Basic Information

Insect: Beris morrisii
Gene Symbol: Zbtb41
Assembly: GCA_951812415.1
Location: OX638312.1:104975516-105027001[-]

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 0.0032 0.39 12.2 4.9 1 23 82 104 82 104 0.99

2 60 0.0015 0.18 13.2 1.6 1 23 110 133 110 133 0.98

3 60 0.00071 0.086 14.3 1.5 1 23 141 163 141 163 0.98

4 60 0.0002 0.024 16.0 3.0 1 23 169 192 169 192 0.96

5 60 0.00094 0.11 13.9 0.7 1 23 202 224 202 224 0.98

6 60 0.0029 0.35 12.4 1.3 1 23 230 253 230 253 0.97

7 60 0.011 1.4 10.5 1.3 1 23 260 282 260 282 0.98

8 60 0.22 27 6.4 3.7 1 23 288 311 288 311 0.93

9 60 0.0057 0.69 11.4 1.0 1 23 321 343 321 343 0.98

10 60 0.00025 0.03 15.7 2.3 1 21 349 369 349 372 0.96

11 60 0.0004 0.049 15.0 1.3 1 23 383 405 383 405 0.99

12 60 0.0051 0.61 11.6 0.8 1 23 411 434 411 434 0.93

13 60 0.00037 0.044 15.2 3.0 1 23 444 466 444 466 0.99

14 60 0.00035 0.042 15.2 0.4 1 23 472 495 472 495 0.97

15 60 0.032 3.9 9.1 0.2 1 23 505 527 505 527 0.95

16 60 0.00013 0.015 16.6 2.6 1 23 711 733 711 733 0.99

17 60 0.93 1.1e+02 4.4 4.1 1 23 739 762 739 762 0.93

18 60 0.015 1.8 10.1 0.8 1 23 772 794 772 794 0.98

19 60 0.00042 0.051 15.0 2.1 1 21 800 820 800 823 0.96

20 60 0.00068 0.083 14.3 1.5 1 23 834 856 834 856 0.99

21 60 0.0051 0.61 11.6 0.8 1 23 862 885 862 885 0.93

22 60 0.00037 0.044 15.2 3.0 1 23 895 917 895 917 0.99

23 60 0.0038 0.47 11.9 4.8 1 23 1165 1187 1165 1187 0.99

24 60 0.00068 0.083 14.3 1.3 1 23 1193 1216 1193 1216 0.98

25 60 0.00071 0.086 14.3 1.5 1 23 1224 1246 1224 1246 0.98

26 60 0.69 84 4.8 3.5 1 23 1252 1275 1252 1275 0.92

27 60 0.0031 0.38 12.2 1.7 1 23 1285 1307 1285 1307 0.98

28 60 0.00025 0.03 15.7 2.3 1 21 1313 1333 1313 1336 0.96

29 60 0.00058 0.07 14.5 1.4 1 23 1347 1369 1347 1369 0.99

30 60 0.0052 0.64 11.5 0.9 1 23 1375 1398 1375 1398 0.93

31 60 0.0013 0.16 13.4 1.9 1 23 1408 1430 1408 1430 0.99

32 60 0.00052 0.064 14.7 0.3 1 23 1436 1459 1436 1459 0.97

33 60 2.6 3.2e+02 3.0 1.4 1 23 1469 1491 1469 1491 0.86

34 60 0.071 8.6 8.0 7.7 2 23 1624 1645 1623 1645 0.97

35 60 0.0029 0.36 12.3 1.9 1 23 1651 1674 1651 1674 0.97

36 60 0.0009 0.11 13.9 1.3 1 23 1682 1704 1682 1704 0.99

37 60 0.00051 0.061 14.7 0.4 1 23 1710 1733 1710 1733 0.98

38 60 0.0007 0.085 14.3 4.3 1 23 1742 1764 1742 1764 0.97

39 60 1 1.2e+02 4.3 0.5 1 11 1770 1780 1770 1783 0.90

40 60 0.00015 0.019 16.3 2.4 2 23 1910 1931 1909 1931 0.97

41 60 0.8 97 4.6 4.9 1 23 1937 1960 1937 1960 0.96

42 60 0.0011 0.14 13.6 1.6 2 23 2242 2263 2241 2263 0.97

43 60 0.00086 0.1 14.0 1.2 1 23 2269 2292 2269 2292 0.98

44 60 0.0025 0.3 12.6 1.1 1 23 2317 2340 2317 2340 0.98

45 60 0.00017 0.021 16.2 1.4 1 23 2350 2372 2350 2372 0.99

46 60 6.1e-05 0.0074 17.6 0.9 1 23 2378 2401 2378 2401 0.98

47 60 0.00032 0.039 15.3 3.2 1 23 2412 2434 2412 2434 0.99

48 60 0.00062 0.075 14.4 2.1 1 23 2440 2463 2440 2463 0.98

49 60 1.3 1.5e+02 4.0 2.3 1 23 2473 2495 2473 2495 0.98

50 60 1.6e-05 0.002 19.4 2.2 2 23 2502 2524 2501 2524 0.96

51 60 0.00024 0.03 15.7 0.4 1 23 2534 2556 2534 2556 0.99

52 60 0.034 4.1 9.0 3.7 1 23 2562 2585 2562 2585 0.97

53 60 0.00011 0.014 16.8 0.4 2 23 2601 2622 2600 2622 0.97

54 60 0.0079 0.96 11.0 0.2 1 23 2680 2702 2680 2702 0.98

55 60 0.043 5.3 8.6 0.6 1 17 2708 2724 2708 2725 0.92

56 60 0.0016 0.2 13.1 1.3 2 23 2741 2762 2740 2762 0.98

57 60 0.0087 1.1 10.8 0.5 1 23 2768 2791 2768 2791 0.98

58 60 0.097 12 7.5 4.2 1 23 2801 2823 2801 2823 0.99

59 60 0.00086 0.1 14.0 3.3 1 23 2829 2852 2829 2852 0.97

60 60 3.2 3.9e+02 2.7 2.8 2 23 2868 2889 2867 2889 0.96

#	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	0.0032	0.39	12.2	4.9	1	23	82	104	82	104	0.99
2	60	0.0015	0.18	13.2	1.6	1	23	110	133	110	133	0.98
3	60	0.00071	0.086	14.3	1.5	1	23	141	163	141	163	0.98
4	60	0.0002	0.024	16.0	3.0	1	23	169	192	169	192	0.96
5	60	0.00094	0.11	13.9	0.7	1	23	202	224	202	224	0.98
6	60	0.0029	0.35	12.4	1.3	1	23	230	253	230	253	0.97
7	60	0.011	1.4	10.5	1.3	1	23	260	282	260	282	0.98
8	60	0.22	27	6.4	3.7	1	23	288	311	288	311	0.93
9	60	0.0057	0.69	11.4	1.0	1	23	321	343	321	343	0.98
10	60	0.00025	0.03	15.7	2.3	1	21	349	369	349	372	0.96
11	60	0.0004	0.049	15.0	1.3	1	23	383	405	383	405	0.99
12	60	0.0051	0.61	11.6	0.8	1	23	411	434	411	434	0.93
13	60	0.00037	0.044	15.2	3.0	1	23	444	466	444	466	0.99
14	60	0.00035	0.042	15.2	0.4	1	23	472	495	472	495	0.97
15	60	0.032	3.9	9.1	0.2	1	23	505	527	505	527	0.95
16	60	0.00013	0.015	16.6	2.6	1	23	711	733	711	733	0.99
17	60	0.93	1.1e+02	4.4	4.1	1	23	739	762	739	762	0.93
18	60	0.015	1.8	10.1	0.8	1	23	772	794	772	794	0.98
19	60	0.00042	0.051	15.0	2.1	1	21	800	820	800	823	0.96
20	60	0.00068	0.083	14.3	1.5	1	23	834	856	834	856	0.99
21	60	0.0051	0.61	11.6	0.8	1	23	862	885	862	885	0.93
22	60	0.00037	0.044	15.2	3.0	1	23	895	917	895	917	0.99
23	60	0.0038	0.47	11.9	4.8	1	23	1165	1187	1165	1187	0.99
24	60	0.00068	0.083	14.3	1.3	1	23	1193	1216	1193	1216	0.98
25	60	0.00071	0.086	14.3	1.5	1	23	1224	1246	1224	1246	0.98
26	60	0.69	84	4.8	3.5	1	23	1252	1275	1252	1275	0.92
27	60	0.0031	0.38	12.2	1.7	1	23	1285	1307	1285	1307	0.98
28	60	0.00025	0.03	15.7	2.3	1	21	1313	1333	1313	1336	0.96
29	60	0.00058	0.07	14.5	1.4	1	23	1347	1369	1347	1369	0.99
30	60	0.0052	0.64	11.5	0.9	1	23	1375	1398	1375	1398	0.93
31	60	0.0013	0.16	13.4	1.9	1	23	1408	1430	1408	1430	0.99
32	60	0.00052	0.064	14.7	0.3	1	23	1436	1459	1436	1459	0.97
33	60	2.6	3.2e+02	3.0	1.4	1	23	1469	1491	1469	1491	0.86
34	60	0.071	8.6	8.0	7.7	2	23	1624	1645	1623	1645	0.97
35	60	0.0029	0.36	12.3	1.9	1	23	1651	1674	1651	1674	0.97
36	60	0.0009	0.11	13.9	1.3	1	23	1682	1704	1682	1704	0.99
37	60	0.00051	0.061	14.7	0.4	1	23	1710	1733	1710	1733	0.98
38	60	0.0007	0.085	14.3	4.3	1	23	1742	1764	1742	1764	0.97
39	60	1	1.2e+02	4.3	0.5	1	11	1770	1780	1770	1783	0.90
40	60	0.00015	0.019	16.3	2.4	2	23	1910	1931	1909	1931	0.97
41	60	0.8	97	4.6	4.9	1	23	1937	1960	1937	1960	0.96
42	60	0.0011	0.14	13.6	1.6	2	23	2242	2263	2241	2263	0.97
43	60	0.00086	0.1	14.0	1.2	1	23	2269	2292	2269	2292	0.98
44	60	0.0025	0.3	12.6	1.1	1	23	2317	2340	2317	2340	0.98
45	60	0.00017	0.021	16.2	1.4	1	23	2350	2372	2350	2372	0.99
46	60	6.1e-05	0.0074	17.6	0.9	1	23	2378	2401	2378	2401	0.98
47	60	0.00032	0.039	15.3	3.2	1	23	2412	2434	2412	2434	0.99
48	60	0.00062	0.075	14.4	2.1	1	23	2440	2463	2440	2463	0.98
49	60	1.3	1.5e+02	4.0	2.3	1	23	2473	2495	2473	2495	0.98
50	60	1.6e-05	0.002	19.4	2.2	2	23	2502	2524	2501	2524	0.96
51	60	0.00024	0.03	15.7	0.4	1	23	2534	2556	2534	2556	0.99
52	60	0.034	4.1	9.0	3.7	1	23	2562	2585	2562	2585	0.97
53	60	0.00011	0.014	16.8	0.4	2	23	2601	2622	2600	2622	0.97
54	60	0.0079	0.96	11.0	0.2	1	23	2680	2702	2680	2702	0.98
55	60	0.043	5.3	8.6	0.6	1	17	2708	2724	2708	2725	0.92
56	60	0.0016	0.2	13.1	1.3	2	23	2741	2762	2740	2762	0.98
57	60	0.0087	1.1	10.8	0.5	1	23	2768	2791	2768	2791	0.98
58	60	0.097	12	7.5	4.2	1	23	2801	2823	2801	2823	0.99
59	60	0.00086	0.1	14.0	3.3	1	23	2829	2852	2829	2852	0.97
60	60	3.2	3.9e+02	2.7	2.8	2	23	2868	2889	2867	2889	0.96

Sequence Information

Coding Sequence: ATGGATAATCTCAACGAATATTGGCATTATACTGAAGAGCATTTTGAActaattaaaacagaaaatatagaaaattgcTTCACATCAAATACTGAACAACAAGAAGAGGATGAAATACTAGGTTCCAATCAAGGCTTCACGAAAAAAGAGATATTTCTCATTCAAGAAGTGAAGCAAGAACCCGAAATCGAAATAAACATGGAAGAAATAGACTTTGACGAAACAATAAcgaaagctagaaattttaaatgtacAACATGTTCGAAATTATTCGAAGAGAAATATAAATTGCATCAGCATATGAGAATTCATACAGGAGAAAAACCATTCCAGTGCGAAGAATGTCCGAACAAATATAGACTGAAGAACTCTTTGACGACACATATGCAACGGACACATGCCGATATAACTACTCGAAAGTTTAAATGTTTAACATGTTTGAAGTTTTTCGAATATAAAAGTGAGTTGGAAGCGCATATGACAAATCATACAGGAGAAAAGCCCTTTCAGTGCGAAGTATGTTCGAAAAAATATCGCTTTAAATCCAGTTTGACTGAACATATGTACTCGAAACATGCCGATAAACAGACGTGTACTGCAAAATTTACTTGTGAGATATGTTCGAAATTATATGGACAAAAATCTAAATTGGATGAGCATATGAGACTTCATACAGGAAACAAACCATTCGAGTGCGAAGAGTGTCCGATGAAATATCGGCTTAAATGTTCGTTGACTGAACATATACGAAATGTACATCTCGGTGTAAGAGGAAAGTTTAAATGTGCGACATGTATGAAATTATTCACACGTAAGAATAGTTTGGATATGCATATAAGAATTCATACAGGAGAAAAGCCATTTGAGTGCGAGTTATGTTCGACAAAATACCGGTCTAAGCACATTTTGCAGAAACATATGTTCGAAAAACATGTCGATAAAACAACATCTACTGCAAAATTTACTTGTACGATATGTTCGAAATTATTCCAAGAGAAAAATCAATTGGATCGGCATATAACAATTCACACAGGAGAGAAACCATTCCAGTGCGAATTATGTCCGAAAAAATTTCGCttaaatggaaatttgaaatcacATATACGATGTGTTCATGACGGTATAAGAAGACCCATCGCTAAAAAGTTTAAATGTTCAACGTGCTCGAAACTATTCGAACGTGAAAATCGTTTAAATGCGCATATGAGAATTCATACCGAAGAAAAGCCATTTCAATGCGAAGTATGTTCGAAAAAATATCGGTTTGAGATCAGTTTGACCGAACATATGTACGCGACACATGCCGATAGAATGACGAATACTACAAATTATACTTGTGAGATATGTTCGAAATTATACCGACAGAAATGTAAATTGGAGGACCATATGAGAATTCATACTGGTGAAAAGCCGTTTCAATGTGAAGTATGTCCAATAAAATATCGATTAAAGGGAAGCTTGCAGAAACATATACTAAGGAGTCATGCCGATATAATACCAGATAGTATAAAGTTCGAATGTGCACCATGTTCCAAATTGTTCGAAAGTAAAGCTCGGTTGAATGATCATATGAGAATTCATAGCGGTGAACTACCATTCCAGTGCAAAGACACAATGGATTTAAAGAAAGTGTGTAGAACTTGCCTTGATCCCAGCGGATCTTTGAGGTCTATTTTTAGTTCGATTCAGTTGACAAATATTGAAGACACCGAAGTTCCAATTCTTGAAATGCTGGAAGTGTTCGATATTTTgGTATCTCCTACTGATAGACTTCCCGATAAGATTTGTTGCGATTGTCTCAAAAAAGTACAACAATCgtatattttcaaaaacaaattcgatcaaGCACAATCCATTTTGAAGGAATTGAAGAACAGTGGAAAAGATATGGATAATCTCAACGAATATTGGCATTATACTGAAGAGCATTTTGAActaattaaaacagaaaatatagaaaattgcTTCACATCAAATACTGAACAACAAGAAGAGGATGAAATACCAGGTTCCAATCAAGACTTTACGAAAAAAGAGATATTTGTCATTCAAGAAGTGAAGCAAGAACCCGAAATCGAAATAAACATGGAAGAAATAGACTTTGATGAAACAATAAcgaaaactagaaattttaaatgtacAACATGTTCGAAATTATTCACACGTAAGAATAGTTTAGATTTGCATATGAGAATTCATACAGGAGAAAAGCCATTTGAGTGCGAGTTATGTTCGACAAAGTACCGGTCTAAGCACATTTTGCAGAAACATCTGTTCCAAAAACATGACGATAGAACAACGTCTACTGCAAAATTTACTTGTACAATATGTTCGAAATTATTCCAAGAGAAAAATCAATTGGATCAGCATATAACAATTCATACAGGAGAGAAACCATTCCAGTGCGGATTATGTCCGAAAAAATTTCGCttaaatggaaatttgaaatcacATATACGATGTGTTCATGACGGTATAAGAAGACCCATCGCTAAAAAGTTTAAATGTTCAACGTGCTCGAAACTATTCGAACGTGAAAATCGTTTAAATGTGCATATGAGAATTCATACCGAAGAAAAGCCATTTCAATGCGAAGTATGTTCGAAAAAATATCGGTTTGAGATCAGTTTGACCGAACATATGTACGCGACACATGCCGATAGAATGACGAATACTACAAATTATACTTGTGAGATATGTTCGAAATTATACCGACAGAAATGTAAATTGGAGGACCATATGAGAATTCATACTGGTGAAAAGCCGTTTCAATGTGAAGTATCTCCTACCGATAGTCTTCCCGATAAGATTTGTTGCGATTGTctcaaaaaattacaacaatcGTATACTTTCAAGTTAGAATTCGATCAATCACAATCCATTTGGATGCAATTAAAGGACAATGGAAAAAGTGTGAATAACCTCAACGGAGACGGGATTTGTACCGAAGAGGCTATCGTCGAACaaattaaaacagaaaattgCTTCACATCAAATAATGAACTACACGAACTGGCTAGTATACCAGATTCCGAACAAGGCTTTACGAAAAAGAAGATATTTATCGTTCAAAAAGTCAAGCAAGAACCCGAAATTGATATAAACTTAGAAGAAATATCGCCTATCGATACTTTTCCCGATAAGATTTGTTGCGATTGTctcaaaaaattacaacaatcGTATATTTTCAAGATAAAATTCGATCAAGCACAATCCATTTTGAAGGAATTGAACAACAGTGGAAAAGATATGGATAATCTCAACGAATATTGGCATTATACTGAAGAGCATTTTGAActaattaaaacagaaaatatagaaaattgtTTCACATCAAATACTGAACAACAAGAAGAGGATGAAATACCAGGTTCCAATCAAGGCTTCACGAAAAAAGAGATATTTCTCATTCAAGAAGTGAAGCAAGAACCCGAAATCGAAATAAACATGGAAGAAATAGACTTTGACGAAACAATAACGAAAACTAGAACTTTTAAATGTGCGACATGTTCGAAATTATTCGAAAAGAAATATAAATTGCATCAGCATATGAGAATTCATACAGGAGAAAAACCATTCCAGTGCGAAGAATGTCCGAACAAATATAGAGTGAAGAACTCTTTGACGTCACATATGCAACGGACACATGCCGATATAATTACTCGAAAGTTTAAATGTTTAACATGTTTGAAGTTTTTCGAATATAAAAGTGAGTTGGAAGCGCATATGACAAATCATACAGGAGAAAAGCTATTTGAGTGCGAGTTATGTTCGACAAAGTACCGGTCTAAGCATATTTTGCAGAAACACCTGTTCGAAAAACATGTCGATAGAACAACATCTACTGCAAAATTTACTTGTACGATATGTTCGAAATTATTCcaaaagaaaaatcaattgGATCGGCATATAACAATTCATACAGGAGAGAAACCATTCCAGTGCGAATTATGTCCGAAAAAATTTCGCttaaatggaaatttgaaatcacATATACGATGTGTTCATGACGGAATAAGAAGACCCATCGCTAAAAAGTTTAAATGTTCAACGTGCTCGAAACTATTCGAAAGTGAAAATCGTTTAAATGCGCATATGAGAATGCATACCGAAGAAAAGCCATTTCAATGCGAAGTATGTTCGAAAAAATATCGGTTTGAGATCAGTTTGACCGACCATATGTACGCGACACATGCCGATAGAATGAAGAATACTACAAATTATACTTGTGAGATATGTTCGAAATTATACGGGCAGAAATGTAAATTGGAGGACCATATGAGAATTCATACTGGTGAAAAGCCGTTTCAATGTGAAGTATGTCCAGTAAAATATCGATTAAAGGGAAGCTTGCAGAAACATATTCTAATGAGCCATGCCGATATAATACCTAATAGTATAAAGTTCGAATGTGCTCCATGTTGCAAACTATTCGATAGTAAAACTCGTTTAAATGATCACATGAGAATTCATACTGGCGAACAACCATTTCAGTGTAAAGTATCTCCTACCGATAGTCTTCCCGATAAAATTTGTTGCGATTGTttcaataaaatacaaaaatcgtATACTTTCAAGACAAAACTCGAGAAAGCACAATCCATTTTGAAGGAATTAAAGGACAATGAAAAAAGTATGAATAATCTCAATGAATATGAGCATTATACTGAAGAGTTTGTCGAAGTAATTAAAACAGAAAACTACTATGCATCAAATAATGAACAAGACCCAATTAGTATACCAGACTCCAAGCAAGGCTTCACGAAAAGAGAGGTGTTTCTCGTTCAAGAAGTCAAGCAAGAACCCGAAATCGAGATAAACATGGAAGAAATAGACTTTgacgaaaaaataatgaacactAGAAAGCTTAAATGTACAACATGTTCGAAATTATTCCATAAGAAATATAAATTGCATCAACATATGAGAATCCATACGGGAGAGAAACCATTCCAGTGCAAAGAATGTCCACAAAAATATCGACTGAGGGGAAGTTTGAAGATGCATACGCAAAGGACACATGCTGATATAACTACTCGAAAGTTTAAATGTGTAACGTGCTTGAAGTTTTTCGAATATAAAAGTGAGTTGGATGCACATATGACAACTCATACAGGAGAAAAGCCCTTTCAGTGCGAAATATGTCCGAACAAGTATCGACTTAAGGGAAGTTTTACGGCACACATGCAAACGGCGCATGCCGATAAAACAAATATTAGAGAATTTATATGTGAAATATGTTCGAAAATATTCCGTCAAAGATGTATGTTGCATGATCATATGAGACTACATACAGGAGAAAAGCCATTTAAGTGTGAAATTTGTCCCAAAAAATATCGTCTGAAGATATCTCCTGACAATAGTTTGCCCGATAGCATTTGTAGCGACtgtcttaaaaaaatacaacaatctTATGCTTTCAAGTTAAAATTCGATCGAGCACAAAGTAGTTTGAAGCATTTAAAGGCCAGTGAAAACGATGAGAGTAATCTCAACGAATATGAGTATTATACTGAAGAGCGTATTGACCtaatgaaaatagaaaaaatagaaCATTGCTATATATCAAATAGTGAACAGCAAGAAGCGGCTATTATATCAGATTCCGAGCAGGACTTTACGAAGCAAGAGATATCTTTTGTTCAACAAGTCAAGCAAGAGCCCGAAGTCGAGATAAACATGGAAGAAAAGGACTTCAACGAAGAAGGAACGAGTACAAACAAGCTTCAATGTGCGACATGTTCGAAATTCTTCCGAAATCGATATAGATTGGTTCAGCATATGAGAACTCATACAGGCGAGAAACCATTTCATTGTGAACTGTGTCCGAACAAATATCAATTCAAGGGAAGCTTGAAGGAACACATGCATAGGACACATGTCGTTATAACACCCAATAATAaTGCAAAGAAGAACACAATGGATTTAACGGAAGTGTGCCGAACCTGTCTCGTATCCAGCGAATCTGTACGATCTATTTTCAGTACGGTTCAGCTGACAAATTTTGAAGTCAGCAACCTATCAGTTGTTGAAGTGCTAAAACTTTTCGATATTTCGATAACTCCAGACAACGGTTTACCCGATATCATTTGTTGCAATTgtcttgaaaaaataaaacaatcttATAATTTCAAGTTAAAATTCGAACAAACGGAAGCCACCTTCAAGCATTTAAAGCAGAGTGGAAAAAGTGATAACAATCTCAACGAATATGAACATTATACTGAATGCTTTACGAAGCACGAGATACCTATTATTCAACAAGTCAAGCAAGAACCCGAAATCGAGATAAATATGGAAGGTGACTTTGACGAAGACTTGAAGGACATATCTCCTGACAACGGCTTACCAGATAGTGTTTGTAGCGAGTGTAtcaaaaaaatacaacaatcGTATAATTTCAAGTTAAAATTCGAACAAACAGAAGCCATTTTAAAACAGCTAAAGGACAATGGAAAAAGTGTGAACGTGTCTATGAACTCTCCCGACGAAGATGGAAATAATACTAAAGGTGATATTGAACTAATTAAAACTGAACAGACTGAATATTATTGTACATCAAATGATGAACAATTAGAACGAACGAATTTGCCAACGATCTTTGTACAAGACGCTACGAAGCAAGAGATTTCTCTTGTTCAAGAAGTAAAACAAGAACCTGCAATAGAGATAAGCACGGAAGAAGTagattttgacgaaaaaatagCGAACACTAGAAAGCTTAAATGTTCGATATGTTCGGAATTATTCCAAAAGAAATATAAATTGAATCAGCATATGAGAATTCATACAGGAGAGAAGCCATTCCAGTGCGAAGAATGTCCGAACAAATATCGACTAAAGGGAAGTTTGACGACACATATGCAACGAAGACATGCCGATATAACTACTAGGAAGTTTAAATGTGTAACATGTTCGAAATTTTTCGGATACAAAAGAGAAAAGCCATTTCAGTGTGAATTATGTCCGGACAAGTTTCGTCTTAAGGGCAGTTTGAAGTCACATATGCAAAGAACACATGCCGATGTAACAATTGATTCTAGAAAGTTTAAATGTGGAACGTGTTCGAAACTATTCGAACGTAAAGATCGTTTGAACGAGCACATGAGAATTCATACAAGAGAAAAACCATTTGAGTGCGAAGTATGCTCGAAAAAATTTCGGGTTTATCGCAGTTTAACGGAACATATGCAAACGATTCATGCTGATGTAGCAACGATAACTTCTACACTATTTAAATGTGCGATATGTTCGAAATTATTCCGACATAAATACAAGTTGGATGAGCATATGAGAATTCATACAGGCGAAAAGCCATTTCAATGTGAAATATGTCCGAACAAATTTCGGCTTAAGGGATGTTTGACAGCGCATATGCAAAGGACACATGCCGGCATAACAGTGGATAGTAGAAAGTTTAAATGTTCGACATGTTCGAAACTATTTGAATGTGAAGTTCGTTTGAATGAACATATTAGAATTCATACCGGAGAAAAACCACTGCAGTGCGACGTATGTCCGAAAAGATTTCGATTTAAGTGCAATTTGAAGGCACATATGCAAAGTGCACATTCCGCTTTAGCAACTGATTCTAGAAAGTTTCAATGTGCTCTATGTTCGAAGGTATTCGAACGTAAAGTTCGTTTGGACGAGCATATGAGAATTCATACAGGAGAAAAACCATTTCAGTGTGAAGTTTGTCCAAATATTTTTCGAACTAAGTACTTCTTGAAATGTCATATGAATAGAATGCATGAAGTTCAATCACAGGATATGGAGAAGTCAGATACTAAGAAGATTAGATGCGCGATATGTTTGAAATCGTTCGAATATAAAAGTCAGTTGGATGACCATATGAGAAGTCATACAGGAGAAAAACCATTCCAGTGTAAATTAGAAGTGACGAGTGTACCTGAGATTTCCGGGCAAGGATTTACGAAGCAATCGATATCCTTCGTCCAAAATGTAAAGCAAGATCCCGAAATCGATATAAACTTAGAAGGAGATATAAAGGAAGCAAGCACGAACACTGGAGAGTTCAAATGCGATACATGTTCGAAATCGTCCGGATATGAAAGTGATTTAGATGATCATATGGAAGTTCATACACGAGACAAACCATTTCAGTGCGATGAGTGTccgaaacaatttcgatttaagCGTAGTTTGGCACAACGTACCAAAATAGCACATGCAGAAAGAATAACGAGCACTAGACAAAAATGTGCGATATGTAGGAAATTATTtcgatataaatataaattggaTGAACATATGAGAATTCATACAGGAGAGAAGCCATTTCAGTGTGAACTATGTCCAAGTAAATTTCGACTTAAGGCACGTTTATCGGCCCATATGCAAAGTTCACATGCTGATATAACAAATGATACTAGAAAGTTTAAATGTGCGACATGTTCGAAACTATTCGAATGTCAAGTTCATTTAAATGATCATATGAGAATTCATACGGGAGAAAAACCGTTCAATTGCCAGGTTTGTACAAATATCTTTCGGACTAAGTACTTCTTGAAGCGTCATATGCAAAGAATGCATGGCGTTCAATCACACCTTTTGCTAAAGCCGAACACTCGAAAAATTAAATGTACGACATGTTCGAAACTATTCGAGTGTCAACTTCGTTTGAATGAGCATATGAGAATTCATACAGGAGAAAAACCATTTCAGTGCGAAAATTGTCCGAAAATTTGGATTTAA
Protein Sequence: MDNLNEYWHYTEEHFELIKTENIENCFTSNTEQQEEDEILGSNQGFTKKEIFLIQEVKQEPEIEINMEEIDFDETITKARNFKCTTCSKLFEEKYKLHQHMRIHTGEKPFQCEECPNKYRLKNSLTTHMQRTHADITTRKFKCLTCLKFFEYKSELEAHMTNHTGEKPFQCEVCSKKYRFKSSLTEHMYSKHADKQTCTAKFTCEICSKLYGQKSKLDEHMRLHTGNKPFECEECPMKYRLKCSLTEHIRNVHLGVRGKFKCATCMKLFTRKNSLDMHIRIHTGEKPFECELCSTKYRSKHILQKHMFEKHVDKTTSTAKFTCTICSKLFQEKNQLDRHITIHTGEKPFQCELCPKKFRLNGNLKSHIRCVHDGIRRPIAKKFKCSTCSKLFERENRLNAHMRIHTEEKPFQCEVCSKKYRFEISLTEHMYATHADRMTNTTNYTCEICSKLYRQKCKLEDHMRIHTGEKPFQCEVCPIKYRLKGSLQKHILRSHADIIPDSIKFECAPCSKLFESKARLNDHMRIHSGELPFQCKDTMDLKKVCRTCLDPSGSLRSIFSSIQLTNIEDTEVPILEMLEVFDILVSPTDRLPDKICCDCLKKVQQSYIFKNKFDQAQSILKELKNSGKDMDNLNEYWHYTEEHFELIKTENIENCFTSNTEQQEEDEIPGSNQDFTKKEIFVIQEVKQEPEIEINMEEIDFDETITKTRNFKCTTCSKLFTRKNSLDLHMRIHTGEKPFECELCSTKYRSKHILQKHLFQKHDDRTTSTAKFTCTICSKLFQEKNQLDQHITIHTGEKPFQCGLCPKKFRLNGNLKSHIRCVHDGIRRPIAKKFKCSTCSKLFERENRLNVHMRIHTEEKPFQCEVCSKKYRFEISLTEHMYATHADRMTNTTNYTCEICSKLYRQKCKLEDHMRIHTGEKPFQCEVSPTDSLPDKICCDCLKKLQQSYTFKLEFDQSQSIWMQLKDNGKSVNNLNGDGICTEEAIVEQIKTENCFTSNNELHELASIPDSEQGFTKKKIFIVQKVKQEPEIDINLEEISPIDTFPDKICCDCLKKLQQSYIFKIKFDQAQSILKELNNSGKDMDNLNEYWHYTEEHFELIKTENIENCFTSNTEQQEEDEIPGSNQGFTKKEIFLIQEVKQEPEIEINMEEIDFDETITKTRTFKCATCSKLFEKKYKLHQHMRIHTGEKPFQCEECPNKYRVKNSLTSHMQRTHADIITRKFKCLTCLKFFEYKSELEAHMTNHTGEKLFECELCSTKYRSKHILQKHLFEKHVDRTTSTAKFTCTICSKLFQKKNQLDRHITIHTGEKPFQCELCPKKFRLNGNLKSHIRCVHDGIRRPIAKKFKCSTCSKLFESENRLNAHMRMHTEEKPFQCEVCSKKYRFEISLTDHMYATHADRMKNTTNYTCEICSKLYGQKCKLEDHMRIHTGEKPFQCEVCPVKYRLKGSLQKHILMSHADIIPNSIKFECAPCCKLFDSKTRLNDHMRIHTGEQPFQCKVSPTDSLPDKICCDCFNKIQKSYTFKTKLEKAQSILKELKDNEKSMNNLNEYEHYTEEFVEVIKTENYYASNNEQDPISIPDSKQGFTKREVFLVQEVKQEPEIEINMEEIDFDEKIMNTRKLKCTTCSKLFHKKYKLHQHMRIHTGEKPFQCKECPQKYRLRGSLKMHTQRTHADITTRKFKCVTCLKFFEYKSELDAHMTTHTGEKPFQCEICPNKYRLKGSFTAHMQTAHADKTNIREFICEICSKIFRQRCMLHDHMRLHTGEKPFKCEICPKKYRLKISPDNSLPDSICSDCLKKIQQSYAFKLKFDRAQSSLKHLKASENDESNLNEYEYYTEERIDLMKIEKIEHCYISNSEQQEAAIISDSEQDFTKQEISFVQQVKQEPEVEINMEEKDFNEEGTSTNKLQCATCSKFFRNRYRLVQHMRTHTGEKPFHCELCPNKYQFKGSLKEHMHRTHVVITPNNNAKKNTMDLTEVCRTCLVSSESVRSIFSTVQLTNFEVSNLSVVEVLKLFDISITPDNGLPDIICCNCLEKIKQSYNFKLKFEQTEATFKHLKQSGKSDNNLNEYEHYTECFTKHEIPIIQQVKQEPEIEINMEGDFDEDLKDISPDNGLPDSVCSECIKKIQQSYNFKLKFEQTEAILKQLKDNGKSVNVSMNSPDEDGNNTKGDIELIKTEQTEYYCTSNDEQLERTNLPTIFVQDATKQEISLVQEVKQEPAIEISTEEVDFDEKIANTRKLKCSICSELFQKKYKLNQHMRIHTGEKPFQCEECPNKYRLKGSLTTHMQRRHADITTRKFKCVTCSKFFGYKREKPFQCELCPDKFRLKGSLKSHMQRTHADVTIDSRKFKCGTCSKLFERKDRLNEHMRIHTREKPFECEVCSKKFRVYRSLTEHMQTIHADVATITSTLFKCAICSKLFRHKYKLDEHMRIHTGEKPFQCEICPNKFRLKGCLTAHMQRTHAGITVDSRKFKCSTCSKLFECEVRLNEHIRIHTGEKPLQCDVCPKRFRFKCNLKAHMQSAHSALATDSRKFQCALCSKVFERKVRLDEHMRIHTGEKPFQCEVCPNIFRTKYFLKCHMNRMHEVQSQDMEKSDTKKIRCAICLKSFEYKSQLDDHMRSHTGEKPFQCKLEVTSVPEISGQGFTKQSISFVQNVKQDPEIDINLEGDIKEASTNTGEFKCDTCSKSSGYESDLDDHMEVHTRDKPFQCDECPKQFRFKRSLAQRTKIAHAERITSTRQKCAICRKLFRYKYKLDEHMRIHTGEKPFQCELCPSKFRLKARLSAHMQSSHADITNDTRKFKCATCSKLFECQVHLNDHMRIHTGEKPFNCQVCTNIFRTKYFLKRHMQRMHGVQSHLLLKPNTRKIKCTTCSKLFECQLRLNEHMRIHTGEKPFQCENCPKIWI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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