Basic Information

Insect: Prosopocoilus inquinatus
Gene Symbol: -
Assembly: GCA_036172665.1
Location: CM069876.1:49738994-49761880[+]

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 84 0.046 2.9 9.5 0.8 1 20 36 55 36 57 0.94

2 84 0.00078 0.049 15.0 1.7 1 23 63 85 63 85 0.98

3 84 0.0021 0.13 13.7 3.6 1 23 91 113 91 113 0.98

4 84 0.003 0.19 13.2 0.4 1 23 147 169 147 169 0.97

5 84 0.028 1.7 10.2 4.1 1 23 175 197 175 197 0.96

6 84 1.6 1e+02 4.6 4.9 1 21 203 223 203 224 0.94

7 84 0.062 3.9 9.1 0.9 1 21 245 265 245 266 0.95

8 84 0.012 0.77 11.3 1.3 1 23 273 295 273 295 0.95

9 84 5.6e-05 0.0035 18.6 2.9 1 23 385 407 385 407 0.97

10 84 0.0027 0.17 13.3 2.7 1 23 413 435 413 435 0.98

11 84 0.56 35 6.1 4.5 1 23 441 463 441 463 0.96

12 84 0.019 1.2 10.7 0.1 1 23 479 501 479 501 0.98

13 84 0.00026 0.016 16.6 1.0 1 23 507 529 507 529 0.98

14 84 0.35 22 6.7 7.0 1 23 535 558 535 558 0.97

15 84 0.0076 0.48 11.9 5.8 1 23 564 586 564 586 0.97

16 84 0.011 0.66 11.5 2.3 1 23 592 614 592 614 0.98

17 84 0.28 18 7.0 1.5 1 23 620 642 620 642 0.96

18 84 0.00037 0.023 16.1 5.3 1 23 676 698 676 698 0.98

19 84 0.65 41 5.9 1.4 3 23 734 754 732 754 0.97

20 84 0.034 2.2 9.9 1.0 1 23 760 782 760 782 0.97

21 84 0.19 12 7.5 4.4 1 23 788 810 788 810 0.98

22 84 0.06 3.7 9.1 9.5 1 23 816 838 816 838 0.97

23 84 0.018 1.2 10.7 3.0 3 23 846 866 844 866 0.97

24 84 0.0011 0.067 14.6 0.7 2 23 888 909 887 909 0.97

25 84 0.0035 0.22 13.0 1.1 1 23 915 937 915 937 0.98

26 84 0.013 0.83 11.2 9.7 1 23 972 994 972 994 0.97

27 84 0.0052 0.33 12.5 6.0 1 23 1000 1022 1000 1022 0.97

28 84 0.058 3.6 9.2 1.5 1 23 1028 1050 1028 1050 0.96

29 84 3.6 2.3e+02 3.5 5.8 1 23 1058 1080 1058 1080 0.95

30 84 0.0024 0.15 13.5 4.7 1 23 1089 1111 1089 1111 0.98

31 84 0.0021 0.13 13.7 4.0 1 23 1145 1167 1145 1167 0.98

32 84 0.025 1.5 10.3 1.6 3 23 1175 1195 1173 1195 0.97

33 84 0.0062 0.39 12.2 2.2 3 23 1203 1223 1201 1223 0.96

34 84 0.74 46 5.7 3.6 1 23 1229 1251 1229 1251 0.97

35 84 0.23 14 7.3 3.7 3 20 1259 1276 1257 1277 0.95

36 84 0.0061 0.38 12.2 1.5 1 23 1308 1330 1308 1330 0.98

37 84 0.2 13 7.5 12.1 1 23 1336 1358 1336 1358 0.98

38 84 0.032 2 10.0 5.1 1 23 1364 1386 1364 1386 0.98

39 84 0.038 2.4 9.8 2.2 1 23 1392 1414 1392 1414 0.97

40 84 0.094 5.9 8.5 1.4 1 23 1420 1442 1420 1442 0.96

41 84 0.00063 0.04 15.3 1.2 1 23 1476 1498 1476 1498 0.97

42 84 0.64 40 5.9 1.1 3 23 1506 1526 1504 1526 0.97

43 84 0.28 17 7.0 3.1 1 23 1532 1554 1532 1554 0.96

44 84 0.0013 0.084 14.3 2.0 3 23 1562 1582 1560 1582 0.98

45 84 0.019 1.2 10.7 2.1 1 23 1588 1610 1588 1610 0.97

46 84 0.62 39 5.9 3.2 1 23 1616 1638 1616 1638 0.97

47 84 0.12 7.4 8.2 3.8 3 21 1646 1664 1644 1665 0.94

48 84 0.035 2.2 9.8 3.9 1 23 1679 1701 1679 1701 0.98

49 84 0.1 6.3 8.4 3.3 1 23 1707 1729 1707 1729 0.98

50 84 0.00012 0.0072 17.7 1.9 1 23 1735 1757 1735 1757 0.99

51 84 5.3 3.3e+02 3.0 4.6 2 23 1762 1783 1761 1783 0.96

52 84 3 1.8e+02 3.8 2.4 1 23 1789 1811 1789 1811 0.97

53 84 0.037 2.3 9.8 0.8 1 23 1817 1839 1817 1839 0.96

54 84 0.57 36 6.0 5.0 1 23 1845 1867 1845 1867 0.96

55 84 0.0011 0.072 14.5 2.7 1 23 1873 1895 1873 1895 0.97

56 84 0.028 1.7 10.2 5.5 1 21 1901 1921 1901 1922 0.95

57 84 0.00019 0.012 17.0 3.2 1 23 1941 1963 1941 1963 0.98

58 84 0.009 0.56 11.7 0.6 1 20 1969 1988 1969 1991 0.94

59 84 6.8 4.3e+02 2.6 2.9 2 23 1998 2019 1997 2019 0.95

60 84 6.8 4.2e+02 2.7 1.1 3 23 2027 2047 2025 2047 0.96

61 84 0.002 0.12 13.8 2.4 1 23 2053 2075 2053 2075 0.97

62 84 0.14 8.7 8.0 3.7 1 23 2081 2103 2081 2103 0.97

63 84 0.98 61 5.3 1.9 1 23 2109 2131 2109 2131 0.98

64 84 0.0082 0.51 11.8 0.8 3 23 2139 2159 2137 2159 0.96

65 84 0.28 18 7.0 3.0 3 20 2167 2184 2165 2186 0.93

66 84 0.003 0.19 13.2 3.1 1 23 2215 2237 2215 2237 0.98

67 84 0.083 5.2 8.7 8.3 1 23 2254 2276 2254 2276 0.98

68 84 3.6 2.2e+02 3.5 3.4 1 23 2282 2304 2282 2304 0.96

69 84 0.017 1.1 10.8 1.7 1 23 2310 2332 2310 2332 0.96

70 84 2.7 1.7e+02 3.9 2.7 1 23 2338 2360 2338 2360 0.97

71 84 0.24 15 7.2 2.5 1 23 2366 2388 2366 2388 0.98

72 84 0.0018 0.11 13.9 1.4 1 23 2394 2416 2394 2416 0.97

73 84 0.0061 0.38 12.2 3.4 1 23 2422 2444 2422 2444 0.98

74 84 0.00031 0.019 16.3 1.5 1 23 2450 2472 2450 2472 0.97

75 84 0.011 0.7 11.4 2.9 1 23 2478 2500 2478 2500 0.97

76 84 0.00065 0.041 15.3 3.0 1 21 2506 2526 2506 2527 0.94

77 84 0.47 29 6.3 0.8 2 23 2541 2562 2540 2562 0.95

78 84 0.14 8.7 8.0 2.6 2 23 2569 2590 2568 2590 0.96

79 84 0.5 31 6.2 4.9 2 23 2597 2618 2596 2618 0.96

80 84 0.23 14 7.3 3.2 1 23 2624 2646 2624 2646 0.96

81 84 0.47 29 6.3 3.2 3 23 2654 2674 2652 2674 0.97

82 84 0.31 19 6.9 1.3 1 23 2680 2702 2680 2702 0.95

83 84 0.23 14 7.3 8.2 1 23 2708 2730 2708 2730 0.97

84 84 1.2 73 5.1 5.0 3 23 2757 2778 2755 2778 0.95

#	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	84	0.046	2.9	9.5	0.8	1	20	36	55	36	57	0.94
2	84	0.00078	0.049	15.0	1.7	1	23	63	85	63	85	0.98
3	84	0.0021	0.13	13.7	3.6	1	23	91	113	91	113	0.98
4	84	0.003	0.19	13.2	0.4	1	23	147	169	147	169	0.97
5	84	0.028	1.7	10.2	4.1	1	23	175	197	175	197	0.96
6	84	1.6	1e+02	4.6	4.9	1	21	203	223	203	224	0.94
7	84	0.062	3.9	9.1	0.9	1	21	245	265	245	266	0.95
8	84	0.012	0.77	11.3	1.3	1	23	273	295	273	295	0.95
9	84	5.6e-05	0.0035	18.6	2.9	1	23	385	407	385	407	0.97
10	84	0.0027	0.17	13.3	2.7	1	23	413	435	413	435	0.98
11	84	0.56	35	6.1	4.5	1	23	441	463	441	463	0.96
12	84	0.019	1.2	10.7	0.1	1	23	479	501	479	501	0.98
13	84	0.00026	0.016	16.6	1.0	1	23	507	529	507	529	0.98
14	84	0.35	22	6.7	7.0	1	23	535	558	535	558	0.97
15	84	0.0076	0.48	11.9	5.8	1	23	564	586	564	586	0.97
16	84	0.011	0.66	11.5	2.3	1	23	592	614	592	614	0.98
17	84	0.28	18	7.0	1.5	1	23	620	642	620	642	0.96
18	84	0.00037	0.023	16.1	5.3	1	23	676	698	676	698	0.98
19	84	0.65	41	5.9	1.4	3	23	734	754	732	754	0.97
20	84	0.034	2.2	9.9	1.0	1	23	760	782	760	782	0.97
21	84	0.19	12	7.5	4.4	1	23	788	810	788	810	0.98
22	84	0.06	3.7	9.1	9.5	1	23	816	838	816	838	0.97
23	84	0.018	1.2	10.7	3.0	3	23	846	866	844	866	0.97
24	84	0.0011	0.067	14.6	0.7	2	23	888	909	887	909	0.97
25	84	0.0035	0.22	13.0	1.1	1	23	915	937	915	937	0.98
26	84	0.013	0.83	11.2	9.7	1	23	972	994	972	994	0.97
27	84	0.0052	0.33	12.5	6.0	1	23	1000	1022	1000	1022	0.97
28	84	0.058	3.6	9.2	1.5	1	23	1028	1050	1028	1050	0.96
29	84	3.6	2.3e+02	3.5	5.8	1	23	1058	1080	1058	1080	0.95
30	84	0.0024	0.15	13.5	4.7	1	23	1089	1111	1089	1111	0.98
31	84	0.0021	0.13	13.7	4.0	1	23	1145	1167	1145	1167	0.98
32	84	0.025	1.5	10.3	1.6	3	23	1175	1195	1173	1195	0.97
33	84	0.0062	0.39	12.2	2.2	3	23	1203	1223	1201	1223	0.96
34	84	0.74	46	5.7	3.6	1	23	1229	1251	1229	1251	0.97
35	84	0.23	14	7.3	3.7	3	20	1259	1276	1257	1277	0.95
36	84	0.0061	0.38	12.2	1.5	1	23	1308	1330	1308	1330	0.98
37	84	0.2	13	7.5	12.1	1	23	1336	1358	1336	1358	0.98
38	84	0.032	2	10.0	5.1	1	23	1364	1386	1364	1386	0.98
39	84	0.038	2.4	9.8	2.2	1	23	1392	1414	1392	1414	0.97
40	84	0.094	5.9	8.5	1.4	1	23	1420	1442	1420	1442	0.96
41	84	0.00063	0.04	15.3	1.2	1	23	1476	1498	1476	1498	0.97
42	84	0.64	40	5.9	1.1	3	23	1506	1526	1504	1526	0.97
43	84	0.28	17	7.0	3.1	1	23	1532	1554	1532	1554	0.96
44	84	0.0013	0.084	14.3	2.0	3	23	1562	1582	1560	1582	0.98
45	84	0.019	1.2	10.7	2.1	1	23	1588	1610	1588	1610	0.97
46	84	0.62	39	5.9	3.2	1	23	1616	1638	1616	1638	0.97
47	84	0.12	7.4	8.2	3.8	3	21	1646	1664	1644	1665	0.94
48	84	0.035	2.2	9.8	3.9	1	23	1679	1701	1679	1701	0.98
49	84	0.1	6.3	8.4	3.3	1	23	1707	1729	1707	1729	0.98
50	84	0.00012	0.0072	17.7	1.9	1	23	1735	1757	1735	1757	0.99
51	84	5.3	3.3e+02	3.0	4.6	2	23	1762	1783	1761	1783	0.96
52	84	3	1.8e+02	3.8	2.4	1	23	1789	1811	1789	1811	0.97
53	84	0.037	2.3	9.8	0.8	1	23	1817	1839	1817	1839	0.96
54	84	0.57	36	6.0	5.0	1	23	1845	1867	1845	1867	0.96
55	84	0.0011	0.072	14.5	2.7	1	23	1873	1895	1873	1895	0.97
56	84	0.028	1.7	10.2	5.5	1	21	1901	1921	1901	1922	0.95
57	84	0.00019	0.012	17.0	3.2	1	23	1941	1963	1941	1963	0.98
58	84	0.009	0.56	11.7	0.6	1	20	1969	1988	1969	1991	0.94
59	84	6.8	4.3e+02	2.6	2.9	2	23	1998	2019	1997	2019	0.95
60	84	6.8	4.2e+02	2.7	1.1	3	23	2027	2047	2025	2047	0.96
61	84	0.002	0.12	13.8	2.4	1	23	2053	2075	2053	2075	0.97
62	84	0.14	8.7	8.0	3.7	1	23	2081	2103	2081	2103	0.97
63	84	0.98	61	5.3	1.9	1	23	2109	2131	2109	2131	0.98
64	84	0.0082	0.51	11.8	0.8	3	23	2139	2159	2137	2159	0.96
65	84	0.28	18	7.0	3.0	3	20	2167	2184	2165	2186	0.93
66	84	0.003	0.19	13.2	3.1	1	23	2215	2237	2215	2237	0.98
67	84	0.083	5.2	8.7	8.3	1	23	2254	2276	2254	2276	0.98
68	84	3.6	2.2e+02	3.5	3.4	1	23	2282	2304	2282	2304	0.96
69	84	0.017	1.1	10.8	1.7	1	23	2310	2332	2310	2332	0.96
70	84	2.7	1.7e+02	3.9	2.7	1	23	2338	2360	2338	2360	0.97
71	84	0.24	15	7.2	2.5	1	23	2366	2388	2366	2388	0.98
72	84	0.0018	0.11	13.9	1.4	1	23	2394	2416	2394	2416	0.97
73	84	0.0061	0.38	12.2	3.4	1	23	2422	2444	2422	2444	0.98
74	84	0.00031	0.019	16.3	1.5	1	23	2450	2472	2450	2472	0.97
75	84	0.011	0.7	11.4	2.9	1	23	2478	2500	2478	2500	0.97
76	84	0.00065	0.041	15.3	3.0	1	21	2506	2526	2506	2527	0.94
77	84	0.47	29	6.3	0.8	2	23	2541	2562	2540	2562	0.95
78	84	0.14	8.7	8.0	2.6	2	23	2569	2590	2568	2590	0.96
79	84	0.5	31	6.2	4.9	2	23	2597	2618	2596	2618	0.96
80	84	0.23	14	7.3	3.2	1	23	2624	2646	2624	2646	0.96
81	84	0.47	29	6.3	3.2	3	23	2654	2674	2652	2674	0.97
82	84	0.31	19	6.9	1.3	1	23	2680	2702	2680	2702	0.95
83	84	0.23	14	7.3	8.2	1	23	2708	2730	2708	2730	0.97
84	84	1.2	73	5.1	5.0	3	23	2757	2778	2755	2778	0.95

Sequence Information

Coding Sequence: ATGATCCATATCAAAATTACGCGAGCATTATTGAAAGATGACTTAATTAAGCCTGACGTGTCTTTAGCGTATTTCTTATGTCAACCGACGGCGAACAAAAGAGCATTCGAATGTACCACGTGCGGTGCAAAGTTTAAAACTCGCGGGCGTTTCGTGAAGCACGTGGCGCACTCtaacgagaaaccgttcaggtGCGccgtctgcgattataaatgtcgactgTCCAGCGATTTGGGAAGACACATGCGAATACAcacgggcgagaagccgttccaGTGCGCGGTCTGCAACTGCGCGTTCAAACTTAAAAGCAATCTGAAGGAACATTTGCATATACACACGGGCGAGAAGCGGTTTAGTTGTGAAGTTTGCGGCTTCAAGTGTCTGAACAGCAGGATCTTGAAACGGCACAAGTTGATTCACACCgatgagaaaccgttcagctgcgacctttgcgattacaagagCGGACGGTCCGAGAACCTGAAGCGGCACGCGTTGATACACACCGGAGAGAAGCCTTTcgcttgcgatctttgcgattatagatgCCGACAGGCGGGACACTTGAGGGAACACAAGTTCACGCATagcggcgagaagccgttcgcttgcgatctttgcgactGCAAGTACCAGAAACCGAAGAGTTTGAAGCGACATAGATGTCAAAGGATTTCCGAACTTGAAACAAACAAGGAAGCAGGCGAGCACGCGCGGACGCAAAAGCCGTTTCGCTGCGCCGTCTGCGACTATAAATGTCGAAAATCAGCGGTCCTGAAACAGCACATGTCAATAcccaccggcgagaagccgttcgcctgcgacctttgcgattataagtgccaaAGGGCCGGGAACCTGAAGCAACACAGGCTGGCGCATAcgaacgagaagccgttcgcttgCGACCTTTGCGATTATGCCGACGGACTTCTAAATCTCGCGCACTCAAACGCCCTACACGCGGTTCCACAAATAAAACTCAAGGTCGTTCCGACGAGCACATGCCGACAcataccgacgagaagccgttcagatGCGCTATCTGCGAATATAAATGCCAGACAGCCTCGCATCTCAGAGACCACGTGCGGACGCAAATGTCATTTACAGCAGCACATCATGTTCAAGCACACGAAAGAGCAGCAATTCGCTTGTAAGATTTGCGATTACCGGTGCACGCAGAAGGGCACCCTGAAGCGCCACATActgacgcacaccggcgagaaaccgttcagctgcGACCTTTGCGAATACAAGTGCGCGCAGAGCGGAAGCTTGAAGCGACACAGgttgacgcacaccggcgagaagcccttCGCCTGCGATCTTTGCGACTACAAGTGCCGACACGGAAGCGCGTTGAAGCTGCACAAGTTCACGCACACCGGTGGAATACCATGCGAATGGATTCCAACGGAGAAAAGAACGTTCGAATGTCCTACCTGCGGTTCGgaatttaaaatcaaagaaCGCCTCGAAGAGCACGTCCTGACTCACACCGGCGACAAACCGTTCAGATGCGTcatctgcgattataaatgtcgattGCCGTCGGATCTCGAGAAACACATgctgatacacaccggcgagaaaccttATCGCTGCGTGCTTTGCAATTACAAGTGCAGACTTAAAAGTCACTTGTCGCAGCACGTTAGGTACAAACACACGGGCGAGAAGCgattctgttgtaaaatttgcAATTACAAGTGCCCTCAGAAGACGGCCCTTAAGCGGCACGTGTTAACACACACCGGAGAAAAGCCGTTCACTTGCGATCTCTGCGAGTTCAGGTGCGGGCGAGCCGCAAGCTTGAAGCGGCACAGattaacgcacaccggcgagaagcctttcgcctgcgatctttgcgattacaagtgtcgAGACGGAAGATCGTTGAGACTGCACGGGTCAACGCACAGCGGCGAAAAGACGTTCTGTTGTGACATTTGCAGTTACAAGTGTCTGAACGAAAGAACCCTGAAGCGGCACTTCTTGAAGCACGTAGATGAAGAACTGTTCAGCTGCGAATTCTGCGACTACAAATGCCGAAGGCCCGCGCATTTGAAACAACACATGCTGACgcataccggcgagaagcccATCGCTTGCgaactttgcgattacaaatgccgatcTATGGCGTCCTTGAAGTTCCATAATTTAAAACACGTCGTCGATAAACCGTACGGTTGTAAGATTTGCGACGCTAAATACCCGTGCAAGAAAACCTTGGCGAAGCACATTTTAAAGCACAGCGGCGAGAAGCCCTTCGCCTGCGGCCTTTGCGATTACAGATGCCGACAGGCAGCGCGattgaaacaacacgctttgactcataccggcgagaaacctTTTACTTGCGATCTCTGCGACtataaatgcagaaagaaaGACTCCTGGAACCTGCACAAGTTGAAGCACACCGGCGATAAGCCATTTTGTTGTAAGATCTGCGACTTTAAATGTCCGCACAAGCACACCTTGGAGCGGCACATGCTGATACACACTGACGacaaaccgttcggttgtgatctttgcgatttcaAGTGCAGGCGAGCCGAGAACCTGAGGCAGCACAGGCTGAGGCATACCGGCGAAAAGCCatGTCAACGGATTTCTAAATCTGACGTCAGCGGCGACGAGAAAACACTCGAATGTCCCACGTGCGGTTCTAAATATAAAACCCAAGGGCGTTTCGAAAAGCACATGCTGACgcataccggcgagaaaccgttcagatGCGTcatctgcgattataaatgtcagTTGCCCTCGGATCTGAAAAGTCACATGCTGATACACACCGACGATAAACCTTTCCAGTGCGCgttttgcgattacaaatgcaaaCTGAAGTGTCATTTGAAGCAGCACGTTACGTGCCGGCACACGAAAGAGAGGCGCTTCTGTTGCAAGatctgcgattacaagtgctcGCAGAAGCACACCTTGAAACGTCACGTGTTGACACACACCGACAAGAAGCCGTTCTGctgcgatctctgcgattacaagtgcagGCGAGCGGAAAACCTGAAGCAGCACAGGTTAACGCACACCAGCGAAAAACCGTTCGCCTGCGATttttgcgattataaaagcCGGAATAGAGGATCGTGGAGGCGGCATAAGTTAAGTCACGAGTCGAGCGATGAGAAACCGTTTTGTTGTAACACCTGCGACTTCAAATGTCTGTACAAGAGCAACTTGATCCGGCATGCTGTAACGCACGCCAGAAGGAAAAGGCTGTTGATGTTCAGCTGTGATCTCTGCGACTACAAATGCAGAAGGGCGGCGCACTTGAACCAACACAGGCTGACGCATTCCGGCGAGCAGTACATTgcctgcgatctttgcgattacgtATGCCAAGGAGGCGACTTCTTGCGACTGCACAAGTTGAAACACGCGGTCGATAAGCCGTATTGCTGTAAGATCTGCAACGTGAAGTGCGTAAACAAGGCGACCCTGGCAAAGCACATGTTAACACACAGCGGTGATAAGCCGTAcggttgcgatctttgcgaatACAGATGCCGAAACGCCGCGTACTTGAAGCAACACAGgctgacgcacaccggcgagaagcccttGGCTTGCGacgtttgcgattacaagtgccgaaCGAAGGAATCTTTGAAAGTGCACAAATTGAAGCACTCCGGCGACAAGCCGTATTGTTGTAGGATTTGCGATTTTAAGTGCGCGCCCAGGCAGGCTTTCGAACGGCACGTGTTGACGCACACCGATAGgaaaccgttcggttgcgatctctgcgattacaagtgcagGCGAGCCGGAAACTTGAAGCAGCACAGATGCCCGCGGACCTCTTCCCAATCGAACCCGAGCGCTTCCGAATCTAAAACCCAAAAAAAGCAGCACGCGCTGACGCACACCGCCGAGAAGCCGTTCAGGTGCGTcgtctgcgattacaaatgccgactgACCTCTGACCTGCGAATACACATgctgatacacaccggcgagaagcccttTCACTGCACGATTTGCGCTTACAAATGCCGACGTAAGAGCCACCTGAAGCTGCACATGTGCAGACACACGGACGAGAAGCGGTTCACTTGCACGATCTGCGCCTACAGATGCTCGCAGAGGAACACCCTAAAGCGGCACTTCttaacgcacaccggcgagaaacctttCAGTTGTGATCTATGCGAGTACAAGTGCGGACAGGCCGGGAGTCTGAAGCGACACAAGCTGAGACACGCCGGCGAGCTGCCCTTTGCCTGCgaactttgcgattacaagtgtcgAGATGGAAGATCTTTGAAATGGCATAAGTTGATTCACagcgacgagaaaccgttttgTTGCGACCTTTGCAGTTTCAGATGTCTAGACGAAGGTGTCTTGAACCGGCACGTTTTGAGACACGCCGATGAGAAGCTGTTCGCTTGTGGCCAGTGCGACTACAGATGCAGAAGAGCCGCGGATTTGAAACAGCACTTgttgacgcacaccggcgagagcTACATCGCttgcgacctttgcgattacaagtgccagGGAAGAGAATTCTTGAATCTGCACATGTTGAAGCACACTCGTGATAAACCGTATTGCTGTAACATTTGCGACGTCAAATGCCTAAATCAGAAAACCTTGGCGCAGCACATGTTGATACACAGTCCCGAAAAGCCGTTCGGctgcgacctctgcgattataggTGCCGACAGGCCTCTTATTTAAAGCGACACGTGTTAACGCACACGGGCGAGAAGCCTTTcgcttgcgatctttgcgattacaggtGCCGAGGGAAGGAATCTTTGAAGGCGCACAAATTGAAACACACCGGCGATGAGCCGTATCGTTGTAAGTTTTGCGATTTCACGTGTCCGCTCAGGCAAACTTTCGAACGGCACGCTTTGATACACACCGACGCgaaaccgttcggttgcgaTCTATGCGATTACAGATGCAGGCGAGCAGAGAACTTGAAACAGCACAGATGTCGGCGGGCTTCTTCCAAATCAGGACGTCCGGGCAAGCGAACATTCGAATGTCGCACGTGTCGCTCCAGATTTAAAACCCAAGGTCATTTAGCGCAGCACACGCTGAGACACACAGGGGACAAGCTGTTCAGATGCGTCGTTTGCAACTACGACTGCCATTATCCCGCGCAGCTGCGACAGCACATGCTCCAACACACCGACGAAAAGCCGTACAAGTGCGATATCTGCGACTACAGAGGTCGACGACCCCAACATTTGAAGAAGCACTTGGCGACGCACGCGAAACCGCTGAGCTGCAacctctgcgattacaagtgccagCAGAGCAAAACGATGAGGCTGCACAAGCTGAAACACACCGGCGAGTTTCCCTTCAGctgcgacctttgcgattacaaatgcggCCTGATTAGTAGATTGGAGCGGCACAAGTtgaagcacaccgacgagaagccgttcgcttgcgagctctgcgattataaatgccgacaggtGGTCAACTTGGCGCAACACAAGTTGATACACACGGGCGAGAAGCCTTTCGCTTGCGATTTCTGCGACTACAAGTGCCGAGAGAGCAGATCTTTGAAGCAGCACACGTTCAGGCACACCGGCGAGacaccgttcagttgtgacctctgcgattacaagtgcaaGCGTGCCGAGAACCTGAAGCAACACAGGATggcgcacaccggcgagaaaccgtttgCTTGCGAgcactgcgattataaatgccgacatcCCAGGGACTTGAGGAAGCACAAACGCCAGAGGTCTTCCAAGTCGAGAATCCTGGAGGAGAGGACATTCGAAGGCGATAAGCTGTTCAGATGCGTCGTCTGCAATTACGTGTGCGAACAGTCCGCGCATCTGCAACGGCACATGTTGACACACACCGAGGAGAAGCCCTTCAAgtgcgacctttgcgattacagaGGTCGACGGCTGCAAAATTTGAAACGTCACCTGCCGATACACAGAGACGAGAAGCCGCTGAGTTGCaacctctgcgattacaaatgccgggCGGGCAAGTCTCTGAGGCTGCACAAGTTAAAACACACGGGCGAGTTTCCCTACGGctgcgatctctgcgattacaagtgcggACTGGCCGGTAAATTAAAGCTGCACAAGCTgaggcacaccgacgagaagccgttcgcctgcgacctttgcgattataaatgccggcagGTCTCGAACTTGACGCAACACACgctgacgcacaccggcgagaaacctttcacttgcgatctctgcgattacagGTGCCGGGAGAGCAGATCTTTGAAGCTGCACGAGTCGAAACACACGGGCGAGTTCGCGTACAGCTGTGatgtttgcgattacaagtgcggACTGGGCAGTAAGCTGAAGCTgcacaagttaacgcacaccggAGAGAAACCGCTGGCttgcgacctttgcgattacaaatgccggcaGGCCGTGAACCTGGCGCAgcacaagttaacgcacaccgacgagaagcctcTGGCTTGCGATctctgcgattttaaatgtcgaAATTCCAGAAGCTTGAAGAAACACAGATTCCGACGGACCTTCAAATCCGAACCCGCGGACGAAAGAACGCCCGAAAGCCCTACAGATGGCGCCAAACCCGAAACCGAAAACAAATTGTTCAGATGCGCCGTTTGCAACTACGAATGCCAGCATCCCGCCCAATTACAACGGCACATGTTGAAACACACCGACGACAAGTCCCACAAACTCGAGCGCTTGGATTTCGAGAGGCCGTTCACTTGCGACCACTGCTTTTACAAATGCCGGCAGAGCAGGACCTTGCGACTGCACATGTTGAAGCACACGGGCGAGCTGCCGTTCAGctgcgacctctgcgattacaaatgcggCCTGCGCAGGCAACTGAAGCTGCACAAGGtgaagcacaccgacgagaagcccttcgcctgcgatctttgcgattacaaatgccagCGGTTGCAAAACCTGAAGCGGCACGCGCTGATCCACACCGACGAGATGCCGTTCAGctgcgatctctgcgattacaaatgccgcgAGGGCAGATCTTGGAAGCTGCACCAGTTGAAGCACGCCGACGAGTTGCCGTACAGCTGCgagctttgcgattacaagtgcggCCTCGCCCGGCTGTTGAAGCGGCACAAGTTgaggcacaccgacgagaagcgtTTCGcgtgcgatctttgcgattataagtgccgacaGGGTGAGAACTTGACGCAGCACATGTTGATGCACAACGGCGAGAAGCCCTTCACctgcgacctttgcgattacaggTGCCGGCAGGCCGGGAACATGAAGCAACACAGGCTGAAGCACACGAACGAGAGGCCTTTCGCCTGCGATGTTTGCGGTTACAAGTGTCGGTATTCCGGGAACCTGAAGCAGCACGTCCTGACGCACACCGGGGAGAAGCCTTTTGCTTGCGAACTTTGTGGATACAAGTGCGCGCGGTCCGGGTGCATGAAGGATCACATGCTGACGCACACGGACGAGAGGCCTTTcgcttgcgatctttgcgacCGTAAGTTTCGTCACGCGGGGAACTTGAAGCGACACAGGTGTCAATGGATCCCTAAAGCTGAACCAGATTACAAGAAAGAAATCGTATGCCGGATATGTGATTCTGAATTCAAGTGTATGGCAAATTTGCGCAGACATATTTTattacacaccggcgagaagccgctcagttgtgatctttgcgattacaaatgccggcaGATCGGTAGCTTGAAATCCCACAAGCTGAAGCACACTGATGAGAAGCCGCTCCGatgtgacctctgcgattatcAGTGCCGACACCTCGAGAGTCTGAAACtccacaagttaaagcacactaacgagaagccgttcagttgtgacctctgcgatttCAAATGTCGACAGCTCGGAAGCTTGAAACTCCACAACTTGAAGCACACCAACGAGatgccgttcggttgtgatctctgcgattttaaatgccgacTGCTCGGAAATTTGAAGCGGCACAAGTTGAGGCACACCGACGAgatgccgttcagttgtgatctttgcgattttaaaagCCGCCGGCTCGAAAGCTTGAACTACCACAGGGTGCAGCACATGGACGAGACGCCGTACTgttgcgacctttgcgattataaatgccgaaacCTCAAGACCTTGAAACGGCACAAGTTGAAGCACACCGGCGAGATGCCgtGTCGAGACCACGGAAGTTTAAAGTCTCACAAGTTAATgcacaccgatgagaagccgttcggttgtgagcTTTGCAATTATAAATGCCGGCGAGTCGCACAGTTGAAACAACATCATAAGTTGAAGCATACTGATGAGAAGCCGGCAACTCAGTAA
Protein Sequence: MIHIKITRALLKDDLIKPDVSLAYFLCQPTANKRAFECTTCGAKFKTRGRFVKHVAHSNEKPFRCAVCDYKCRLSSDLGRHMRIHTGEKPFQCAVCNCAFKLKSNLKEHLHIHTGEKRFSCEVCGFKCLNSRILKRHKLIHTDEKPFSCDLCDYKSGRSENLKRHALIHTGEKPFACDLCDYRCRQAGHLREHKFTHSGEKPFACDLCDCKYQKPKSLKRHRCQRISELETNKEAGEHARTQKPFRCAVCDYKCRKSAVLKQHMSIPTGEKPFACDLCDYKCQRAGNLKQHRLAHTNEKPFACDLCDYADGLLNLAHSNALHAVPQIKLKVVPTSTCRHIPTRSRSDALSANINARQPRISETTCGRKCHLQQHIMFKHTKEQQFACKICDYRCTQKGTLKRHILTHTGEKPFSCDLCEYKCAQSGSLKRHRLTHTGEKPFACDLCDYKCRHGSALKLHKFTHTGGIPCEWIPTEKRTFECPTCGSEFKIKERLEEHVLTHTGDKPFRCVICDYKCRLPSDLEKHMLIHTGEKPYRCVLCNYKCRLKSHLSQHVRYKHTGEKRFCCKICNYKCPQKTALKRHVLTHTGEKPFTCDLCEFRCGRAASLKRHRLTHTGEKPFACDLCDYKCRDGRSLRLHGSTHSGEKTFCCDICSYKCLNERTLKRHFLKHVDEELFSCEFCDYKCRRPAHLKQHMLTHTGEKPIACELCDYKCRSMASLKFHNLKHVVDKPYGCKICDAKYPCKKTLAKHILKHSGEKPFACGLCDYRCRQAARLKQHALTHTGEKPFTCDLCDYKCRKKDSWNLHKLKHTGDKPFCCKICDFKCPHKHTLERHMLIHTDDKPFGCDLCDFKCRRAENLRQHRLRHTGEKPCQRISKSDVSGDEKTLECPTCGSKYKTQGRFEKHMLTHTGEKPFRCVICDYKCQLPSDLKSHMLIHTDDKPFQCAFCDYKCKLKCHLKQHVTCRHTKERRFCCKICDYKCSQKHTLKRHVLTHTDKKPFCCDLCDYKCRRAENLKQHRLTHTSEKPFACDFCDYKSRNRGSWRRHKLSHESSDEKPFCCNTCDFKCLYKSNLIRHAVTHARRKRLLMFSCDLCDYKCRRAAHLNQHRLTHSGEQYIACDLCDYVCQGGDFLRLHKLKHAVDKPYCCKICNVKCVNKATLAKHMLTHSGDKPYGCDLCEYRCRNAAYLKQHRLTHTGEKPLACDVCDYKCRTKESLKVHKLKHSGDKPYCCRICDFKCAPRQAFERHVLTHTDRKPFGCDLCDYKCRRAGNLKQHRCPRTSSQSNPSASESKTQKKQHALTHTAEKPFRCVVCDYKCRLTSDLRIHMLIHTGEKPFHCTICAYKCRRKSHLKLHMCRHTDEKRFTCTICAYRCSQRNTLKRHFLTHTGEKPFSCDLCEYKCGQAGSLKRHKLRHAGELPFACELCDYKCRDGRSLKWHKLIHSDEKPFCCDLCSFRCLDEGVLNRHVLRHADEKLFACGQCDYRCRRAADLKQHLLTHTGESYIACDLCDYKCQGREFLNLHMLKHTRDKPYCCNICDVKCLNQKTLAQHMLIHSPEKPFGCDLCDYRCRQASYLKRHVLTHTGEKPFACDLCDYRCRGKESLKAHKLKHTGDEPYRCKFCDFTCPLRQTFERHALIHTDAKPFGCDLCDYRCRRAENLKQHRCRRASSKSGRPGKRTFECRTCRSRFKTQGHLAQHTLRHTGDKLFRCVVCNYDCHYPAQLRQHMLQHTDEKPYKCDICDYRGRRPQHLKKHLATHAKPLSCNLCDYKCQQSKTMRLHKLKHTGEFPFSCDLCDYKCGLISRLERHKLKHTDEKPFACELCDYKCRQVVNLAQHKLIHTGEKPFACDFCDYKCRESRSLKQHTFRHTGETPFSCDLCDYKCKRAENLKQHRMAHTGEKPFACEHCDYKCRHPRDLRKHKRQRSSKSRILEERTFEGDKLFRCVVCNYVCEQSAHLQRHMLTHTEEKPFKCDLCDYRGRRLQNLKRHLPIHRDEKPLSCNLCDYKCRAGKSLRLHKLKHTGEFPYGCDLCDYKCGLAGKLKLHKLRHTDEKPFACDLCDYKCRQVSNLTQHTLTHTGEKPFTCDLCDYRCRESRSLKLHESKHTGEFAYSCDVCDYKCGLGSKLKLHKLTHTGEKPLACDLCDYKCRQAVNLAQHKLTHTDEKPLACDLCDFKCRNSRSLKKHRFRRTFKSEPADERTPESPTDGAKPETENKLFRCAVCNYECQHPAQLQRHMLKHTDDKSHKLERLDFERPFTCDHCFYKCRQSRTLRLHMLKHTGELPFSCDLCDYKCGLRRQLKLHKVKHTDEKPFACDLCDYKCQRLQNLKRHALIHTDEMPFSCDLCDYKCREGRSWKLHQLKHADELPYSCELCDYKCGLARLLKRHKLRHTDEKRFACDLCDYKCRQGENLTQHMLMHNGEKPFTCDLCDYRCRQAGNMKQHRLKHTNERPFACDVCGYKCRYSGNLKQHVLTHTGEKPFACELCGYKCARSGCMKDHMLTHTDERPFACDLCDRKFRHAGNLKRHRCQWIPKAEPDYKKEIVCRICDSEFKCMANLRRHILLHTGEKPLSCDLCDYKCRQIGSLKSHKLKHTDEKPLRCDLCDYQCRHLESLKLHKLKHTNEKPFSCDLCDFKCRQLGSLKLHNLKHTNEMPFGCDLCDFKCRLLGNLKRHKLRHTDEMPFSCDLCDFKSRRLESLNYHRVQHMDETPYCCDLCDYKCRNLKTLKRHKLKHTGEMPCRDHGSLKSHKLMHTDEKPFGCELCNYKCRRVAQLKQHHKLKHTDEKPATQ

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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