Basic Information

Insect: Tinea trinotella
Gene Symbol: -
Assembly: GCA_905220615.1
Location: HG992334.1:2155931-2176695[-]

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 60 0.00021 0.012 16.3 3.8 1 23 200 223 200 223 0.92

2 60 0.56 32 5.5 0.0 2 23 249 271 248 271 0.94

3 60 0.0041 0.23 12.3 0.7 1 23 292 314 292 314 0.98

4 60 4.2 2.4e+02 2.8 1.4 1 23 318 340 318 340 0.80

5 60 2.9 1.6e+02 3.3 0.6 2 23 344 366 343 366 0.93

6 60 0.11 6.1 7.8 1.2 2 23 373 395 372 395 0.97

7 60 0.0025 0.14 12.9 0.5 1 23 402 425 402 425 0.95

8 60 0.00051 0.028 15.1 2.2 3 23 433 453 431 453 0.98

9 60 3.5e-06 0.0002 21.9 2.3 1 23 459 481 459 481 0.98

10 60 0.0002 0.011 16.4 0.7 1 21 487 507 487 508 0.95

11 60 0.19 10 7.0 1.2 1 21 576 598 576 600 0.68

12 60 0.18 10 7.0 0.1 2 23 628 650 627 650 0.96

13 60 2 1.1e+02 3.8 0.7 2 23 671 693 670 693 0.94

14 60 0.0061 0.35 11.7 0.2 3 23 700 721 699 721 0.95

15 60 0.057 3.2 8.6 0.3 1 16 726 741 726 749 0.86

16 60 3.2 1.8e+02 3.1 0.5 3 23 753 774 751 774 0.92

17 60 0.005 0.28 12.0 1.0 1 20 778 797 778 799 0.94

18 60 0.014 0.76 10.6 1.4 1 23 851 874 851 874 0.96

19 60 6.3 3.5e+02 2.2 0.4 2 23 900 922 899 922 0.88

20 60 0.064 3.6 8.5 0.6 3 23 946 967 945 967 0.96

21 60 0.00059 0.033 14.9 1.8 1 23 972 995 972 995 0.97

22 60 0.05 2.8 8.8 0.2 2 23 1000 1022 999 1022 0.94

23 60 0.069 3.9 8.4 0.5 2 23 1028 1050 1027 1050 0.90

24 60 7.8e-05 0.0044 17.7 1.7 1 23 1054 1077 1054 1077 0.98

25 60 0.00037 0.021 15.5 2.0 1 23 1166 1189 1166 1189 0.97

26 60 0.039 2.2 9.2 0.6 3 23 1263 1284 1261 1284 0.92

27 60 0.0013 0.072 13.8 1.7 1 23 1289 1312 1289 1312 0.94

28 60 0.025 1.4 9.8 1.1 1 23 1317 1340 1317 1340 0.96

29 60 0.0072 0.4 11.5 2.4 2 23 1346 1368 1345 1368 0.92

30 60 0.0001 0.0056 17.3 6.6 1 23 1372 1395 1372 1395 0.97

31 60 0.0034 0.19 12.5 0.4 2 23 1402 1423 1401 1423 0.97

32 60 4.7 2.6e+02 2.6 0.6 1 11 1429 1439 1429 1446 0.80

33 60 0.31 17 6.3 0.4 1 23 1480 1503 1480 1503 0.96

34 60 0.23 13 6.7 0.1 2 23 1533 1555 1532 1555 0.95

35 60 0.054 3.1 8.7 0.4 2 23 1578 1600 1577 1600 0.94

36 60 0.024 1.4 9.8 4.8 1 23 1605 1628 1605 1628 0.97

37 60 0.38 21 6.0 0.7 1 23 1633 1656 1633 1656 0.92

38 60 0.038 2.2 9.2 0.8 2 23 1662 1684 1661 1684 0.90

39 60 0.0037 0.21 12.4 0.3 2 23 1692 1714 1691 1714 0.97

40 60 0.0066 0.37 11.6 0.1 2 23 1721 1742 1720 1742 0.96

41 60 8.2e-07 4.6e-05 23.9 0.3 1 23 1748 1770 1748 1770 0.97

42 60 0.0081 0.46 11.3 1.7 1 23 1812 1835 1812 1835 0.95

43 60 0.12 6.9 7.6 0.0 3 23 1864 1885 1864 1885 0.94

44 60 1.1 64 4.6 0.0 2 23 1908 1930 1907 1930 0.94

45 60 0.0028 0.16 12.7 2.0 1 23 1935 1958 1935 1958 0.95

46 60 0.032 1.8 9.4 1.9 2 23 1962 1984 1961 1984 0.94

47 60 0.002 0.11 13.2 0.3 1 23 1990 2013 1990 2013 0.93

48 60 0.013 0.74 10.6 0.5 2 23 2021 2043 2020 2043 0.96

49 60 0.29 16 6.4 0.9 1 23 2048 2070 2048 2070 0.98

50 60 1e-06 5.7e-05 23.6 1.0 1 23 2076 2098 2076 2098 0.99

51 60 0.017 0.95 10.3 0.1 2 21 2105 2124 2105 2125 0.94

52 60 0.48 27 5.7 1.0 1 23 2207 2229 2207 2229 0.97

53 60 0.29 16 6.4 0.1 2 23 2255 2277 2254 2277 0.91

54 60 0.58 33 5.5 0.1 3 23 2301 2322 2299 2322 0.93

55 60 0.0013 0.073 13.8 0.5 3 23 2330 2351 2329 2351 0.98

56 60 0.2 11 6.9 1.7 1 23 2356 2379 2356 2379 0.96

57 60 1.7 95 4.0 4.9 1 23 2383 2406 2383 2406 0.95

58 60 0.0043 0.24 12.2 1.7 2 23 2413 2435 2412 2435 0.95

59 60 0.11 6.3 7.7 2.0 1 23 2441 2463 2441 2463 0.94

60 60 0.014 0.79 10.6 0.7 1 22 2469 2490 2469 2492 0.85

#	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	60	0.00021	0.012	16.3	3.8	1	23	200	223	200	223	0.92
2	60	0.56	32	5.5	0.0	2	23	249	271	248	271	0.94
3	60	0.0041	0.23	12.3	0.7	1	23	292	314	292	314	0.98
4	60	4.2	2.4e+02	2.8	1.4	1	23	318	340	318	340	0.80
5	60	2.9	1.6e+02	3.3	0.6	2	23	344	366	343	366	0.93
6	60	0.11	6.1	7.8	1.2	2	23	373	395	372	395	0.97
7	60	0.0025	0.14	12.9	0.5	1	23	402	425	402	425	0.95
8	60	0.00051	0.028	15.1	2.2	3	23	433	453	431	453	0.98
9	60	3.5e-06	0.0002	21.9	2.3	1	23	459	481	459	481	0.98
10	60	0.0002	0.011	16.4	0.7	1	21	487	507	487	508	0.95
11	60	0.19	10	7.0	1.2	1	21	576	598	576	600	0.68
12	60	0.18	10	7.0	0.1	2	23	628	650	627	650	0.96
13	60	2	1.1e+02	3.8	0.7	2	23	671	693	670	693	0.94
14	60	0.0061	0.35	11.7	0.2	3	23	700	721	699	721	0.95
15	60	0.057	3.2	8.6	0.3	1	16	726	741	726	749	0.86
16	60	3.2	1.8e+02	3.1	0.5	3	23	753	774	751	774	0.92
17	60	0.005	0.28	12.0	1.0	1	20	778	797	778	799	0.94
18	60	0.014	0.76	10.6	1.4	1	23	851	874	851	874	0.96
19	60	6.3	3.5e+02	2.2	0.4	2	23	900	922	899	922	0.88
20	60	0.064	3.6	8.5	0.6	3	23	946	967	945	967	0.96
21	60	0.00059	0.033	14.9	1.8	1	23	972	995	972	995	0.97
22	60	0.05	2.8	8.8	0.2	2	23	1000	1022	999	1022	0.94
23	60	0.069	3.9	8.4	0.5	2	23	1028	1050	1027	1050	0.90
24	60	7.8e-05	0.0044	17.7	1.7	1	23	1054	1077	1054	1077	0.98
25	60	0.00037	0.021	15.5	2.0	1	23	1166	1189	1166	1189	0.97
26	60	0.039	2.2	9.2	0.6	3	23	1263	1284	1261	1284	0.92
27	60	0.0013	0.072	13.8	1.7	1	23	1289	1312	1289	1312	0.94
28	60	0.025	1.4	9.8	1.1	1	23	1317	1340	1317	1340	0.96
29	60	0.0072	0.4	11.5	2.4	2	23	1346	1368	1345	1368	0.92
30	60	0.0001	0.0056	17.3	6.6	1	23	1372	1395	1372	1395	0.97
31	60	0.0034	0.19	12.5	0.4	2	23	1402	1423	1401	1423	0.97
32	60	4.7	2.6e+02	2.6	0.6	1	11	1429	1439	1429	1446	0.80
33	60	0.31	17	6.3	0.4	1	23	1480	1503	1480	1503	0.96
34	60	0.23	13	6.7	0.1	2	23	1533	1555	1532	1555	0.95
35	60	0.054	3.1	8.7	0.4	2	23	1578	1600	1577	1600	0.94
36	60	0.024	1.4	9.8	4.8	1	23	1605	1628	1605	1628	0.97
37	60	0.38	21	6.0	0.7	1	23	1633	1656	1633	1656	0.92
38	60	0.038	2.2	9.2	0.8	2	23	1662	1684	1661	1684	0.90
39	60	0.0037	0.21	12.4	0.3	2	23	1692	1714	1691	1714	0.97
40	60	0.0066	0.37	11.6	0.1	2	23	1721	1742	1720	1742	0.96
41	60	8.2e-07	4.6e-05	23.9	0.3	1	23	1748	1770	1748	1770	0.97
42	60	0.0081	0.46	11.3	1.7	1	23	1812	1835	1812	1835	0.95
43	60	0.12	6.9	7.6	0.0	3	23	1864	1885	1864	1885	0.94
44	60	1.1	64	4.6	0.0	2	23	1908	1930	1907	1930	0.94
45	60	0.0028	0.16	12.7	2.0	1	23	1935	1958	1935	1958	0.95
46	60	0.032	1.8	9.4	1.9	2	23	1962	1984	1961	1984	0.94
47	60	0.002	0.11	13.2	0.3	1	23	1990	2013	1990	2013	0.93
48	60	0.013	0.74	10.6	0.5	2	23	2021	2043	2020	2043	0.96
49	60	0.29	16	6.4	0.9	1	23	2048	2070	2048	2070	0.98
50	60	1e-06	5.7e-05	23.6	1.0	1	23	2076	2098	2076	2098	0.99
51	60	0.017	0.95	10.3	0.1	2	21	2105	2124	2105	2125	0.94
52	60	0.48	27	5.7	1.0	1	23	2207	2229	2207	2229	0.97
53	60	0.29	16	6.4	0.1	2	23	2255	2277	2254	2277	0.91
54	60	0.58	33	5.5	0.1	3	23	2301	2322	2299	2322	0.93
55	60	0.0013	0.073	13.8	0.5	3	23	2330	2351	2329	2351	0.98
56	60	0.2	11	6.9	1.7	1	23	2356	2379	2356	2379	0.96
57	60	1.7	95	4.0	4.9	1	23	2383	2406	2383	2406	0.95
58	60	0.0043	0.24	12.2	1.7	2	23	2413	2435	2412	2435	0.95
59	60	0.11	6.3	7.7	2.0	1	23	2441	2463	2441	2463	0.94
60	60	0.014	0.79	10.6	0.7	1	22	2469	2490	2469	2492	0.85

Sequence Information

Coding Sequence: ATGTCGAGACACAATATTTATATTACTCAACACACAGAAGGTCCAAATGGGTCAAGTCGTCTTATCTGTGAGGTTTGCATTACAAGGCTCCGGGATGCATGCAACTTCAAAAAGCAGGTGTTTGAATCGGAAAAGAAGTTTGTTGATATGGTCGGAAGAGGTGATTTTAAACCAAAAGCTGTGATAGTATTGGAGGCTACTCCATTGAAAACGGAGTTCCCTGACCCAATGCCCGGACCCTCCGAAAATGAGTGTGAAATTGAATATCTGGAAGACGACAATGATTATACTGATGACTACAGAGACGACGAGCCTCTGCAAAAGTTACAAGCAGCTGGTATCACCGTCTCCAGCCTCTCCGTGAAAGGCAAGCGTGGCAAGAAACGTTCTGCGGAAACGACAAAGCCAGTCAAGGCGGAGAAAAAGAAGAAGTCTGAAGCAAAATCCAAGTCTAAAGCTAGCAAAGGTATATCAGTTAGAAACTCGAGCGACGAGCGACCTATGTCGTCAACGAAACGCAATCGACTCATGAAGAAAAACGCTATATTACTAATAGAATCAACAAATATAGTGCCCTTTAAATGGCATAGACAAAATTATTTATGCTTTTATTGTCACAAAACTTTCAAAGACCCGGATTTATTGAAAAAACACACAAATTTTGATCACAAGAAAGATGTTTTAAAATCTGCCGTGAATTATTTAAGACGAGACGAGAAAGTTAAAGTTGACGTTTCTACGATTGTTTGTGAAATTTGTAAAGCTAATTTAGATACTGTAGATGAATTGAAATCTCATCTTGAAGTGGAGCACAGTAAAAAGTTTTTTGACACGAATTTGGGTTTGATACCTTACAAACTAGATAAAGATGAATTCAAGTGTGCTTTATGTGATTTAAGTTTTGATTATTTCATTAAATTAAACCAACATATGAATGAGCATTTTGGTAGTTATATTTGTGAGGCGTGCGGCAAATCGTTTCTAAGTCAAGATAGACTGCGTTGTCATTCACTCAGTCACACGACTATTAAATGTCAATCTTGCCCTCTTACTTTCCAATCTATAACTCAAAGAAATAACCATCAAATACAAGAACACAAACGAGTAAAACAAGTCAAATGTTTCTATTGTAACGATACATTTAGCAGTTATGCTTTGAGAAAAAATCACCTCAGATCTGAACATAAAATCGATATACCTGAGTTCATGTGTTCGGTTTGTGGTAAGGTGTTCCAAATTAAAAGTAAGATGCGGAGTCACGTTAAAGAAGTCCATGATAGGGAACGAAATTTCGGGTGTCCGATTTGTGATCAGAAATTCTTCTCGAAAACTCACGTTCAGAAACATATGATTAAACACTACGGTGATCGTGTGCATGAATGTAATATCTGCAATAAGTCGTACGCACGAAAGCAAACTTTAAGAGATCACATGCGGATACATGATAGTGAAAAGTCGTTTGTTTGTCCAGTGTGTCCTAAAAGTTTTGTTCAAAATAATAGTTTCAAATTGCATTTAAAGCACCTGAGTCAGTCCTTAGAAGTAAAATTAGTAATAAAAGTGAAGCCTTCATTAAAAGGGTACATTTATTCAGAAGAACGTTTCTTTTCAGATGAAATAAAGCTGATGGAAACGCTCTGGGATTCACTCGCTGTAAAACGGAGGCACAATCTTCAAATTATATTCAACTTCACATCAATTATTCCGTTCAAATGGGCAGCGAAATATATGTGTTTTTATTGTGATAAGTCATTTAACGAAGCGGACAGATTAGCACTGAGAAAACATACGAAATACCACGGTGAATGTTTCCCGGATAACTATGCTATTAAACAACTAGTTGATTCAAATAAGAGCGTCAAAGTTGATGTATCACAAATCACATGCGAACTGTGTAGTACCAATTTCGATCGGCTCGATGAGATTTTGATTCATGTTAACACTACGCACGATTTGGAATATGTACCCAATGTCAACGTTAATCTTGAGCCGTATTCGCTAAATAACTTAAAATGTCTAATGTGTTATAAAAATAATAACAGTTTTTCTCAGTTAGAAGTACATATTAAACAGGTACACCCAATCGGTTATGCGATATGCTCGACATGCGGTCAAAGGTTCAATTCTCAATTAAATCTAGATGTTCACATTGATAGTTATCACTCACCAGGTGAATTTGTCTGCGATATGTGTCCCCAAACATTCTCTACCAACGATGGTCTGGATTTCCATAAGGAATTGCTTCACGATTCGATCTGCGAGATCTGTCTCCAGCCCTTCCCCACAGTTAAGCTGAAGCAACGGCACATTCATGCTAAGCACGTTACTAAGTTCAAATGCTTTGCTTGCTCTAAAACTTTCGAGACTAAAGGGTCTTTAAGGCAGCACACTGCCAAATGTTTCACTTTAAAAGGCACGGATATTAGAATTAAAGTCTTGGAAGGTGAGCAAGAAGACATGACTAAAGATGTTGTTAAGACTATGCGCTTCAATATGTTCAATGTTTTAAATATGTGCACGATTATTCCGTTCAAATGGTTCATGAATAGATTCAGATGCTTCTATTGTCAGTTGGACTTCAACGATTCCCAGGAGTTAAGGGAGCATAGCATTACTAAGCACACAAGTTGTGACTTGAAAGATTTGAAGAGGTGTAAAGGGGAACAAGGGGAAGTGAAAGTTGATACGTCTTCTCTCATTTGCAAAGAATGCTCGGCTGTTTTTGATAGTTTAGATAAATGCATTGAGCATTTGATTTCTAATCACAAGTTGGATTATGACAAGTCGGCGGGTACGTCGTTCCAAGAGTTCAAATTGCATCCAAAAGAGATGTTATGTCCGTTTTGTAATGAAAAATTCTCGTTCTTCGGGAATATATTGAAACATATAAATGAGAAGCATTTTGAGAAGAATTTCGTTTGTACTTACTGCGGTTTGTTCTTCTGCAAAGAAGTCAATCTTCGCGGCCATATTAACAGCCAACACAATGTTGGTTTGCAATGTACTATGTGTCCAGTTAAGTTGCAGAATAAAAGCAAGCTTATTATTCACATGGCCAATAATCATGGTGAGAAAATTTCTAAATGCACCATGTGTTCGGAGAGCTTCACCAGTCCGTACGTGAGAGCGAAACATATGGTAGAAAAACACAACCTAGAATACAAATGCAAATATTGCGCTAAAATATACCCTAAGAACTCATTCTTGCAGAAGCATATTAAGACTGTTCATCCAGATAAAATAGACGATTATTCGGAGCCATCTACGTCTTCCATGTTGGATGTAAAAGATGTTAAAAAAGAACCTAAGACAGAGGATGATTTTGATATAGATTTAATGTCTGTACTTGATTGTGTGACTGAAGGACAGGTAATTCAACCAGAAGAAGCGCCGTACGTAAGAAAATCCAATGGAGAAATGAGCCGTAGAAAGCGCAATCTCCAACTAGTACTTAACATGTCTACGGTCTTGCCTTTCAAATGGTTTTTGAGCAGTTTCCGTTGCTTCTATTGCAAGCGCAACTTCTCCGATCCAGAATTATTAAAGGAGCACACCTTAAAAACTCATTTCGAGTATTTTGAGTTGAAGAAAGCGTTGAAGCGTTATAAAGGAGAGAACGTTACTGTTAAAGTCGATGTTTCGTCCCTTTCTTGTCGTATCTGTTCCTCTCACTTTGACGATATAAACGTTTTGATTGATCATTTAATTATGTCGCACGATGCTGATTATGACAAGACGTTAACTGACTGCTTTATGCCATTCCGTTTGATGGAAGATAACATGATCTGCTTAGTTTGTGGTGAGAAGTTCACGTTCTTCGGTCATCTATTGATACATTACAACGATCAGCATTTGTCTAAGGACCATATTTGCAGTTTCTGCGGCCTGACGTTCTCTAAATTTGTTAATTTACGAGCGCATATATCTAATCGGCATAGCGAGGATACTCACACATGCGCTGATTGCAGTTCCGAGTTTCCGTCTAAATCCCGTCTTCTAACCCACATGGCACGTAATCATGGCACTAAGGTTTCTAAATGCAGGCATTGCGATGAGAGTTTCACAACTCCTTACTTAAGATCGAAGCACATGGTTGAAAAACACAATCTGGAACACAGATGTCCCCACTGCCACAAAGTCTTTCCTAAGAACTCCACAATGAAGACTCACATTCGAAGGGTCCACTTAAGGGAACGCAACGTTCAATGTGATGTTTGCAGTGAAAAGTTCTTTGATAACACGCTGTTGAGACTCCACATGGTTAAGCATGAGGGCGTGAGGAATTTCAAATGTGATTACTGTGGTACAAAATTATATACAGATGAAGACTATGCTAAGAAAGACGAAGTAATACGCAAGAATTTAGTGAAGCGTAGAAATGTTGAGTATGTACTGCAGTACTCTAATGTAACACCATTTGTGTGGAATCAGAGCCGTTTCAAATGTTTCTACTGTTTGGAGATAATTAAAACACCTCAGCTGTTAAGAGAGCATACGATCAAAGTACACCAATTCGCTAATTTGGAACTGGCTGTTTTTGATAGAATGAAAACTGGTAGACGGGACGCTGCAATTAAAATAGACGTAACAGACATAACGTGTAACCTATGTTCAACTAATCTACCTAACTTAGAACAATTAATTAATCATCTCATTATAACACACGATGCAGAGTACGATACGTCAGTTCAAAATTGTTTACTGCCTTTCAAATTTAATAATGACAACATGGTGTGCGCGTCCTGTGATCAGAGATTTGTTTCGTTCGAATATTTACTTCGTCACGCGAATAAATTTCATCTGGAGCATAATTATAAGTGCGAAATTTGCTCCCAATCATTTCAAGGAGAGAACCATTTGCAAATGCATCATAGGTATTATCATAAGGAGGGAGGTTATAAGTGCAGTATTTGTAACATAACACTTTCGACCTTATCGCGTAAAACGTTGCACGAAAAGAATGTTCACTTACTTAATTTATCAACTTGCCCTCACTGCCCAGAGACGTTTAAGAGTCCATACATAAAGAAGCAGCATATGGCTAACGTTCACAGTGTTGAAGAGTTAAAGATAAAATGCCCATTTTGCACGAAAGTTTACCCACAAGCGAGCATAATGTCGCGTCATATGCGTAGAGTACATTTACGCGAGAAAAATGTTTCGTGCGAGATTTGTGGAGATCAGTTCTTTGGTCCTTATGATCTGAAGAACCACATGTTGAGGCATAATGGAGAAAAGAGATTCATTTGTAGTATATGTGGTAAGAAATTTACAAAGGTGAGCAATTTAAACGCTCATATTAACGTCCATACAGGAGGGCGACTGAGCACAACAGAATCCGATAACTGGGAAAAACTCGCTAAAATCCGAAGAAATGTACTGAATATTTTGCAATATGGAAACGTGATTCCATTCCAATGGTTTAGTAGAGGATTCCGATGCTTTTACTGTAATAAACTCCTAAAAGACCCAGATTCATTAAAGACTCATACGTTAAATACTCATTTTGAAGTAGATTTAGTTAGTGTTGTTTATGAGAAGGTGAAAACTAGGTTTGTGCCTATTAAACTTGATGTAAGTGAATTAGGGTGCAATGTTTGTGGTATTCCTTTCGATGGGCTACAAGATCTCATAAATCATATAATAGACATACATGAAGAAGAATACGACTTTTCCTATGACTGTGTTTTTCCTTTTATTCTAAACAACGATGGGTTAATTCCTTGTGCAGTTTGCGAGGCAGTTTTTGATAATTTCGCTTCTGTAGTTACTCATATGTATAAGGAACATATAGACAAATCTCACATGTGCCAAATATGTGGTTTGACCTTTATGGATTCGATTCGCTTGAAGCGACATTTAAAAAATTACCACATAGGTTGCCAATGTAAAATTTGTAACAAGAATTTAGACTCGTATCAAAAATTGATCAGACACAGAGAAGTGGCACATGGTGTTATTAAGAATTATTTGTGCGACACTTGTGATGCGACGTTCAAGAACGATTACCTATTAAAAGTACATATGGGTAAAGTACACAACGTAGCTAAATACAGAATTAAATGCGAGTTTTGTCCCAAAATTTGTACAACCAAGGGTGCTATGGTCTTGCATATTCAGTCTTTGCATTGCGATCCGCGATTTCAATGTGATACTTGCGGTTATAAGACTGGGATTAAATGGGTGCTCAAGTTACATAAGCGGAAGCACCTCGGGGAGAAGACTTACGAGTGTAGTGTATGTCAAAGATTATTCAGAAGGTCCAGTAATCTTAGAGCTCATATGAAAGTCCATACTGGAAATGTAGGACGGGTCTGCCGTTGGTGCAGACGTGGGTTTACGAGTAATGAGGACTTGGAGATACATCAAAAGGAGAGTAATTGTAATGAACGGTTACTACCCGAAGGTGGCCAGAAGGTGGTAAAAACAAATCAAAAACAGAACGAAAGTGAAAAAACAGATTTGGAAGAACCAATAGAAAATACAGAAACAACATTAGGTAAAAAAGGGCCTAAGAAACGTTTAACGCTTTACGAGAAGAGATTTTACATGCGTAAGAATATAACTGAAGTGTTACTAAAATCGAACGTAATGCCTTTTAGATGGTTGAAGAGTAGTTACAGATGCTTTTATTGTTATGATATATTCGAAGAACCACAGGATTTGAAGGAACACCAACAATTCCATATCGACGATGATGCAAAACGAAAAACAATTGACAATTATTGGGAATCCGTTGTCTATGTTGATATAACTAATTTAACTTGTAAACTGTGTACACAACCATCATCAGATCTTTATGATTTAATCGATCATTTAATTGATAAACACAATGTTGACTATAATAAAGACGTAGGCATGTGTATGATAGGTTTTAAACTTGACAACTTATCAGTTAGTTGTCTAGCGTGTGGTGCTGTTTTTCGAACCTTTGGTCCATTATTAACCCATACAAATAAGGACCATAAAGGTAGTTCAGCTATTTTATGCGAGGTCTGCGGTCAACATTTCAAAGATGTGAATTTGCTACGAGCTCATGTTAAGACTGTTCACGAGATGATTGTGTTTGTGTGCGCTGAGTGCGATGAACGTTTCGAATGTAGATCTAAACTATTGACTCACGAGCGAAATTCGCACGGGAAGAAGCATAAATGTTTAGTTTGTTCTGAGAGTTTTGTGTCTCACTACAAACGGTCTCAGCATATGTCGCTCAAACACAAAAATAGGCCTACAATTAAATGTTTGCATTGTGAGAAGACGTTTGTCTTCAGAAGTATGATGATGAGCCATTTGCGAGACGCCCATCTTAAGGAACGCAACCACGTTTGCACTGTGTGTGGTTGGAAGGCCTTCAACACGTATAGATTGACCAACCACATGTATAAACACAGCGGGGAGAAGAATTTTAAGTGTGGAGTTTGTGATAAAGCGTTTACAACTAAGAAGATAATGAGAGCCCATTTTGTTAGGATGCATTCGAATGGACGGTCTAATATTGACTTTATTGATGTTACAATGAATTAA
Protein Sequence: MSRHNIYITQHTEGPNGSSRLICEVCITRLRDACNFKKQVFESEKKFVDMVGRGDFKPKAVIVLEATPLKTEFPDPMPGPSENECEIEYLEDDNDYTDDYRDDEPLQKLQAAGITVSSLSVKGKRGKKRSAETTKPVKAEKKKKSEAKSKSKASKGISVRNSSDERPMSSTKRNRLMKKNAILLIESTNIVPFKWHRQNYLCFYCHKTFKDPDLLKKHTNFDHKKDVLKSAVNYLRRDEKVKVDVSTIVCEICKANLDTVDELKSHLEVEHSKKFFDTNLGLIPYKLDKDEFKCALCDLSFDYFIKLNQHMNEHFGSYICEACGKSFLSQDRLRCHSLSHTTIKCQSCPLTFQSITQRNNHQIQEHKRVKQVKCFYCNDTFSSYALRKNHLRSEHKIDIPEFMCSVCGKVFQIKSKMRSHVKEVHDRERNFGCPICDQKFFSKTHVQKHMIKHYGDRVHECNICNKSYARKQTLRDHMRIHDSEKSFVCPVCPKSFVQNNSFKLHLKHLSQSLEVKLVIKVKPSLKGYIYSEERFFSDEIKLMETLWDSLAVKRRHNLQIIFNFTSIIPFKWAAKYMCFYCDKSFNEADRLALRKHTKYHGECFPDNYAIKQLVDSNKSVKVDVSQITCELCSTNFDRLDEILIHVNTTHDLEYVPNVNVNLEPYSLNNLKCLMCYKNNNSFSQLEVHIKQVHPIGYAICSTCGQRFNSQLNLDVHIDSYHSPGEFVCDMCPQTFSTNDGLDFHKELLHDSICEICLQPFPTVKLKQRHIHAKHVTKFKCFACSKTFETKGSLRQHTAKCFTLKGTDIRIKVLEGEQEDMTKDVVKTMRFNMFNVLNMCTIIPFKWFMNRFRCFYCQLDFNDSQELREHSITKHTSCDLKDLKRCKGEQGEVKVDTSSLICKECSAVFDSLDKCIEHLISNHKLDYDKSAGTSFQEFKLHPKEMLCPFCNEKFSFFGNILKHINEKHFEKNFVCTYCGLFFCKEVNLRGHINSQHNVGLQCTMCPVKLQNKSKLIIHMANNHGEKISKCTMCSESFTSPYVRAKHMVEKHNLEYKCKYCAKIYPKNSFLQKHIKTVHPDKIDDYSEPSTSSMLDVKDVKKEPKTEDDFDIDLMSVLDCVTEGQVIQPEEAPYVRKSNGEMSRRKRNLQLVLNMSTVLPFKWFLSSFRCFYCKRNFSDPELLKEHTLKTHFEYFELKKALKRYKGENVTVKVDVSSLSCRICSSHFDDINVLIDHLIMSHDADYDKTLTDCFMPFRLMEDNMICLVCGEKFTFFGHLLIHYNDQHLSKDHICSFCGLTFSKFVNLRAHISNRHSEDTHTCADCSSEFPSKSRLLTHMARNHGTKVSKCRHCDESFTTPYLRSKHMVEKHNLEHRCPHCHKVFPKNSTMKTHIRRVHLRERNVQCDVCSEKFFDNTLLRLHMVKHEGVRNFKCDYCGTKLYTDEDYAKKDEVIRKNLVKRRNVEYVLQYSNVTPFVWNQSRFKCFYCLEIIKTPQLLREHTIKVHQFANLELAVFDRMKTGRRDAAIKIDVTDITCNLCSTNLPNLEQLINHLIITHDAEYDTSVQNCLLPFKFNNDNMVCASCDQRFVSFEYLLRHANKFHLEHNYKCEICSQSFQGENHLQMHHRYYHKEGGYKCSICNITLSTLSRKTLHEKNVHLLNLSTCPHCPETFKSPYIKKQHMANVHSVEELKIKCPFCTKVYPQASIMSRHMRRVHLREKNVSCEICGDQFFGPYDLKNHMLRHNGEKRFICSICGKKFTKVSNLNAHINVHTGGRLSTTESDNWEKLAKIRRNVLNILQYGNVIPFQWFSRGFRCFYCNKLLKDPDSLKTHTLNTHFEVDLVSVVYEKVKTRFVPIKLDVSELGCNVCGIPFDGLQDLINHIIDIHEEEYDFSYDCVFPFILNNDGLIPCAVCEAVFDNFASVVTHMYKEHIDKSHMCQICGLTFMDSIRLKRHLKNYHIGCQCKICNKNLDSYQKLIRHREVAHGVIKNYLCDTCDATFKNDYLLKVHMGKVHNVAKYRIKCEFCPKICTTKGAMVLHIQSLHCDPRFQCDTCGYKTGIKWVLKLHKRKHLGEKTYECSVCQRLFRRSSNLRAHMKVHTGNVGRVCRWCRRGFTSNEDLEIHQKESNCNERLLPEGGQKVVKTNQKQNESEKTDLEEPIENTETTLGKKGPKKRLTLYEKRFYMRKNITEVLLKSNVMPFRWLKSSYRCFYCYDIFEEPQDLKEHQQFHIDDDAKRKTIDNYWESVVYVDITNLTCKLCTQPSSDLYDLIDHLIDKHNVDYNKDVGMCMIGFKLDNLSVSCLACGAVFRTFGPLLTHTNKDHKGSSAILCEVCGQHFKDVNLLRAHVKTVHEMIVFVCAECDERFECRSKLLTHERNSHGKKHKCLVCSESFVSHYKRSQHMSLKHKNRPTIKCLHCEKTFVFRSMMMSHLRDAHLKERNHVCTVCGWKAFNTYRLTNHMYKHSGEKNFKCGVCDKAFTTKKIMRAHFVRMHSNGRSNIDFIDVTMN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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