Basic Information

Insect: Prosopocoilus inquinatus
Gene Symbol: Zbtb41
Assembly: GCA_036172665.1
Location: CM069876.1:47266892-47297240[+]

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 86 0.004 0.25 12.8 1.0 1 23 36 58 36 58 0.97

2 86 0.2 13 7.5 2.2 3 23 66 86 64 86 0.98

3 86 0.2 13 7.4 2.9 3 23 94 114 92 114 0.97

4 86 0.74 46 5.7 4.0 1 23 120 142 120 142 0.98

5 86 0.015 0.92 11.0 3.1 1 23 148 170 148 170 0.98

6 86 0.16 10 7.8 3.3 2 23 177 198 176 198 0.96

7 86 0.01 0.64 11.5 6.6 1 23 213 235 213 235 0.98

8 86 0.029 1.8 10.1 3.9 3 23 271 291 269 291 0.98

9 86 0.024 1.5 10.4 3.2 2 23 298 319 297 319 0.96

10 86 0.25 16 7.2 5.0 1 23 325 347 325 347 0.97

11 86 0.071 4.5 8.9 6.0 1 23 353 375 353 375 0.97

12 86 0.00081 0.05 15.0 3.6 1 23 381 403 381 403 0.98

13 86 0.037 2.3 9.8 4.7 1 23 409 431 409 431 0.97

14 86 0.086 5.4 8.6 4.3 1 23 437 459 437 459 0.97

15 86 0.086 5.4 8.6 4.0 1 20 465 484 465 486 0.93

16 86 0.00024 0.015 16.7 1.1 1 23 499 521 499 521 0.99

17 86 0.078 4.9 8.8 2.4 1 23 527 549 527 549 0.98

18 86 0.0078 0.49 11.9 2.3 1 23 555 577 555 577 0.97

19 86 0.034 2.1 9.9 2.7 1 23 583 605 583 605 0.97

20 86 0.068 4.3 8.9 6.0 1 23 611 633 611 633 0.97

21 86 0.097 6.1 8.5 4.3 1 23 639 661 639 661 0.98

22 86 0.052 3.3 9.3 8.1 1 23 667 689 667 689 0.97

23 86 1.4 90 4.8 2.4 3 23 697 717 695 717 0.96

24 86 0.15 9.1 7.9 5.7 1 23 723 745 723 745 0.97

25 86 0.37 23 6.6 1.2 2 22 763 783 762 783 0.93

26 86 0.00035 0.022 16.2 0.3 2 23 797 818 797 818 0.97

27 86 0.0032 0.2 13.1 4.7 3 23 826 846 824 846 0.98

28 86 0.015 0.97 11.0 2.7 3 23 854 874 852 874 0.97

29 86 0.065 4.1 9.0 5.5 2 23 881 902 880 902 0.96

30 86 0.045 2.8 9.5 2.6 1 23 908 930 908 930 0.97

31 86 0.083 5.2 8.7 6.0 1 23 936 958 936 958 0.97

32 86 0.46 29 6.3 2.3 1 23 964 986 964 986 0.96

33 86 0.0019 0.12 13.8 1.1 1 23 992 1014 992 1014 0.97

34 86 0.0034 0.21 13.1 0.4 3 23 1041 1061 1040 1061 0.97

35 86 0.12 7.4 8.2 5.6 2 23 1092 1113 1091 1113 0.96

36 86 0.0017 0.11 14.0 5.3 1 23 1119 1141 1119 1141 0.98

37 86 0.0097 0.6 11.6 1.8 1 23 1147 1169 1147 1169 0.97

38 86 0.16 10 7.7 3.6 1 23 1175 1197 1175 1197 0.97

39 86 0.047 2.9 9.5 5.6 1 23 1203 1225 1203 1225 0.97

40 86 0.0016 0.098 14.1 3.8 1 23 1231 1253 1231 1253 0.97

41 86 0.0013 0.082 14.3 1.3 3 23 1261 1281 1259 1281 0.95

42 86 0.02 1.3 10.6 4.4 1 22 1287 1308 1287 1308 0.96

43 86 0.00061 0.038 15.4 1.4 2 23 1322 1343 1321 1343 0.97

44 86 1.2e-05 0.00076 20.7 2.1 1 23 1349 1371 1349 1371 0.98

45 86 0.28 17 7.0 5.1 2 23 1399 1420 1398 1420 0.96

46 86 0.0012 0.074 14.5 0.8 1 23 1426 1448 1426 1448 0.98

47 86 0.053 3.3 9.3 4.0 1 23 1454 1476 1454 1476 0.98

48 86 0.056 3.5 9.2 5.4 1 23 1482 1504 1482 1504 0.98

49 86 0.25 15 7.2 11.0 1 23 1510 1532 1510 1532 0.98

50 86 0.37 23 6.6 3.6 1 23 1538 1560 1538 1560 0.96

51 86 0.013 0.8 11.2 3.8 1 23 1566 1588 1566 1588 0.97

52 86 0.0017 0.1 14.0 4.6 1 23 1594 1616 1594 1616 0.98

53 86 0.38 24 6.6 2.6 1 23 1622 1644 1622 1644 0.97

54 86 0.36 23 6.7 3.9 1 23 1674 1696 1674 1696 0.97

55 86 0.02 1.2 10.6 5.0 1 23 1702 1724 1702 1724 0.97

56 86 6.2 3.9e+02 2.8 6.3 1 23 1774 1796 1774 1796 0.97

57 86 0.038 2.4 9.7 8.8 2 23 1803 1824 1802 1824 0.96

58 86 0.091 5.7 8.5 2.9 2 23 1831 1852 1830 1852 0.96

59 86 0.0026 0.16 13.4 2.6 2 23 1859 1880 1858 1880 0.96

60 86 0.48 30 6.3 3.4 3 23 1888 1908 1886 1908 0.97

61 86 0.14 8.8 8.0 1.8 1 23 1914 1936 1914 1936 0.97

62 86 0.015 0.93 11.0 3.0 1 23 1942 1964 1942 1964 0.98

63 86 0.0033 0.21 13.1 3.9 2 23 1971 1992 1970 1992 0.96

64 86 0.12 7.3 8.2 3.7 1 23 1998 2020 1998 2020 0.97

65 86 0.0036 0.23 13.0 0.5 1 23 2026 2048 2026 2048 0.97

66 86 0.25 16 7.2 3.2 1 20 2054 2073 2054 2075 0.94

67 86 0.00038 0.024 16.0 0.5 1 23 2088 2110 2088 2110 0.98

68 86 0.088 5.5 8.6 7.1 3 23 2118 2138 2116 2138 0.98

69 86 0.52 32 6.2 0.6 3 23 2157 2177 2155 2177 0.97

70 86 1.7 1.1e+02 4.5 1.0 3 20 2185 2202 2183 2204 0.95

71 86 0.008 0.5 11.9 0.4 2 23 2220 2241 2219 2241 0.96

72 86 0.31 19 6.9 1.5 3 23 2249 2269 2247 2269 0.96

73 86 0.21 13 7.4 1.7 2 23 2279 2300 2278 2300 0.97

74 86 0.0068 0.42 12.1 2.8 1 23 2306 2328 2306 2328 0.98

75 86 0.38 24 6.6 0.9 3 23 2336 2356 2334 2356 0.97

76 86 0.11 7.1 8.2 4.4 3 23 2364 2384 2362 2384 0.97

77 86 0.22 14 7.3 1.7 2 23 2391 2412 2390 2412 0.96

78 86 0.1 6.5 8.4 7.2 2 23 2419 2440 2418 2440 0.96

79 86 0.018 1.1 10.8 1.6 1 23 2446 2468 2446 2468 0.98

80 86 0.03 1.8 10.1 5.5 1 23 2475 2497 2475 2497 0.98

81 86 0.001 0.063 14.7 2.8 1 23 2503 2525 2503 2525 0.98

82 86 0.0034 0.21 13.1 4.0 1 23 2531 2553 2531 2553 0.97

83 86 0.00013 0.0083 17.5 4.3 1 23 2559 2581 2559 2581 0.98

84 86 0.094 5.9 8.5 5.9 1 23 2587 2609 2587 2609 0.98

85 86 0.029 1.8 10.1 4.6 1 23 2615 2637 2615 2637 0.97

86 86 0.076 4.7 8.8 3.3 1 23 2643 2665 2643 2665 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	86	0.004	0.25	12.8	1.0	1	23	36	58	36	58	0.97
2	86	0.2	13	7.5	2.2	3	23	66	86	64	86	0.98
3	86	0.2	13	7.4	2.9	3	23	94	114	92	114	0.97
4	86	0.74	46	5.7	4.0	1	23	120	142	120	142	0.98
5	86	0.015	0.92	11.0	3.1	1	23	148	170	148	170	0.98
6	86	0.16	10	7.8	3.3	2	23	177	198	176	198	0.96
7	86	0.01	0.64	11.5	6.6	1	23	213	235	213	235	0.98
8	86	0.029	1.8	10.1	3.9	3	23	271	291	269	291	0.98
9	86	0.024	1.5	10.4	3.2	2	23	298	319	297	319	0.96
10	86	0.25	16	7.2	5.0	1	23	325	347	325	347	0.97
11	86	0.071	4.5	8.9	6.0	1	23	353	375	353	375	0.97
12	86	0.00081	0.05	15.0	3.6	1	23	381	403	381	403	0.98
13	86	0.037	2.3	9.8	4.7	1	23	409	431	409	431	0.97
14	86	0.086	5.4	8.6	4.3	1	23	437	459	437	459	0.97
15	86	0.086	5.4	8.6	4.0	1	20	465	484	465	486	0.93
16	86	0.00024	0.015	16.7	1.1	1	23	499	521	499	521	0.99
17	86	0.078	4.9	8.8	2.4	1	23	527	549	527	549	0.98
18	86	0.0078	0.49	11.9	2.3	1	23	555	577	555	577	0.97
19	86	0.034	2.1	9.9	2.7	1	23	583	605	583	605	0.97
20	86	0.068	4.3	8.9	6.0	1	23	611	633	611	633	0.97
21	86	0.097	6.1	8.5	4.3	1	23	639	661	639	661	0.98
22	86	0.052	3.3	9.3	8.1	1	23	667	689	667	689	0.97
23	86	1.4	90	4.8	2.4	3	23	697	717	695	717	0.96
24	86	0.15	9.1	7.9	5.7	1	23	723	745	723	745	0.97
25	86	0.37	23	6.6	1.2	2	22	763	783	762	783	0.93
26	86	0.00035	0.022	16.2	0.3	2	23	797	818	797	818	0.97
27	86	0.0032	0.2	13.1	4.7	3	23	826	846	824	846	0.98
28	86	0.015	0.97	11.0	2.7	3	23	854	874	852	874	0.97
29	86	0.065	4.1	9.0	5.5	2	23	881	902	880	902	0.96
30	86	0.045	2.8	9.5	2.6	1	23	908	930	908	930	0.97
31	86	0.083	5.2	8.7	6.0	1	23	936	958	936	958	0.97
32	86	0.46	29	6.3	2.3	1	23	964	986	964	986	0.96
33	86	0.0019	0.12	13.8	1.1	1	23	992	1014	992	1014	0.97
34	86	0.0034	0.21	13.1	0.4	3	23	1041	1061	1040	1061	0.97
35	86	0.12	7.4	8.2	5.6	2	23	1092	1113	1091	1113	0.96
36	86	0.0017	0.11	14.0	5.3	1	23	1119	1141	1119	1141	0.98
37	86	0.0097	0.6	11.6	1.8	1	23	1147	1169	1147	1169	0.97
38	86	0.16	10	7.7	3.6	1	23	1175	1197	1175	1197	0.97
39	86	0.047	2.9	9.5	5.6	1	23	1203	1225	1203	1225	0.97
40	86	0.0016	0.098	14.1	3.8	1	23	1231	1253	1231	1253	0.97
41	86	0.0013	0.082	14.3	1.3	3	23	1261	1281	1259	1281	0.95
42	86	0.02	1.3	10.6	4.4	1	22	1287	1308	1287	1308	0.96
43	86	0.00061	0.038	15.4	1.4	2	23	1322	1343	1321	1343	0.97
44	86	1.2e-05	0.00076	20.7	2.1	1	23	1349	1371	1349	1371	0.98
45	86	0.28	17	7.0	5.1	2	23	1399	1420	1398	1420	0.96
46	86	0.0012	0.074	14.5	0.8	1	23	1426	1448	1426	1448	0.98
47	86	0.053	3.3	9.3	4.0	1	23	1454	1476	1454	1476	0.98
48	86	0.056	3.5	9.2	5.4	1	23	1482	1504	1482	1504	0.98
49	86	0.25	15	7.2	11.0	1	23	1510	1532	1510	1532	0.98
50	86	0.37	23	6.6	3.6	1	23	1538	1560	1538	1560	0.96
51	86	0.013	0.8	11.2	3.8	1	23	1566	1588	1566	1588	0.97
52	86	0.0017	0.1	14.0	4.6	1	23	1594	1616	1594	1616	0.98
53	86	0.38	24	6.6	2.6	1	23	1622	1644	1622	1644	0.97
54	86	0.36	23	6.7	3.9	1	23	1674	1696	1674	1696	0.97
55	86	0.02	1.2	10.6	5.0	1	23	1702	1724	1702	1724	0.97
56	86	6.2	3.9e+02	2.8	6.3	1	23	1774	1796	1774	1796	0.97
57	86	0.038	2.4	9.7	8.8	2	23	1803	1824	1802	1824	0.96
58	86	0.091	5.7	8.5	2.9	2	23	1831	1852	1830	1852	0.96
59	86	0.0026	0.16	13.4	2.6	2	23	1859	1880	1858	1880	0.96
60	86	0.48	30	6.3	3.4	3	23	1888	1908	1886	1908	0.97
61	86	0.14	8.8	8.0	1.8	1	23	1914	1936	1914	1936	0.97
62	86	0.015	0.93	11.0	3.0	1	23	1942	1964	1942	1964	0.98
63	86	0.0033	0.21	13.1	3.9	2	23	1971	1992	1970	1992	0.96
64	86	0.12	7.3	8.2	3.7	1	23	1998	2020	1998	2020	0.97
65	86	0.0036	0.23	13.0	0.5	1	23	2026	2048	2026	2048	0.97
66	86	0.25	16	7.2	3.2	1	20	2054	2073	2054	2075	0.94
67	86	0.00038	0.024	16.0	0.5	1	23	2088	2110	2088	2110	0.98
68	86	0.088	5.5	8.6	7.1	3	23	2118	2138	2116	2138	0.98
69	86	0.52	32	6.2	0.6	3	23	2157	2177	2155	2177	0.97
70	86	1.7	1.1e+02	4.5	1.0	3	20	2185	2202	2183	2204	0.95
71	86	0.008	0.5	11.9	0.4	2	23	2220	2241	2219	2241	0.96
72	86	0.31	19	6.9	1.5	3	23	2249	2269	2247	2269	0.96
73	86	0.21	13	7.4	1.7	2	23	2279	2300	2278	2300	0.97
74	86	0.0068	0.42	12.1	2.8	1	23	2306	2328	2306	2328	0.98
75	86	0.38	24	6.6	0.9	3	23	2336	2356	2334	2356	0.97
76	86	0.11	7.1	8.2	4.4	3	23	2364	2384	2362	2384	0.97
77	86	0.22	14	7.3	1.7	2	23	2391	2412	2390	2412	0.96
78	86	0.1	6.5	8.4	7.2	2	23	2419	2440	2418	2440	0.96
79	86	0.018	1.1	10.8	1.6	1	23	2446	2468	2446	2468	0.98
80	86	0.03	1.8	10.1	5.5	1	23	2475	2497	2475	2497	0.98
81	86	0.001	0.063	14.7	2.8	1	23	2503	2525	2503	2525	0.98
82	86	0.0034	0.21	13.1	4.0	1	23	2531	2553	2531	2553	0.97
83	86	0.00013	0.0083	17.5	4.3	1	23	2559	2581	2559	2581	0.98
84	86	0.094	5.9	8.5	5.9	1	23	2587	2609	2587	2609	0.98
85	86	0.029	1.8	10.1	4.6	1	23	2615	2637	2615	2637	0.97
86	86	0.076	4.7	8.8	3.3	1	23	2643	2665	2643	2665	0.98

Sequence Information

Coding Sequence: ATGATTTGCGCAAACTTTCAAATTGAGAACGCAAGGAAACTTAAAAAGTCTCTTTGTTTCAGGCCCGCATGGATTTCGAAAGTTAGCATCCTAGATGAAAAGACCTTTATATGCCAGATATGCGATTGTAAGCTTTCGTCCCGCGTGTCATTGCGAAATCACATTCTGATACATACcggtgagaagccgttcggttgtgatctgtgCGACTACAAATGCCGACTCCTTGACGGCTTGAAACGCCACAAACTAACGCACTCCGAAGAGAAGCCGTTCGGCTGCGACtcgtgcgattataaatgccggcaaATCGGAACCTTGAAGCGgcacaagttaacgcacaccgacgagaagtcGTTCAGTTGCGATTcgtgcgattttaaatgccagAGAATTGATTACTTGAAACAACACACACTAACGCACTCCAGCGAGAAACCGTACAATTGcgatctgtgcgattataagtgccgacaGATTGGGACCTTGAAGCGACACAAGATAACGCACACCGACCAGAAGGCCCTCAgttgcgacctttgcgattacaagtgccgaaAAATCGAAAGCTTGACGAGGCACAAGTTGAAGCACACCGACGGGAAGCATGAGTTAAAGCGCACCGACGCGAAGCCCTTCAGTTGCGATCTATGCGATTTTAAGTGCCGTCAAAATGGACATCTGAAGCGGCACAAGTTAACGCACGCCGGGGAAAAGCCGTACCATTGCGATctatgcgattataaatgcttACGCGTTGAGAGCTTGAAGCTGCACAAGTtgaagcacaccgacgagaagccgttcggttgtgatctttgcgattataaatgccgaagaACCGAAAGCTTGAAAAGGCACAAGCTAACGCATGTCGAAGGGAAGCCGCtgagttgtgatctctgcgattataaatgccgcaGGACGGACAGTTTGAAAGcccacaagttaaagcacaccgacgagaaaccgttcagttgtgatttaTGCGATTTTAAGTGCCGACAAATCGGACACTTGAAGCAGCACAACTTAACGCACATcagcgagaagccgttcagttgtgatctatgcgattataaatgcaggAGAATTGGACACTTGAAGAATCACAAGCTGAAGcacgccgacgagaagccgttcagttgtgatctgtgcGGTTATAGATGCCGGCAGAATTGGAACTTGAAGCAGCACAAGTTGACGCACGCCAGCGAAATgtcgttcagttgtgatctttgcgattataaatgccgacatctTGTTAGTCTGAAACGGCACAAGATAGTGCACACCGATGTGAAGCCGCACAGTTGTgacctgtgcgattataaatgccgacaaatCGGAGACTTGAGGACGCATAAGTTGACgcataccggcgagaagcccttcgcttgtgacctttgcgattatgcTTGCCGAAACACTAAAAACTTGAAGAGACACAAgtgtGAATGGATTCCGAAAGTTGAAATTGCAAATGGAAAGCCATTCCAATGTCGGATATGCGATTCTAAATTTGCGTCGCGTCAGTCTTTGCGAAATCATATCCTGACACATACTGATGAGAAGCCTTTcacttgtgatctttgcgattacaaatgtcgaCTGCCTGACAGATTGAAAACGCACGAGCTAACGCActccggcgagaagccgttcgcttgtgatttatgcgattataaatgccgacaaatTGGGAACCTGAAACAACACAAACTGACGCATTTCGGCCAGAAGCCATACAACTGCgacctgtgcgattataaatgtcggcaAATTGGGAGCCTGAAGCAGCACAAATTAATGCACAGCGACGAGAAAGCGTTCAGctgtgacctctgcgattacaaatgtcggCACGTTAACAACTTGAAGAGGCACAACCTGACCCACACCGGAGAGAAGCCGTACacttgtgatctctgcgattataaatgccgacgcgTTGAGAAACTAAAAatgcacaagttaaagcacacgGACGAAAAGCCGTTTAGTTGTagcctttgcgattataagtgccgaaGAACCGAGCACCTGAAAaggcacaagttaaagcacaccggcgagacgccgttcggttgtgatctgtgcgatttTAAATCCTGTTACATCGAAAACTTGAAGCGGCACAAGGTAACGCACACCGGCGTGAAACCGCACAGCTGCGACGTGTGTGATTATAAGTGCGGGCAAATCGGACACCTGAAAAGGCATAAGCTAACGCACACGAACGAGAAGCCCACCGACAAGAAGCACGCCGACGACGAGAAGTCGTTGATTTGTGATGTGTGCGGCTACAAATGCCGACAGATTGGACGCTTGAAGCAGCACAAGCGCAAACGGATTTCGAAAACGGGAACTGCGAAAGAAAAGACCGCCGAATGTCAGATCTGCGGTTCTAGATTTACATCTCGTGGATACTTGCGAACACATATcttgatacacaccggcgagaagccgttcggttgcgatctatgcgattataaatgccgaaggTACGGTCACCTGAAACGGCACATGTTaatgcacaccggcgagaagccgttcggttgtgatctatgcgattataaatgccgaaggAGCGAAGGCCTGAAACGGCACAAGTTAATGCACGCCGGCGAGAAGCCGATCAGTTGCGATcagtgcgattataaatgccgaaggACTCAGCACTTGAATCGGCACAAGTTAGTgcacaccggcgaaaaaccGTACAGTTGTGAACTGTGCGGTTATAAATGCCGTGAAATTCAAAACTTGAAAAAGCACAACTTAATGCACACCGGCGAGAGGCCGTACaattgtgatctttgcgattataaatgccgaaggAACGAACACCTGAGCCTGCACAAGTtgaagcacaccgacgagaagccgttcagttgtgacctgtgcgattacaagtgccgagCAATTTGGAACTTGAAGCAGCATAAGCTGAACCACTTCGACGAAAAGTCGTTCGCTTGCGATTTGTGCGATTATAGAGGTCGGCATCGCGTTAATTTGAAACAGCACATGTTAATacacaccgatgagaagccgtacagttgtgatctGCGCAAACGGATTTCGAAAGTGGAAACCGTGAAAGGAAAGACTCCCGCATGTCGGATCTGCAATTCTAAATTTGCATCTCGTGCATCTTTGCGAAAACATATCTTGATACATACTGGTGAGAAGCCGGGCAGTTGTGATCCacgcgattataaatgccgctTGAAACGGCGTAAGTTAACACACGACGATGAGAAGCCGCTTAGTTGTGGCctatgcgattataaatgccgaaggATTCAACACTTAAAACGgcacaagttaacgcacaccgatgagaagccgtACAATTGTGATCagtgcgattacaaatgccgacaggCTCAACACCTGAAACAGCACATGTTAATGCACACCGACAAGAAGCCCTTCAATTGTGATATCTGCGATTATAGAGGACGAAGAATTGAACACTTGAATCGACACAAATTAatgcacaccgacgagaagcccttCAGTTGCGATCtatgcgattacaaatgccgtgAAATTCAAAACTTGAAAAGGCACAGCTTGAagcacaccgatgagaagccgtACGATTGcgatctgtgcgattataagtgccgacaAATTGAACACTTGAAAcggcacaagttaaagcacatcGACGAGAAGCCCTTCAGCTGTGAcgtgtgcgattataaatgccgacaaagTGCAAACTTGAAGcagcacaagttaaagcacaccgacgagaagccgttggCTTGTGATCTCTGCGGTTATACGTGCCGACAGAATTGGAACTTGAAGCAGCACAAGTTGATACACGCCGACGAGAAGTCGTTCAGCTGCGatgtttgcgattacaagtgtcgTCATCTCGTTAGTTTGAAGCGACACAGgCGCAAACGGATTTCGAAAGCCGGAGGCGTAAAAAGAAAGATCACCGAATGTCGGATCTGTGATTCTAAATTCACAACTCGCCAGTCTTTGCGAAATCACATTTTGACACATACCGGTGAAAAGCCGTTCATTTGTGACCTTTGCGGATACAAATTCCGACAAGCCGGACACTTGAGAAGGCACAGGTTAACGCATTGTGATCTAAgcgattataaatgccaaaTGATTAAAAGTTTGAAACGGCATAAGTTAACGCTCACCGATGGGAAGCCgcttagttgtgatctttgcgagtACAAATGCCGACAATTGGGACACTTGAAGCAGCATAAGTTAAAGCACACCGATAGGAAGCCGTTTAGTTGTGGTCTTTGCGAGTACAAAAGCCGACAGTTGGGAAACTTGAAGCAGCATatgttaacgcacaccgacgggAAGCCGTacagttgcgatctttgcgaatACAAATGCCGATATTTGGGAAACTTGAAAcaacacaagttaaagcacaccgaTGAAAAACCGTACAGTTGTgacctgtgcgattataaatgcggAAGTATCAGTCATTTGAAACGGCACAAGCTAAAGCACACCGATGAAAAACCGTACagttgtgatctgtgcgattataaatgccgacactCTCATCACCTCAAACAGCACAAGTTAATGCACACCAACGAGTacccgttcagttgtgatctatgcgattataaatgccgaggAAGTGGTCGCTTGAAACGGCATAAGGtaaagcacaccgacgagaagtcGTTCAGCTGTGATTTATGCGACTATAAATGCCGAAGGATTGAAAACTTGAAACGGCACAACTTAAGgcacaccgatgagaagccgtacagttgtgacctatgcgattataaatgccgacaaacTCCACACTTGAAACGGCACATGTTAgtgcacaccgacgagaagacATTCAGCTGTGACttatgcgattataaatgccgaagtATCGAACAGATGAAACAGCACGGGTTAAAGCACACCGACGAAAAGGCGTTTAATTACGACttttgcgattataaaagcTGGCATATGGGGAATTTGAAGAagcacaccgatgagaagccgttcagttgtgatctttgcgattataaatgccggcaaTTTGGACGCTTGAAACAGCACAAGTTAATACACTTCAGCGAAAAGTCGTTCAGTTGCGATTTGTGCGATTACAAGTGTCGGCATCTCGTCAGCTTGAAACGGCACAGGTTAATACACACcgACTTGGAAAAGCACAAGTtaaaacacaccgacgagaaactaTTCAATTGTGATCTACGCGAGTATCAGTGCCATGAAATTCAAAACTTGACAAATCATAATTTCACGCACACTGACAAGAAGCCGCACGCCGATGAGAAGCCATTCAGTTGTGACCATTGCACGTACAAATGCCAACTgtatgaagatttgaaaaagcACGAATTAAAGCACACCGTTGAGAAACCGCTTAGTTGTGATCTATGCGACTATAAATGCCGAACCAATCACCACTTGAAACGTCACAAattaacgcacaccggcgagaagccggtcagctgtgatctgtgcgattttaaatgccgaaGAACTGAACAATTAAAACAGCACAAGTTAGTGCACACCGGCCAAAAGCCGTGGAGTTGTGATTtatgcgattataagtgccgaaGGATTGAGAACTTGAAACGGCACACgctaacgcacaccggcgagaagccgttcggttgtaacatgtgcgattttaaatgccgacaGTTTGGCTACTTGAAGCAGCACAAGCTAATACACTTCAACGAAAAGTCGTTCGCCTGcgatctgtgcgattataaaggCCGGTGTCGCGCTAATTTGAAGCAGCACATgttaacgcacaccggcgagaagccgttcagttgcgattcgtgcgattacaaatgccgtgAAATTCGAAACTTGAAGAAGCACATGCTAgtgcacaccgacgagaagccgtggAGTTGTGACCTATGTGATTATAAGTGCCGAACTGCTCAGCACTTGAAACGGCACGtgctaacgcacaccgacgagaaaccgttcagttgtaatCTGTGCGATTTTAAGTGCCGACAGTTGGAATACTTGAAGGAGCACAAGTCAATACACTTCAGCGAAAAGTCGTTCGCCTGCGATTTCTGCGATTATAAGGGCCGGTATCTGGTTAATTTGAAACGGCACATGTTGATACACACGGGCGAGAAGCCGTACAGTTGTGATCTGTGTGATTATAAGTGCCGACAAGAAATCAGCTTAGAGcggcacaaGTGTGAGCAGATTTCGAAAGCTAAAGCCGTCAAGGGAAAGACATACGAATGTCGGATATGTGATTCGGAATTCACAACTCGTCAATCTTTGCGAAGTCACATACTGATACATACcggtgagaagccgttcggttgtgacgtCTGCGGATACAAATGCCGACACCTTGGTAACTTGAAACAGCACAGatGCCGACACTATGGAAGCTTGAAAGCGCACCAGTTaaagcacaccggcgagaagccgttcggttgtgatctttgcgattataagagTCGACTGGTCGGAAATTTAAAACAGCACAAGTTAACGCACGCCGACGAGAACGCGTTCGGTTGCGaactctgcgattacaaatgccgctACCTCAAAACCTTGGAATGGCACAGgtaTGAATGGATTTCCGAAGCTGAAACCACAAACGAAAAGACCTCCCAATCCAGATGTTGGATATGCGATTCGAAATTCGCATCTCGTCAATCTCTGCGCAATCATGTTCTGATACACACCGGTGAGAAGCCGCTCGCCTGTGATCTTTGCGAGTACAAATGCCGACAGGTGGGACAGTTGAAAGAGCATAAGCTAAAGCacaccggcggcggcggcgaaaaGCCGCTGAGTTGTGAcgtgtgcgattataaatgtcgacaaaTCGGACGCATGCGAGACCACATGTCaacgcacaccgacgaaaaGGCGTACTCTTGCGACCTTTGCGACTACAAATGCCGACGCATTGCGAACTTGAAACTTcacaagttaacgcacaccgacgagaagccgttcggttgtgacgaGTGCGATTATAAAGGACGAAGAATGTTAGACTTGAAGcggcacaagttaaagcacgcCGACgcgaagccgttcggttgtgatcacTGCGAGTACAAATGCCGACAAATTGGAAACTTGAAAAAGCACGAGTCAACGCACACGGACGAGAAGCCGCTGAGTTGTAAtctgtgcgattataagtgccgagaAGCTGCGCGCCTGAAGGAGCACacgttaacgcacaccgacgagaagccgctgtgttgtgacctgtgcgattataaatgccgacgaaCTCAAAACCTGAGGAGGCACAAGCTAACGCACGCCGACAGggagccgttcagttgcgatctgtgcgattataaatccGAGCGGATGACAGATTTGAAAAGgcacaagttaacgcacaccggcgaCCAGAAGCCGTACTTTTGCGATcgatgcgattataaatgccgaaagATCGATAAATTGAAACGGCACATGTCAACgcataccggcgagaaacccTACAGTTGTGACCTGTGCGACTTTAAATGCGCAAGAGATTCGAATCTGAAACGCCACCAGTTAatgcacaccgacgagaagccgttcagttgtgatctctgcgactATACGTGCCGAAGAAGTGAGCATCTGAAACTGCACGCGTTGatgcacaccgacgagaagccgttcagttgcgacctgtgcgattataagtgccggaAGAACGAGAATTTGAAACGGCACatgttaacgcacaccgacgagaagccgttcagctgcgatctttgcgattacaaatgccgacacCTGGTGAGCTTGAAAACGCATAGGTTaaggcacaccgacgagaagccgttcacttGCGATGTTTGCGGTTATAAGTGCCGGCATCTCGTCAGTTTGAAACAGCATAAGTTActgcacaccgacgagaagccgtacagttgcgatctgtgcgattataaaagcCGGCATGTTGTCAGCTTGAAGCGGCACAAGTTAAAGCATACCAGCACAGTGGTCGATGCAGACATGATTGTCCCGGACTAA
Protein Sequence: MICANFQIENARKLKKSLCFRPAWISKVSILDEKTFICQICDCKLSSRVSLRNHILIHTGEKPFGCDLCDYKCRLLDGLKRHKLTHSEEKPFGCDSCDYKCRQIGTLKRHKLTHTDEKSFSCDSCDFKCQRIDYLKQHTLTHSSEKPYNCDLCDYKCRQIGTLKRHKITHTDQKALSCDLCDYKCRKIESLTRHKLKHTDGKHELKRTDAKPFSCDLCDFKCRQNGHLKRHKLTHAGEKPYHCDLCDYKCLRVESLKLHKLKHTDEKPFGCDLCDYKCRRTESLKRHKLTHVEGKPLSCDLCDYKCRRTDSLKAHKLKHTDEKPFSCDLCDFKCRQIGHLKQHNLTHISEKPFSCDLCDYKCRRIGHLKNHKLKHADEKPFSCDLCGYRCRQNWNLKQHKLTHASEMSFSCDLCDYKCRHLVSLKRHKIVHTDVKPHSCDLCDYKCRQIGDLRTHKLTHTGEKPFACDLCDYACRNTKNLKRHKCEWIPKVEIANGKPFQCRICDSKFASRQSLRNHILTHTDEKPFTCDLCDYKCRLPDRLKTHELTHSGEKPFACDLCDYKCRQIGNLKQHKLTHFGQKPYNCDLCDYKCRQIGSLKQHKLMHSDEKAFSCDLCDYKCRHVNNLKRHNLTHTGEKPYTCDLCDYKCRRVEKLKMHKLKHTDEKPFSCSLCDYKCRRTEHLKRHKLKHTGETPFGCDLCDFKSCYIENLKRHKVTHTGVKPHSCDVCDYKCGQIGHLKRHKLTHTNEKPTDKKHADDEKSLICDVCGYKCRQIGRLKQHKRKRISKTGTAKEKTAECQICGSRFTSRGYLRTHILIHTGEKPFGCDLCDYKCRRYGHLKRHMLMHTGEKPFGCDLCDYKCRRSEGLKRHKLMHAGEKPISCDQCDYKCRRTQHLNRHKLVHTGEKPYSCELCGYKCREIQNLKKHNLMHTGERPYNCDLCDYKCRRNEHLSLHKLKHTDEKPFSCDLCDYKCRAIWNLKQHKLNHFDEKSFACDLCDYRGRHRVNLKQHMLIHTDEKPYSCDLRKRISKVETVKGKTPACRICNSKFASRASLRKHILIHTGEKPGSCDPRDYKCRLKRRKLTHDDEKPLSCGLCDYKCRRIQHLKRHKLTHTDEKPYNCDQCDYKCRQAQHLKQHMLMHTDKKPFNCDICDYRGRRIEHLNRHKLMHTDEKPFSCDLCDYKCREIQNLKRHSLKHTDEKPYDCDLCDYKCRQIEHLKRHKLKHIDEKPFSCDVCDYKCRQSANLKQHKLKHTDEKPLACDLCGYTCRQNWNLKQHKLIHADEKSFSCDVCDYKCRHLVSLKRHRRKRISKAGGVKRKITECRICDSKFTTRQSLRNHILTHTGEKPFICDLCGYKFRQAGHLRRHRLTHCDLSDYKCQMIKSLKRHKLTLTDGKPLSCDLCEYKCRQLGHLKQHKLKHTDRKPFSCGLCEYKSRQLGNLKQHMLTHTDGKPYSCDLCEYKCRYLGNLKQHKLKHTDEKPYSCDLCDYKCGSISHLKRHKLKHTDEKPYSCDLCDYKCRHSHHLKQHKLMHTNEYPFSCDLCDYKCRGSGRLKRHKVKHTDEKSFSCDLCDYKCRRIENLKRHNLRHTDEKPYSCDLCDYKCRQTPHLKRHMLVHTDEKTFSCDLCDYKCRSIEQMKQHGLKHTDEKAFNYDFCDYKSWHMGNLKKHTDEKPFSCDLCDYKCRQFGRLKQHKLIHFSEKSFSCDLCDYKCRHLVSLKRHRLIHTDLEKHKLKHTDEKLFNCDLREYQCHEIQNLTNHNFTHTDKKPHADEKPFSCDHCTYKCQLYEDLKKHELKHTVEKPLSCDLCDYKCRTNHHLKRHKLTHTGEKPVSCDLCDFKCRRTEQLKQHKLVHTGQKPWSCDLCDYKCRRIENLKRHTLTHTGEKPFGCNMCDFKCRQFGYLKQHKLIHFNEKSFACDLCDYKGRCRANLKQHMLTHTGEKPFSCDSCDYKCREIRNLKKHMLVHTDEKPWSCDLCDYKCRTAQHLKRHVLTHTDEKPFSCNLCDFKCRQLEYLKEHKSIHFSEKSFACDFCDYKGRYLVNLKRHMLIHTGEKPYSCDLCDYKCRQEISLERHKCEQISKAKAVKGKTYECRICDSEFTTRQSLRSHILIHTGEKPFGCDVCGYKCRHLGNLKQHRCRHYGSLKAHQLKHTGEKPFGCDLCDYKSRLVGNLKQHKLTHADENAFGCELCDYKCRYLKTLEWHRYEWISEAETTNEKTSQSRCWICDSKFASRQSLRNHVLIHTGEKPLACDLCEYKCRQVGQLKEHKLKHTGGGGEKPLSCDVCDYKCRQIGRMRDHMSTHTDEKAYSCDLCDYKCRRIANLKLHKLTHTDEKPFGCDECDYKGRRMLDLKRHKLKHADAKPFGCDHCEYKCRQIGNLKKHESTHTDEKPLSCNLCDYKCREAARLKEHTLTHTDEKPLCCDLCDYKCRRTQNLRRHKLTHADREPFSCDLCDYKSERMTDLKRHKLTHTGDQKPYFCDRCDYKCRKIDKLKRHMSTHTGEKPYSCDLCDFKCARDSNLKRHQLMHTDEKPFSCDLCDYTCRRSEHLKLHALMHTDEKPFSCDLCDYKCRKNENLKRHMLTHTDEKPFSCDLCDYKCRHLVSLKTHRLRHTDEKPFTCDVCGYKCRHLVSLKQHKLLHTDEKPYSCDLCDYKSRHVVSLKRHKLKHTSTVVDADMIVPD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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