAAGTGTCATCCTAACGCATCCGTCAAAGTTTCCACAGCCAGAATAGAAGATTGCCATAAATGCAGATGCGgAGCCAACACGGAATTGTCTGGAAAAGGCGGGATAGCTAAAGGGGAACTGTTAGAGACCGCCGCCCGACCTTCGTTCGCTTTACTGCGTCGCAATGCTATAACCTTAATAAGTTATTCCACCGCTTGCCCTTTCAAAGTTTATAGGAACAAATTCGTTTGCCCTTTCTGCGACGATAGATTCCAAGACCCTTGCGCCTTCAGAGAGCACGTCAGTTCGCGTCACGAGAACGCGGACGTCGTCGTTCCGCTTTCTAAAATAACCGACGATTACGTCAAAATAGACGTGGTCAATCTGAAATGCAGACTATGTAATAGCAAATTTGACGTGTTAGAGACTTTAGCCAAGCACTTGACGAAAGTTCAcgataaaattgtcaaattcgACTCGCCACTTGGCGTGTTGCCTTTCAGACTGGATTCCAAGTATTACAGTTGTGTTTGTTGCGATAGTCGTTTCTCGAGCTTCGCCCATCTCAATCGGCATATGTTAGAACGGACCATAATTCACAGTTGTTCCAATTGCGGTAGCAAATTCATGAGAGAGGGCAGGCTAAGAGCGCATTTGAGGTTCGGCCAATGCCCTCGGAAGGAAATTAACGTCTTAAAAGATTCGATGGCGAGACAGAACGctgaaattattctaaaatgttCGACGGCTTTCCCTTTTAGGACTTGGTTGCATCAGATCAACTGCGTCTTCTGTCGGGGTAGATTCGTCGAACCGGGCATCTTCAGATATCACATGAGCACAAAACATACCGATTTCGGTCCGCGCAGTGCCTTTTACAAGAAATTAGGtaaagaatatttgaaaatagacaTCACAGACCTGAAATGCAAACTTTGTACTGCGAAGATAGATAATGTGGAACTTCTGATGGAGCATTTGAAGAATATGCACCAACAACCTATCGATTTGAAAGCTCAATGCGGTGTACTGCCCTACAGGTTGGACGCGAAGGATTGGTCTTGCGTTTACTGCAACCAAAAATTCACAGATTTCGAGAATCTGAACAAACACACGCCGGAGCATTTGCAGAATTTCGTATGCGATTCTTGCGGCAGAGGGTTCATAACGGAGAGCGCGCTGCGCAACCACAAGAGAATACCCCACGAGAACTCGTTTCATTGCTACCGTTGCATAGAGACCTTCTCGACCAGCGAGGAAAGGAAGAGGCACATGAAAGTCAAACACAAAAAACAACCTTACATCTGTAATCTATGCGAGAACAAGCCAAGGTTTTGCAGCTGGGACGCCAGAAGGCGACATCTTATCACGGTACATAAGATCCCGCCCAAAGCGTACGAATGCGAAGTGTGTAAACAGACCTTTAAGAGCCGATCCACCAAGTCGGACCATGTGAGGAAGGTGCATTCCGACAAACAATACCCTTGCACTCAGTGCAATGCGGTACTTTATAggttcacGTCGGATTTGCCGAGCACCAGTCGCGGTGCTAGTGGACCGTTAAAGGGAAAGCTTCATGCTCCCAGCTCGGGGGGCCTATTCATGACCAGGTCCGGTCAACTTTTAAACCCGAGGCTCCTGCTTCCGCAACTTTTCAAAGGCAAACCGTTGTCCGTCAGTAAGACGTTACAGATTCCGCGCAAAGGCATAACGACCTCCAACCCCCCTAAGATATTGTCCACTAAAAACCAGTCGTTCAGGCTCGTCTCGCAAACTGTGCCGAAGCCGCAAATATCCTTGCAGAAAAAACCGCCAACGATCTCGACGAAGATGCCCCTACATTTCTATCAGCCACGTTTGAGTCCGCGCCAGTGCGCAGAAATCATCTTAAAGTATTCGACCGCCTGCCCGTTCAGATCGGCAGTCAACGTTTTTCATTGCAAGTTCTGTAGCGATCACTTCTTAGATCCGGCCCTGCTCAGGAAGCACTACAAGGAGGAGCATCAGGGCGTCAATCTGGCCGCAGCGTTTTACAGACTCCGCGACGACTATTTGACGATAGACGTGACCGacttaaaatgtaaagtttgcCATCAGGACATGACGGACGTCGAAGCGCTTCTAAAGCATCTGAAAGATGAGCACAAGAAGAGTTTCATTCTCGAGGAATCGGTGTCGTCTTTTGGTGTCATCCCGTTTAAGTTGGACGTGAGGAACTGGAAGTGCACCTTTTGCTCGACTCAGTTTAGCAGTTTCGTTCATCTAAACCAGCACGTACCATCTCATTTGAGCAACTACGTTTGCGATTCTTGTGGTGCCGGCTTCATCAGTCATCGTTTGTTGAACAATCACATTAGACTGACGCATAGTTCTACTTTCCCTTGTCATAGGTGCAAAGCGACTTTTCAGACTTTGGAAGAGAGGAAGAACCATATTAAGACGCAACACAACCCCCAGCCCTACACGTGTTACGCGTGCAAAGAACGGCCGAGGTTCAGTTCCTGGTACGTTCGACTGAAGCACCTTCAGGAGGTTCACAACCACAAGCCCATGAAGTACGAGTGCGTGCTGTGTTCGGAGACTTTCACCACCCGCGCTGCTAAATACAGCCACATACGCAAAGTCCACACGGAACCCCAGCAGCGTTGCACTTTCTGCGAGATGGTCTTCCACACGAAGACCCAACTGAAATACCACATGGTCAAACATTCGGATGAGAGACCTTTTAAATGCAACGTGTGCCAAAAGGACTTCAATAGGAAAAAGACGCTGACCCAACACATGCGCATACACACGAACGATCGCAGATACGTCTGCCACCTGTGTAgACAACATCGAAGCCCGGGTATCGAAACAGATATAATATCAGAAGAGATCGATAGAAACTCGATAACCACGGGCAAAAGGAACTATCAGAGAAGCGCTAGATCGGTAGCGCGGCTCAAGACGAAAAGAAACGCTAGTGTCGTGTTAGCCTGTTGGACCGTCTCGCCTTTTCGATGGCAGAAAAATAGGTTTAAGTGCGCTTATTGCGAGGAGCAGTTCACAGAGTGCTCTACTCTAAGGGAGCACGTCAGCATGTGCTCAAAAAACCATTCACTCGACGATATCTACAGTAAATTCAAGGAAATGAGCTTGATAAACGTAGATCTGACCGACGCCACTTGTAGAGTCTGTACTGTGCCCTTGGTGAGCATCGATGCTATGAGAGCTCACGTCGCACAGCACGGTTATCGGTTGGATCCTCAGCATCCGGACGGCGTTATACCCTTCCACCTTGACAACAGCTGTTGGAAATGCGTTGTATGCAATGAAGAGTTCAACAACTTCTTGAAACTGTACGAGCACATGAACGTCCATTATCAACACTACATATGCGATATCTGCGGCAAGGGATACATGACGGCTCAGAGGTTGAGGAAGCATTCGGAGGCGCATGCCATAGGTCCGTTTCCGTGCAACGACTGTGACAAGATCTTCAATACCAGAGCATCTAGGGAGTCTCACAGGGCCACTCGTCACATCAAAGAGCCGAAATATCAATGTCCGAAATGCGAAATGAGGTTCGACGGATACTACGATAGGATGAACCATTTGAACGAGACCCACAGGGAAAGGGAAGTGGTCTACAATTGTCCGCATTGCGAATTGAAGTTCAAAACTAGCGGCAAACGTTCGGCGCACGTGCGTTCCATACATTTCCCACCGCTGAGAACTCACGGATGCTCGTACTGCGATTGGAATTTCAAAACCGCCTACGAGCTCAAAAGACACATAGTGAAGCATACCGGCGAAAGGAATTATCATTGTACTATGTGTGACAAGTCTTATCCGCGCAACAAGACACTGAAAGAACACATGCGCATCCACGACCACAATGGGGTTTTCAATTGCAAATGGTGCAGCTGCGAATACAAGCAGAAGACCAAATTATTACGGCACTTTCTTTTCTTTGTAGGTTTCGAAGATGAAATCGTAGGCGTGGTTAAGCGCATTAGGAAGTTAAAGGAGAACGTTAGCGCCCGACAGATGCGCCGGCGCAGGCGGGCGAACAACGAATTGCCCGAGGTTTCAGAGAAAAGAATAGCGAAGACCATGATGCGGAGGAATGCGATGCTGATAATGGAGTGTTCTACCGCGTGGGCGTTCCGCTGGTGGCGCAATTCCTTTTTCTGCTCTTACTGTGACGATAGATTCGTAGACGCGAGTCCGTTGCGCGAACACGTTCTTTCTCTGCACATCAACGAACAGCCCACGAAGAGAATATTTGCGAAGTTAACGGAGAACAATATGGTGAAAATCGACGTAGGAGTCTTGAAGTGCAGATTGTGCGGTCTAAGTTTAGACGGAGTCGATTCTCTGAAATACCATCTAAGCTCGCACGGTAAACTATTTTACGCGGATTACAGTGATGGGGTGTTACCGTTTAGACTGAACGACGAAACTGGCTATTCGTGCCAGAAGTGCTTCCAAAATTTCGTTAATTTCTCCAAGCTGAACGAGCACATGAACACTCATTACCAGAATTATATATGCGATTCGTGCGGGAAGGCGTTCGTTTCGAAATCGCGGTTCAGGACCCACGTGCAGTCGCACGAAAAGGGCAGCTTCCCTTGCGGCGAGTGCGAGGAGGTCCTTGAGACCAGAGCGGCCCGCGTCTGCCATAAATTCCGTGTGCATAAAAAGGGGATGCGATACGTGTGCCCACGGTGTCCCGAAATATTCACGACGTATCTATCGCGCGCCAGACATCTGGTGGAATTTCACGCTCAAAGGCCGAAGGAATACCCTTGTACGGTTTGCGGACGCGTTTTCGAGGCTAGCTGCAAACGAGCTTTGCATATTAGGACGACGCACAGGATCTACACGTttcaattgcatttttttttcttttattttttagggcCGAACGAACTAAAATGGAAACGAAAATGCCGGTTCCAAGAGGACAAAGCGAATGCGGCTATCATTATAGAATGCACTAACGTGACCCCGTTTCGATGGAAGCGTGGCCGTTTCCTATGCGCCTACTGCCCCTTCGTCTGCCCCAACCCGACAGACGTACGGACGCACTCCGCGGAGCACGAGCGACGCCTCGACGTGCTCACTAGGGGCGACGTCAGGAACACCTTCCCCGTGAGAGTCGAGATATCCGATCTCAAATGCAGACTCTGCCAGCAGAAGATCGAGAATCTGGACGCTCTCAAGGATCACCTTATAAACAAACATTCGAAACCCTTAAATCCCAAATACGCCGACGGTATCATACCCTTCGTGTTGAGTGACAAGACTTTCAAATGCGTCTGCTGCGATAAACAGTTCGAAGTTTTCGTCAGTCTGAGCAATCATATGAACGGCCATTACCCCAGTTACATATGCGACTCGTGCGGCAAAGGGTTCGCGGCCAAACACAAGTTGCGCACGCACAAGATAACCCACGACACCGGTGAATATCCTTGTTCTAAATGCGACTTGGTCTTCACTACCCGCGCTTTCAGGAACAGGCACATGGTCGTGGCGCACGGACCAAAGAATAGGTACAGGTGCCCCCACTGCGGATTAACCTTCGGGAAATATAGCGACAGAATCAGGCACATGGCGAAAGTTCACGGCAAGAAATTGGAATATCGCTGCACCATATGCACTTCTGTATTCGgaGTCCACGCCAAAACACAAGAACCCATAAAAAATTCTGCTGCCGCTGATAGGTTATCAAAAGCCATGTCGCGTAGTCGCAAACTCGAGGAAGAAAAGCACAACATAACCACGATACTAGAATGTTCTAATGCTGTTCCCTTCCGTTGCGCTAAGGGGAAGTTCATATGCGGCGTGTGCCCTTTAGAATTCACCGACGTACACCAGATGAGAGCCCACATCGGTGAGCACAGATCGAAAATTGCAGCTTTAAAACATGTAAGGTCCAACAAACTGGTGAAAATGGAGATTTCGCATTTGAAATGCGAAATATGCGACGAGGCATTCGATGATTTTACACTGTTCAAGAGCCATCTGGTGGAGGAACACGCGAAACGGTTGTACGATAAAAACGGCGACGGCTTCATACCGTTTCGCCTGACCGACGGCTACAATTGCGTCATCTGCGACGAAAGCTTCCAGTTCTTTCTGATGCTGAACAGGCACATGAACACGCATTACGTTAGCCACGTGTGCAACGTCTGCGGCAAGGGCTTCCTCGATCGCAACAGGCTTATAACCCACATGACGACGCACGATAGAGGAAGGTTCGCCTGCAAGAAATGCGAATTGGTCTTCGACACGGTCAATCACAGGCACGTCCACGTGGTGAATGTTCACAGGCCGAAGGACAGGTACAAATGTCCGCGATGCGACCACAAATTCACCTCTCACAACGTGAGGTATCGACATTTAAGGGACGTGCACGGGGAGAATATAAGGCATCGTTGCCCTTTGTGTTCCGCCACCTTTAACAGTTCCAGTTCTAGGAGTATTCACGTGCGTTTGGTGCACGCGAAAAAGAAGGAGCACTGCTGCAGCTTCTGTTCGGCACGTTTCGGCACCTCTTGGCTGTTGAAGAATCATGCCGTGATCCATACCGGAAAGAAAGAATTCAAATGCCAAGTGTGCAAGAAGGCTTACGCTAGAAAGAAGACTTTGACAGAGcatatgaaaattcataacaatGATAAAAGATTCGTATGTTCTGTTTGTAATAAGGCATTTATTCAGAAGTGCAGTCTCAAACAACATTTCAAAGTTCATCACCCAGATACTTTCATCggaaaaaaccCGGAATCAATATCTGTTGAAGCAGAAGATTGGCAAATAGATGACGCTACATCCACAACTTTAGATACTTTCGTATCAAAAACTGAAGTTATCGAAGCTAAACAATATCTGGATGTGATACTGAAATACACGACTGCATGCCTCTTTAGATGGAGCCGGGGAAAGTATATATGCTACTTTTGCAGCCAAAGCTATATCGAACCACAGCATTTGCGTGAACATGTACTAATACAGCACAGCTCTCTGAAACAGGTGAAGATACAGGACAAGGAACTAGTGAAGATGGATTTTTTTAACGCTGTTTGTAAAATTTGCTGCTGTCCCATCGACAATGTAGACCTAATGGAAAATCATCTGTCGAAACGCCATGAACTACGCATGAAAGACATAAAAGATATAAGAATATTACCCTTCAAGTTGATAGATAAGGAAAACGTGTGTCAGATATGCGGAGAGAATTGTGAGACTTTCGTCAGTTTGAACAAACACATGAACAGGCACTTCCAAGATTTCGTATGCGCCGATTGTGGCAAGTCCTTCGCAACGTCGCGAAGGTTGCGTAGCCATCGCACCATCCACGAGGATAAAGATTTTTGCTGTTCCAAATGCAAAGACACCTTTCCGTCCTCCACGGAACTCTACAACCACACGACTAGGGTGCATCGCAAAAACGGCCGCTACAAATGCCCTCTCTGCGGGGAGAAATTTGTTTCCTACAGCAAACGCATTAATCATTTGAACGGTGTCCACAATATGAAGCAGATCGAATTCAATTGCCCGTCGTGTCCGCGCACCTTTAGGCTTTGCAGTCTCAGGAATATGCATGTGAGGCAGAGTCACCTCAACGAGCGGAACCATTTGTGCAACTTTTGCGGGTCGAAATTCCCGACTAAATATAGACTATCACAGCACATGTTGAAACACGGTGGCGAGAAGAAGTATCAATGCGATGTATGTAAGAAGTTTTACGTCAGAATGAACACTCTGAGAGAGCACATGCGAATACACAACAACGACTGGCGTTTTAAATGCGACGTCTGCGGGCAGAGCTTTATTCAAAAGTGCAGTCTCAAGCAACACTTCCGGAGGCTGCACTCCGAAGGTGTGAAAATGGAGTCGAAACGTTCCTGA
Protein Sequence: MRSRFLYVCRMCDARFHHFDSKQSHLETVHGQPKRVYSCYVCGEIFNHRKRHRAHFKMKHSRDCFECVCGSRFAFRSDYDDHRVSHEKKEFICEKCGKMYRTRRTLGHHRQAHVLETSIRHVCGFCDLACFKVENLRYHIKKCHPNASVKVSTARIEDCHKCRCGANTELSGKGGIAKGELLETAARPSFALLRRNAITLISYSTACPFKVYRNKFVCPFCDDRFQDPCAFREHVSSRHENADVVVPLSKITDDYVKIDVVNLKCRLCNSKFDVLETLAKHLTKVHDKIVKFDSPLGVLPFRLDSKYYSCVCCDSRFSSFAHLNRHMLERTIIHSCSNCGSKFMREGRLRAHLRFGQCPRKEINVLKDSMARQNAEIILKCSTAFPFRTWLHQINCVFCRGRFVEPGIFRYHMSTKHTDFGPRSAFYKKLGKEYLKIDITDLKCKLCTAKIDNVELLMEHLKNMHQQPIDLKAQCGVLPYRLDAKDWSCVYCNQKFTDFENLNKHTPEHLQNFVCDSCGRGFITESALRNHKRIPHENSFHCYRCIETFSTSEERKRHMKVKHKKQPYICNLCENKPRFCSWDARRRHLITVHKIPPKAYECEVCKQTFKSRSTKSDHVRKVHSDKQYPCTQCNAVLYRFTSDLPSTSRGASGPLKGKLHAPSSGGLFMTRSGQLLNPRLLLPQLFKGKPLSVSKTLQIPRKGITTSNPPKILSTKNQSFRLVSQTVPKPQISLQKKPPTISTKMPLHFYQPRLSPRQCAEIILKYSTACPFRSAVNVFHCKFCSDHFLDPALLRKHYKEEHQGVNLAAAFYRLRDDYLTIDVTDLKCKVCHQDMTDVEALLKHLKDEHKKSFILEESVSSFGVIPFKLDVRNWKCTFCSTQFSSFVHLNQHVPSHLSNYVCDSCGAGFISHRLLNNHIRLTHSSTFPCHRCKATFQTLEERKNHIKTQHNPQPYTCYACKERPRFSSWYVRLKHLQEVHNHKPMKYECVLCSETFTTRAAKYSHIRKVHTEPQQRCTFCEMVFHTKTQLKYHMVKHSDERPFKCNVCQKDFNRKKTLTQHMRIHTNDRRYVCHLCRQHRSPGIETDIISEEIDRNSITTGKRNYQRSARSVARLKTKRNASVVLACWTVSPFRWQKNRFKCAYCEEQFTECSTLREHVSMCSKNHSLDDIYSKFKEMSLINVDLTDATCRVCTVPLVSIDAMRAHVAQHGYRLDPQHPDGVIPFHLDNSCWKCVVCNEEFNNFLKLYEHMNVHYQHYICDICGKGYMTAQRLRKHSEAHAIGPFPCNDCDKIFNTRASRESHRATRHIKEPKYQCPKCEMRFDGYYDRMNHLNETHREREVVYNCPHCELKFKTSGKRSAHVRSIHFPPLRTHGCSYCDWNFKTAYELKRHIVKHTGERNYHCTMCDKSYPRNKTLKEHMRIHDHNGVFNCKWCSCEYKQKTKLLRHFLFFVGFEDEIVGVVKRIRKLKENVSARQMRRRRRANNELPEVSEKRIAKTMMRRNAMLIMECSTAWAFRWWRNSFFCSYCDDRFVDASPLREHVLSLHINEQPTKRIFAKLTENNMVKIDVGVLKCRLCGLSLDGVDSLKYHLSSHGKLFYADYSDGVLPFRLNDETGYSCQKCFQNFVNFSKLNEHMNTHYQNYICDSCGKAFVSKSRFRTHVQSHEKGSFPCGECEEVLETRAARVCHKFRVHKKGMRYVCPRCPEIFTTYLSRARHLVEFHAQRPKEYPCTVCGRVFEASCKRALHIRTTHRIYTFQLHFFFFYFLGPNELKWKRKCRFQEDKANAAIIIECTNVTPFRWKRGRFLCAYCPFVCPNPTDVRTHSAEHERRLDVLTRGDVRNTFPVRVEISDLKCRLCQQKIENLDALKDHLINKHSKPLNPKYADGIIPFVLSDKTFKCVCCDKQFEVFVSLSNHMNGHYPSYICDSCGKGFAAKHKLRTHKITHDTGEYPCSKCDLVFTTRAFRNRHMVVAHGPKNRYRCPHCGLTFGKYSDRIRHMAKVHGKKLEYRCTICTSVFGVHAKTQEPIKNSAAADRLSKAMSRSRKLEEEKHNITTILECSNAVPFRCAKGKFICGVCPLEFTDVHQMRAHIGEHRSKIAALKHVRSNKLVKMEISHLKCEICDEAFDDFTLFKSHLVEEHAKRLYDKNGDGFIPFRLTDGYNCVICDESFQFFLMLNRHMNTHYVSHVCNVCGKGFLDRNRLITHMTTHDRGRFACKKCELVFDTVNHRHVHVVNVHRPKDRYKCPRCDHKFTSHNVRYRHLRDVHGENIRHRCPLCSATFNSSSSRSIHVRLVHAKKKEHCCSFCSARFGTSWLLKNHAVIHTGKKEFKCQVCKKAYARKKTLTEHMKIHNNDKRFVCSVCNKAFIQKCSLKQHFKVHHPDTFIGKNPESISVEAEDWQIDDATSTTLDTFVSKTEVIEAKQYLDVILKYTTACLFRWSRGKYICYFCSQSYIEPQHLREHVLIQHSSLKQVKIQDKELVKMDFFNAVCKICCCPIDNVDLMENHLSKRHELRMKDIKDIRILPFKLIDKENVCQICGENCETFVSLNKHMNRHFQDFVCADCGKSFATSRRLRSHRTIHEDKDFCCSKCKDTFPSSTELYNHTTRVHRKNGRYKCPLCGEKFVSYSKRINHLNGVHNMKQIEFNCPSCPRTFRLCSLRNMHVRQSHLNERNHLCNFCGSKFPTKYRLSQHMLKHGGEKKYQCDVCKKFYVRMNTLREHMRIHNNDWRFKCDVCGQSFIQKCSLKQHFRRLHSEGVKMESKRS*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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