Basic Information

Insect: Lerema accius
Gene Symbol: -
Assembly: None
Location: scaffold549:467248-487804[+]

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 92 0.11 6.7 7.3 1.3 1 22 247 268 247 270 0.87

2 92 0.57 35 5.1 0.0 2 23 296 318 295 318 0.95

3 92 0.016 1 9.9 2.0 1 23 332 354 332 354 0.98

4 92 0.56 34 5.1 1.6 1 20 358 377 358 380 0.79

5 92 0.93 58 4.4 0.2 1 21 384 404 384 407 0.87

6 92 0.27 17 6.1 3.3 2 23 414 436 413 436 0.95

7 92 0.0016 0.096 13.1 0.1 2 23 444 466 443 466 0.95

8 92 0.0003 0.019 15.4 4.2 1 23 472 494 472 494 0.96

9 92 1.4e-05 0.00086 19.6 2.7 1 23 500 522 500 522 0.98

10 92 7.3e-05 0.0045 17.3 1.6 1 23 528 550 528 551 0.95

11 92 0.067 4.2 8.0 1.3 1 23 599 621 599 621 0.96

12 92 0.036 2.2 8.8 0.3 2 23 643 665 642 665 0.96

13 92 0.063 3.9 8.1 0.3 2 23 686 708 685 708 0.94

14 92 0.0031 0.19 12.2 5.2 1 23 713 736 713 736 0.96

15 92 0.7 43 4.8 2.2 1 23 741 764 741 764 0.95

16 92 4.7 2.9e+02 2.2 3.6 2 22 796 816 795 816 0.94

17 92 4 2.5e+02 2.4 2.0 1 23 867 890 867 890 0.89

18 92 1.4 88 3.8 0.7 3 23 964 986 962 986 0.94

19 92 0.0027 0.17 12.4 0.2 3 20 993 1010 991 1014 0.92

20 92 0.041 2.5 8.7 0.7 1 23 1019 1042 1019 1042 0.97

21 92 0.00093 0.057 13.8 0.3 2 23 1048 1070 1048 1070 0.94

22 92 0.00018 0.011 16.0 5.0 1 23 1074 1097 1074 1097 0.97

23 92 0.00083 0.051 14.0 0.6 2 23 1104 1125 1103 1125 0.96

24 92 0.014 0.87 10.1 2.5 1 23 1131 1153 1131 1153 0.97

25 92 0.38 24 5.6 0.6 1 23 1292 1315 1292 1315 0.94

26 92 0.0068 0.42 11.1 0.4 2 23 1322 1344 1321 1344 0.95

27 92 0.6 37 5.0 1.1 1 23 1348 1371 1348 1371 0.94

28 92 0.25 15 6.2 0.7 2 23 1374 1396 1374 1396 0.95

29 92 0.0011 0.068 13.6 2.2 1 23 1483 1506 1483 1506 0.97

30 92 5.6 3.5e+02 1.9 0.1 3 23 1528 1549 1526 1549 0.94

31 92 0.001 0.065 13.7 0.2 1 23 1571 1594 1571 1594 0.93

32 92 0.0005 0.031 14.7 1.9 2 23 1600 1621 1600 1622 0.94

33 92 0.08 4.9 7.7 4.5 1 23 1630 1653 1630 1653 0.92

34 92 0.087 5.4 7.6 1.0 1 23 1658 1681 1658 1681 0.94

35 92 0.00057 0.035 14.5 3.8 1 23 1685 1708 1685 1708 0.97

36 92 0.43 26 5.5 1.6 2 23 1715 1736 1714 1736 0.97

37 92 0.011 0.67 10.5 0.3 1 23 1742 1764 1742 1764 0.97

38 92 0.14 8.9 6.9 0.3 1 23 1812 1834 1812 1834 0.95

39 92 0.053 3.3 8.3 0.5 2 23 1862 1884 1861 1884 0.94

40 92 0.32 20 5.8 1.9 2 23 1905 1927 1904 1927 0.95

41 92 0.23 14 6.3 4.9 1 23 1932 1955 1932 1955 0.97

42 92 0.08 4.9 7.8 2.8 1 23 1959 1982 1959 1982 0.90

43 92 0.07 4.3 7.9 2.6 2 23 1985 2007 1984 2007 0.95

44 92 0.062 3.8 8.1 4.4 1 23 2074 2097 2074 2097 0.96

45 92 0.0023 0.14 12.6 0.2 1 23 2169 2192 2169 2192 0.89

46 92 1.3e-05 0.00081 19.7 0.3 1 23 2197 2220 2197 2220 0.95

47 92 0.00016 0.01 16.2 3.2 1 23 2225 2248 2225 2248 0.94

48 92 0.0062 0.39 11.2 0.5 2 23 2254 2276 2253 2276 0.93

49 92 0.00044 0.027 14.8 4.0 1 23 2280 2303 2280 2303 0.97

50 92 0.69 43 4.8 0.3 2 23 2310 2331 2309 2331 0.96

51 92 0.13 8.1 7.1 2.3 1 23 2337 2359 2337 2359 0.96

52 92 0.00065 0.04 14.3 2.5 1 23 2439 2461 2439 2461 0.96

53 92 1.2 74 4.1 0.0 2 20 2489 2507 2488 2509 0.86

54 92 0.0055 0.34 11.4 1.4 3 23 2517 2538 2515 2538 0.96

55 92 5e-05 0.0031 17.8 0.9 1 23 2543 2566 2543 2566 0.97

56 92 0.00026 0.016 15.6 0.5 1 23 2571 2594 2571 2594 0.96

57 92 0.025 1.5 9.3 2.2 2 23 2597 2619 2597 2619 0.96

58 92 0.92 57 4.4 3.1 2 21 2626 2645 2625 2646 0.95

59 92 0.064 4 8.0 3.6 1 23 2700 2723 2700 2723 0.93

60 92 0.011 0.7 10.4 0.2 2 23 2789 2811 2788 2811 0.94

61 92 1.4e-05 0.00088 19.5 0.2 3 23 2818 2839 2817 2839 0.94

62 92 0.043 2.6 8.6 3.6 2 23 2844 2866 2843 2866 0.93

63 92 0.007 0.43 11.1 2.7 1 23 2871 2894 2871 2894 0.95

64 92 4.7e-05 0.0029 17.9 4.9 1 23 2898 2921 2898 2921 0.97

65 92 0.0015 0.092 13.2 0.3 2 23 2928 2949 2927 2949 0.96

66 92 0.00012 0.0074 16.6 0.7 1 23 2955 2977 2955 2977 0.98

67 92 0.33 21 5.8 0.2 1 23 3069 3092 3069 3092 0.96

68 92 0.079 4.9 7.8 0.1 2 23 3112 3134 3111 3134 0.94

69 92 0.027 1.7 9.2 1.1 2 23 3157 3178 3157 3179 0.94

70 92 0.013 0.81 10.2 1.5 1 23 3184 3207 3184 3207 0.95

71 92 0.082 5.1 7.7 1.5 1 23 3212 3235 3212 3235 0.94

72 92 0.019 1.2 9.7 1.0 2 23 3241 3263 3240 3263 0.91

73 92 0.0009 0.055 13.9 0.1 2 23 3271 3293 3270 3293 0.97

74 92 0.2 13 6.5 0.1 2 23 3300 3321 3299 3321 0.96

75 92 7.6e-06 0.00047 20.4 1.3 1 23 3327 3349 3327 3349 0.94

76 92 0.00028 0.018 15.5 1.4 1 23 3355 3378 3355 3378 0.94

77 92 0.4 24 5.6 3.2 1 23 3483 3505 3483 3505 0.98

78 92 1.6 98 3.7 0.0 2 23 3524 3546 3523 3546 0.91

79 92 2 1.3e+02 3.3 0.6 3 23 3570 3591 3569 3591 0.93

80 92 0.00092 0.057 13.8 0.6 3 23 3599 3620 3598 3620 0.98

81 92 0.00058 0.036 14.5 1.2 3 23 3627 3648 3626 3648 0.97

82 92 0.15 9.2 6.9 3.3 1 23 3654 3677 3654 3677 0.96

83 92 0.0041 0.25 11.8 2.2 2 23 3684 3706 3683 3706 0.95

84 92 0.14 8.9 6.9 1.3 1 23 3712 3734 3712 3734 0.93

85 92 0.068 4.2 8.0 0.8 1 23 3740 3763 3740 3763 0.89

86 92 9.5 5.9e+02 1.2 1.3 1 20 3860 3879 3860 3882 0.85

87 92 0.0054 0.33 11.4 0.6 2 23 3953 3975 3953 3975 0.94

88 92 0.27 16 6.1 9.2 2 23 3982 4004 3981 4004 0.96

89 92 0.8 49 4.6 2.4 1 23 4035 4058 4035 4058 0.89

90 92 0.00022 0.014 15.8 0.9 2 23 4065 4087 4064 4087 0.94

91 92 0.52 32 5.2 0.1 2 23 4094 4115 4093 4115 0.96

92 92 0.00014 0.0085 16.4 2.4 2 23 4122 4144 4121 4144 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	92	0.11	6.7	7.3	1.3	1	22	247	268	247	270	0.87
2	92	0.57	35	5.1	0.0	2	23	296	318	295	318	0.95
3	92	0.016	1	9.9	2.0	1	23	332	354	332	354	0.98
4	92	0.56	34	5.1	1.6	1	20	358	377	358	380	0.79
5	92	0.93	58	4.4	0.2	1	21	384	404	384	407	0.87
6	92	0.27	17	6.1	3.3	2	23	414	436	413	436	0.95
7	92	0.0016	0.096	13.1	0.1	2	23	444	466	443	466	0.95
8	92	0.0003	0.019	15.4	4.2	1	23	472	494	472	494	0.96
9	92	1.4e-05	0.00086	19.6	2.7	1	23	500	522	500	522	0.98
10	92	7.3e-05	0.0045	17.3	1.6	1	23	528	550	528	551	0.95
11	92	0.067	4.2	8.0	1.3	1	23	599	621	599	621	0.96
12	92	0.036	2.2	8.8	0.3	2	23	643	665	642	665	0.96
13	92	0.063	3.9	8.1	0.3	2	23	686	708	685	708	0.94
14	92	0.0031	0.19	12.2	5.2	1	23	713	736	713	736	0.96
15	92	0.7	43	4.8	2.2	1	23	741	764	741	764	0.95
16	92	4.7	2.9e+02	2.2	3.6	2	22	796	816	795	816	0.94
17	92	4	2.5e+02	2.4	2.0	1	23	867	890	867	890	0.89
18	92	1.4	88	3.8	0.7	3	23	964	986	962	986	0.94
19	92	0.0027	0.17	12.4	0.2	3	20	993	1010	991	1014	0.92
20	92	0.041	2.5	8.7	0.7	1	23	1019	1042	1019	1042	0.97
21	92	0.00093	0.057	13.8	0.3	2	23	1048	1070	1048	1070	0.94
22	92	0.00018	0.011	16.0	5.0	1	23	1074	1097	1074	1097	0.97
23	92	0.00083	0.051	14.0	0.6	2	23	1104	1125	1103	1125	0.96
24	92	0.014	0.87	10.1	2.5	1	23	1131	1153	1131	1153	0.97
25	92	0.38	24	5.6	0.6	1	23	1292	1315	1292	1315	0.94
26	92	0.0068	0.42	11.1	0.4	2	23	1322	1344	1321	1344	0.95
27	92	0.6	37	5.0	1.1	1	23	1348	1371	1348	1371	0.94
28	92	0.25	15	6.2	0.7	2	23	1374	1396	1374	1396	0.95
29	92	0.0011	0.068	13.6	2.2	1	23	1483	1506	1483	1506	0.97
30	92	5.6	3.5e+02	1.9	0.1	3	23	1528	1549	1526	1549	0.94
31	92	0.001	0.065	13.7	0.2	1	23	1571	1594	1571	1594	0.93
32	92	0.0005	0.031	14.7	1.9	2	23	1600	1621	1600	1622	0.94
33	92	0.08	4.9	7.7	4.5	1	23	1630	1653	1630	1653	0.92
34	92	0.087	5.4	7.6	1.0	1	23	1658	1681	1658	1681	0.94
35	92	0.00057	0.035	14.5	3.8	1	23	1685	1708	1685	1708	0.97
36	92	0.43	26	5.5	1.6	2	23	1715	1736	1714	1736	0.97
37	92	0.011	0.67	10.5	0.3	1	23	1742	1764	1742	1764	0.97
38	92	0.14	8.9	6.9	0.3	1	23	1812	1834	1812	1834	0.95
39	92	0.053	3.3	8.3	0.5	2	23	1862	1884	1861	1884	0.94
40	92	0.32	20	5.8	1.9	2	23	1905	1927	1904	1927	0.95
41	92	0.23	14	6.3	4.9	1	23	1932	1955	1932	1955	0.97
42	92	0.08	4.9	7.8	2.8	1	23	1959	1982	1959	1982	0.90
43	92	0.07	4.3	7.9	2.6	2	23	1985	2007	1984	2007	0.95
44	92	0.062	3.8	8.1	4.4	1	23	2074	2097	2074	2097	0.96
45	92	0.0023	0.14	12.6	0.2	1	23	2169	2192	2169	2192	0.89
46	92	1.3e-05	0.00081	19.7	0.3	1	23	2197	2220	2197	2220	0.95
47	92	0.00016	0.01	16.2	3.2	1	23	2225	2248	2225	2248	0.94
48	92	0.0062	0.39	11.2	0.5	2	23	2254	2276	2253	2276	0.93
49	92	0.00044	0.027	14.8	4.0	1	23	2280	2303	2280	2303	0.97
50	92	0.69	43	4.8	0.3	2	23	2310	2331	2309	2331	0.96
51	92	0.13	8.1	7.1	2.3	1	23	2337	2359	2337	2359	0.96
52	92	0.00065	0.04	14.3	2.5	1	23	2439	2461	2439	2461	0.96
53	92	1.2	74	4.1	0.0	2	20	2489	2507	2488	2509	0.86
54	92	0.0055	0.34	11.4	1.4	3	23	2517	2538	2515	2538	0.96
55	92	5e-05	0.0031	17.8	0.9	1	23	2543	2566	2543	2566	0.97
56	92	0.00026	0.016	15.6	0.5	1	23	2571	2594	2571	2594	0.96
57	92	0.025	1.5	9.3	2.2	2	23	2597	2619	2597	2619	0.96
58	92	0.92	57	4.4	3.1	2	21	2626	2645	2625	2646	0.95
59	92	0.064	4	8.0	3.6	1	23	2700	2723	2700	2723	0.93
60	92	0.011	0.7	10.4	0.2	2	23	2789	2811	2788	2811	0.94
61	92	1.4e-05	0.00088	19.5	0.2	3	23	2818	2839	2817	2839	0.94
62	92	0.043	2.6	8.6	3.6	2	23	2844	2866	2843	2866	0.93
63	92	0.007	0.43	11.1	2.7	1	23	2871	2894	2871	2894	0.95
64	92	4.7e-05	0.0029	17.9	4.9	1	23	2898	2921	2898	2921	0.97
65	92	0.0015	0.092	13.2	0.3	2	23	2928	2949	2927	2949	0.96
66	92	0.00012	0.0074	16.6	0.7	1	23	2955	2977	2955	2977	0.98
67	92	0.33	21	5.8	0.2	1	23	3069	3092	3069	3092	0.96
68	92	0.079	4.9	7.8	0.1	2	23	3112	3134	3111	3134	0.94
69	92	0.027	1.7	9.2	1.1	2	23	3157	3178	3157	3179	0.94
70	92	0.013	0.81	10.2	1.5	1	23	3184	3207	3184	3207	0.95
71	92	0.082	5.1	7.7	1.5	1	23	3212	3235	3212	3235	0.94
72	92	0.019	1.2	9.7	1.0	2	23	3241	3263	3240	3263	0.91
73	92	0.0009	0.055	13.9	0.1	2	23	3271	3293	3270	3293	0.97
74	92	0.2	13	6.5	0.1	2	23	3300	3321	3299	3321	0.96
75	92	7.6e-06	0.00047	20.4	1.3	1	23	3327	3349	3327	3349	0.94
76	92	0.00028	0.018	15.5	1.4	1	23	3355	3378	3355	3378	0.94
77	92	0.4	24	5.6	3.2	1	23	3483	3505	3483	3505	0.98
78	92	1.6	98	3.7	0.0	2	23	3524	3546	3523	3546	0.91
79	92	2	1.3e+02	3.3	0.6	3	23	3570	3591	3569	3591	0.93
80	92	0.00092	0.057	13.8	0.6	3	23	3599	3620	3598	3620	0.98
81	92	0.00058	0.036	14.5	1.2	3	23	3627	3648	3626	3648	0.97
82	92	0.15	9.2	6.9	3.3	1	23	3654	3677	3654	3677	0.96
83	92	0.0041	0.25	11.8	2.2	2	23	3684	3706	3683	3706	0.95
84	92	0.14	8.9	6.9	1.3	1	23	3712	3734	3712	3734	0.93
85	92	0.068	4.2	8.0	0.8	1	23	3740	3763	3740	3763	0.89
86	92	9.5	5.9e+02	1.2	1.3	1	20	3860	3879	3860	3882	0.85
87	92	0.0054	0.33	11.4	0.6	2	23	3953	3975	3953	3975	0.94
88	92	0.27	16	6.1	9.2	2	23	3982	4004	3981	4004	0.96
89	92	0.8	49	4.6	2.4	1	23	4035	4058	4035	4058	0.89
90	92	0.00022	0.014	15.8	0.9	2	23	4065	4087	4064	4087	0.94
91	92	0.52	32	5.2	0.1	2	23	4094	4115	4093	4115	0.96
92	92	0.00014	0.0085	16.4	2.4	2	23	4122	4144	4121	4144	0.95

Sequence Information

Coding Sequence: ATGGATTTTGATCATATTGTTGTAAAAGAGAGCCCGGGTCTCTGCCGGTGCTGTCTCTCTGAAGGCTGTTATAAGGACTTAGGTACTGAGTACCCATGGATGGATGATACTGAAGTTTATGCTGATATGTTATTAGAATGCTTTGATATTAGTATATCTCAACACAACGAAGGGCCCAATGGACCAAAAAGGCTTATTTGTGAAGTTTGCATCACAAGGCTACGGGATGCTTGCAACTTTAAAAAACAAGTGTTGGATTCAGAAAAGAAGTTTGTGGATATGGTGGGCCGAGGAGAGTTCAGACCTAAAGCAACAACTGTGACATACCAGAGTCCAATGAAATGTGAAATCAGCGTGGAGGCCTTGCCCTCTGATGCAGAGGAGGTTGAATTCCTGGATGAAGGAGACCACTATGATGATGATTCCTTCAAAGATGAATCAACAAGTACAGCAATGGAAGTTACAGCAACCCCTCTCCCTGCAAAGGGCAAGAGAGGTAGACCTAAGAAGAGTTCCACAGTGAAACCAGAGAAGAAACCGAAAGTGCCCAAGTTGGAAGAGAAACCCAAGACTTCGAAAGCTGTTTCTAAAGGTAATAAACGCCAAGAGATGGCGCTGTTCGAGGCGCAGAGTAAGTCCTCTTTATCTAACACGACACGCAACAGATTAATAAAAACTAACGCCACGATCATTCTAGAATGTTCTACCGTGATCCCTTTCAAATGGCACCGACACAACTATCTTTGCTTCTTCTGCCATAAGGATTTTAAAGACGTTAACGACTTGAAAGTTCACACGGTTGAAGCGCATAAAAATTCGAATGTTAAATCTGCCGTTTCTTACCTAAAAAGGGATGAAAAAGTCAAAGTGGATGTCTCTTCGATTGTATGTAAAATATGCAGTAGAAAAGTTAATGATATAAACGGTCTAATAGACCACGTTAAAATTGATCATGAGAAGACGTTTACGCCCTTTAGTTACGGGGTAATACCGTTTCAATGTGCAGTATGCAATAAGGAATTTCATTACTTCATCAAATTGAACGAACATATGAATGAACACTTTGGCAACTATGTCTGCGAATTGTGTGGGAAATCCTTTTTGAGCCAAGACAGATTGCGATGCCACACAGTCAATCATGGCTCGGGATACAAATGTCTGTCATGCCCAAAGATTTTCGATTCACTCACTCAAAAGAATATACACGAAGCTGAAATTCATAATAAGGAAAAATGCATTAAGTGCCTATTTTGTCAAGAGACATTTAAGAACTATACGCTTCGTAAACGACATCACAATGTCGCTCATGAGGTACAACTTCCAACGATCAAGTGCCCAGTTTGTGGCAAAGTTTTCGAGATTCTCAGCAAAATGCGCTCACATTTGAAAGAAGTTCATATTAGGGAGAAAAATTTCGCGTGTACGATGTGTGATCAAAAGTTTTTCTCGAAGACCCATCTTCAGCGGCATATGGTCAAGCATTTTGGGGAGAGGACACATCAGTGCGATGTGTGTAAAAAGTCGTATGCAAGGAAGCAGACGTTAAGAGAACATATGCGGATACATAGTAATGATAAGAAGTACGCCTGTTCTTTATGCAACCAATCGTTTGTTCAAAGTAATAGCTTACGTATGCATTTAAGAGTCCATCATCCTGAAACTTTGAAAAATTTCTTTTCAGATGATAAAACGCGGAAATACAGAGGCTACGAATCGTCTTCTGTGCGCAGGCGGAAAAATCTCCAAATTCTTTTCAACAATACGACGGTAATACCATTCAAATGGCGGGGGAAGTATCTGTGCTTTTATTGCAGCAAGGACCTTCCAGAATATTCTGAACTCAGGAAACACACCAAGTCTCACGGCAACTGTTCTACAAGAGACCATTCTCTAAAAGTCCTCAAAGGAGTAGACATTTCAGAGATTTCGTGTGAAATCTGCAATGAGCCTTTTCCTACCCTAAACGAAGTGCTGAATCACCTTCATACTAAACATAAGTTAGAATTTGATGAAGAAGTAGATATGGCCATAAAAGAATATAGGTTAATGGATCTCAGTTGCTTAGTCTGTGATGAGAAATTTTCTTATTTTGGGTATCTAGTCTCCCACGTAAACAATTTTCACCCAAAGAATTGTCATGTATGTGATAAATGTAACCAGAAATTTAATAAGAAACGGGACCTCTTTTCACACATGAAAAATTATCACAGAGAAGGCGGATACAATTGCGAATTTTGTACCCAAATATTCAGTACGCTTAATATATTACGGAAACATAAGAATAACAAACATTTTACTAGATGTAACATTTGCCATTTAAAATTACCAACGGGGATCCTCAAACGAAAACATATGGAATTGGAGCATCCAGACGATGGCTCATTGCAATGTGGTAATTGTTGTAAAGAGTTTCATACCAAGCAGGGACTAAAGATGCATCTCAGAAAATGCAAAGGAGAAGATGATTTATATGTTGAAATAAAGAAAGAAAGCTTTGACGCGATGGATTTGGACGATAATTACGAAGACGTCAAGCGACCTACCGTGAAGCAAGTACGAGAGAATATTGTGATAGTAATCAACATGTCCACAAATAAATTTAACTGTTTTTACTGTTGTAAAGACTTTCCTGATTCGGACTCCATGAGGGAACATACAGTGTTGGAACATCCAGTTTGCGACGTGAAACAGAAGTGTATTAGAAAGTGCAGGGAATCTGTCGCATGCGTCAAAATAGATATTTCATCCCTCGCTTGCAAAATTTGCTTCGAATCCATGGTGGATCTCGATGTTCTCTTAGATCATTTGATAATCAAACATGAAGCCAATTACGATAAGTCAATTACAACTTGTTTACAGCCGTATAGGTTGATAAAGGATCACATGGCTTGTCCACACTGCCCGAGCGAAGTTTTCAGATTTTTTGGCACTTTGCTAAAACACGTTAATAATAAACATACAAATAACAATATTATTTGTGTGTACTGCGGTCAAACGTTTAGACGCGATCAGAATTTAAGGGTGCATATTTGGCGAAATCATCGTGACGACAGATTTAAGTGTAGCATCTGTGGCACCGACTGTAACATCCCATCGAGATTGTACATGCATATGGCTAAGGCTCATGGCGTCAAAGCAGCCAAGTGCCCTAAATGCCCTGAAGCTTTCTCTACACAGTATTCGAGACAGAAACACTTGATCGAAGCTCACGATTCAGGTCACAAGTGTACGTATTGCGGAAAACTCTTCACCAGAAACTCCTTTATGAAAGACCACATACGACGGACGCATTTGAAAGAAAAAAATGTTGAGTGCTCCATTTGCAACATGAAGTTCTTCAACAATATTCTTCTCAGACGGCACATGGTGAAACATAGCGGAGAGAAGAACTTTCATTGCGACATTTGTGATGAAAGGTTCTACTGGAGGAAGAGCCTTCGAACTCACATGGCGCGACATAACAAACTTATGAATCCCATACACTTAACTGAAGTAACAGAAGAGGCTTTCTTTCCAGATAAGAGCATAAGGAAGCATCGAGATGCAAATCGGCGGCGAAGACAAAATCTTCAGTTATTGTTCAACAATACTACAGTGATTCCTTTCAAAGGACGAGGAAGCTTTAAATTTGACTACCAAGAATTTAGACAACATACTAAAACACATAATCCGTGCTCAATAAATGATCGGGCGATCAAACTAGTCAAAACAGATGAAGCGGAAGTGAGAGTCGATGTATCGATAGTTATTTGTGAAATATGTAATGAATCTAAAGCTAATTTCGAAGATTTAGTCACGCACCTGATCGAAAACCATAATATTCTGTATGACAGAGAAATTAAGCTGATGATTATGAAGTACAAACTTGAAAATTTTAAATGCGTTCTATGTGACCAAGAATGTAGCAGTCTCATTGCCTTGCTTACTCACGTGAGCAATTCCCATGATACAACCAAACTAGTGTCTTGTACCGAATGCCGACAAAAGTTTAAGAAAAAAGGCGAACTAGATGCACATGTAAGAGCTTATCATAAAAAAGAATATAGCTGTTTGAAATGTGCCCTTAATTTCCCTTCGTATTTTGAACTGCAGAACCATAAAAGCAATTCTCACATCGCAACGTGTAATATTTGCTTCAGACCGTTTCCCACAGCTAAGAAAAGACTACAACATTTAAAACTCGAACACGGAGATGACGATTTGCGTTGTGGCTTCTGTGAAAAAGTCATTGGCACGAAAATTGGATTTTTAAAGCATGCTTCCAAGTGTACAGAGATGGATAAGAAGCATGCTCGAGAAGGTTTAGAAGATTTTATAAGTTTAAATACTGAAGTTTTTAATACCGAGCTCAATGTTAAAAAGACGAGTGTTAAAACTATTCGAAATAATATAGCGTGTCTCCTTAACAACTCCACAGCTGTGCCATTTAAATTCTTTATGAATAGATTTAGGTGTTTCTACTGTCCCAAAGATTTTAATGACTGCGATGGTTTGAAGGAGCATACTAAAATAGAACATCCCCACTGCGATACAAAATTCAAGTGCATGTTAATGCGGAATCTTGACGTATCTTCACTATTTTGTAAACTTTGTTTTGAGGCTATGAAAGACTTGGATTATCTTATAGATCATCTTATTTCTGAACACAAGTCAAATTTTGATAAGACTGTAGATAGCAATGTGCAAGCCTTCACACTTATCAAAGGTCGTTACTTGTGCCCCTTCTGTGGTGAAGTGTTCAGATACTTTAGCAACGTACTCAAGCATATTAGCCAGGCCCATTCAAATAATAATGCAGTTTGCATGCATTGTGGGGCAACGTTTCGTAACCTTCCAAATCTACGAGCACACATATACAAACATCATAGACCAGCGCAACCTTCTAAATACAAATGTGCGAAGTGTAAGCTTCATTTTAGTTCTAAAAAAGATTACCAGACCCATTTCGGCAGAGTTCATGGTAACAAAATGTTTGATTGTTCTGTATGTCGAGAGAAATTCTCATCCGCGCACGCTAAGGACCGGCACATGATAAATGTGCATCAATTAGGCCATAAATGTTCACATTGCGGAAAATTATTTCCAAGAAACTCGCAAATGGTGGATCATGTGAGGCGTACCCATTTAAAAGAGAAAAACGTTCAGTGTCAAATATGCCACGAGTTATTTTTCGACGTACACGTCTTGAGGTTACACATGGTTACGCATTGTGGTGAGCGCAAGTTTCAATGCGACGTTTGTGGCAAAAAGTTTCTGTGGAAGAAAAATCTTATTGGTCACATGGCTACTCACTATAAGAATCAGCCTTTCTCACAACGCGGTCGATTTATGATTACTAGGGAGCATGATTACCATCATATCGTGACATACTTAAAAAACCTGCAGATATTGTTCAACAATACGACCTTGTGTCCTTTTAAATGGCGAGGGAAGTACTTGTGCTTTTACTGTGGAGAGGATATGCCAAATTACGATGAACTAAAAAAACATACGAAAGGGCATGGTCCATGTTCAGACAGAGATAGAGCAATAAGATTAGTTAAAGCTGCTGATGCCGAAGTGAAGATTGATGTTTCAGATATCACTTGTGAAATTTGTAACGAATGTTTTGTCAACTTTGAAGAAATTGTTGATCATTTGAAACTCAAACACGAATTGCCTTACGACACTGGTGTCAAATTATCTCTAGCTACGTATCGGTTGACAGACCTACGGTGTTTATTCTGCGAGGAAAAATTCAATTATTTTAATAAACTTATCAAACACGTCAATAGAAGACATCCGAGCGAAAGTTTCGAATGTTGTAAATGTCTTCAGAAGTTCAATAAGAAGCGGGATTTAGATGCTCACACGCGAAAAAGCCATAAAGAAGATCATAGATGTCTCAAATGTTCTGTAACATTCACTTCCTATGCTGCTCTTAAGAAACACAATTCGAATTCTCACATTTCAACGTGCAATGTGTGTTTCAAAAGTTATTCATCGTTAAAGAAGCGATTGAAACATATGAAGCAGGAGCACGCGGATGATATGCTCGAGTGCGGGTTTTGTTTGAAAACAATGAGCACAAAACAGAGCTTTTTACGACACGCGACCAAATGTAATTTAAGAATTAACAGTTATGAAAACGAAGTCGTTGATGATGAAGACAGGAAGCCTAACGTAGCGTGTATTCTAAATATGTCCACTGCAATTCCTTTTAAGTACTTCATGAGCAGGTTTAGATGTTTCTACTGTCCTAAAGACTTTCACGAATGTTCGGATTTAAGAGAACACACTGTAACGGAGCATCCACATTGTGATATTAAGCTTAAGAGCATGAAATTACGTAATAGACATGATGGCTGCATTAAAATCGATGTTGCATCTCTGTCTTGCAAGTTGTGTTTTGAGCCAATGCAAGGCTTAGAAGCTTTGATCGATCATCTCATTTCCAATCATAAGGCGAATTACGACAAGTCCATAGACTGCAATATGCAGCCATACAGGTTAATTAAAGACAATTTTGCCTGTCCCCTTTGTGGTGAAGTCTATCGGTACTTCAGTTCGTTGCTAAGACACGTCGGAAATTTCCATACGGACAATAAATATATTTGCGTCTACTGCGGCAAACCGTTTAGAAATGTGTCGAACTTAAGGGCACATGTTTCCAGTAAGCATAATACTGTAGTTCATAAGTGCAGTAAATGCGATATGGAGTTTAGTTCTAACAGTCACTTACAGACTCATTTAGGCAGCGCCCACGGGGCAAAGGTGATTCAATGTTCGGAGTGTCAAGAAAAGTTTATATCTAACTACAGAATGCAGAGGCATATGGTCAATGTTCACAGATCTGGACATAAGTGCACGTTTTGCGGAAAACTGTTCACCAGAAACTCGCTAATGGTCAATCATTTGAGACGGACTCATTTGAAAGAAAAGAATGTTGAGTGTTCGGTCTGTTTTGAAAGATTCTTCGACGGGCAGCGTTTAAAGATACATATGGTTAAGCACTACGGAGAACGGAATTTTCACTGTGATGTATGCGGAAAGAAATTTCTGTGGAAGAAAAATTTGAGAGGACACATGTCTTCGCACATAAAAAATGAATTCTTAACAAACGTCAAACATATGAATACTGAATACGAAGCCTTTGTGTCACACATTTTTATTGATAATCGATGTCTTAAGAGGTGGATTCAAATGAAGAAAAATTTCTTTCCAGGTGAACTCGCGCAAACCAAGTACGAGAACTACACCTCTGAGAAAAGGAGGAAAAATTTGAAAATCCTCTTCAACAATACGTCCATTATACCATTTAAATGGCGTGGCAAGTACTTATGCTTTTACTGCGGTAAAACTTACGCAGATTACACTGAATTTAAAAAGCATACTAAATCTCATGGTCTTTGCACCACTAAGGATTATTCTCTTAAACTTATCAAAGGCTCTCACAACGAAATTAAAATAGATATATCTGATATTACCTGCGAAATATGCAATGAAGCGTTCCCGTCTCTGGATGAGATAGTGGGTCATCTCATAAAATATTTCCTGTCAGACTCCCATTGCCAGTTCTGTGGAGAACAGTTCAAATATTTTCGTAATCTCATCATTCATATAAATTCCGTTCATCCACAGAACTGTTTCATGTGTGACGATTGTGGACTGACCTTCAATAAGAAGAGGGATTTGGTGTATCATATTAGACGAAATCATCGTCGAGGCGGCTATCCTTGCGAAGAATGTTCCGAAGTATTCGAATCTCAAAGCTTGTTGCGAACGCATAAAAATAATTTTCATTTTAGAAAGTGCAAAACTTGTTACTCAAGCTTCGCTTCGTTCACTCTTCTAAAGAAACATATGAAGTTAGAACATTCGATTATTGAAATTAAGAAATGTCCACATTGTGCAAAGGAGTGTCATACAAGGCAGGGTCTGATACAGCACGTGCGGAGTTGTAAAGTCAAAATGATCGTGAAAAGAGACAAGCCAGCAACTTTCCCAAAGAAAATAATACTGGTACCGCGAAAGACGCAGAATATCTATCAGATCCGTCAGAATATAGTCTGCGTACTGAATATGTCTACGGCAATTCCGTTTAAGTTTTTTGCAAAGTTTTCTTGCTTTCATTGCTCGAAAAAATTCACAGAGTTCGAGGAATTAAAGGAGCACACGACGTTAGAACATCCCGTCTGTGACTTGAAATCTAAATGTATTACTAAATGTAAAGGAGAGCGTACGTGCGTGAAAATTGATGTGACGTCATTATCAATGGAAGACCTGGATTCTTTGATCGAACATTTAATTACTAAGCACAAAGCAAATTACGACAAGTCTTATACGGAATGTTTCGACCCCTTTAAAATAGTTAAAGACAATATTCCATGCCCTCACTGTTCCAATATCTTCAGATACTTCGCCACACTCATAAGGCATATTAACGCGGAACATAGTAACAACAAGCGGATATGTGATTTCTGTGGACGAACTTTCAGGAACGCTTCCAATTTAAACGTTCACATAATCTATACTCATACTGGGTCTTGTGAATGTGATGTTTGTGGTCTTAAGTTCAAGAACCAATGGTGCTTGGGCCGACATAAGGCGAAGAGTCATGACGTTAAGGATTTTAAGTGCCCCAAATGTCCAGAACAGTTTCAGTCGCAATATCATAAGCAGAAACATTTGATTCAGGTCCACGATATTGGCCATAAGTGTAGTTACTGCGGAAGGATGTTTACGAGGAACTCTTTTATGAAGGATCACATAAGACGGACGCACTTGAAAGAGAAAAACGTACCGTGTTCTGTCTGCAATGAGAAATTCTTTGACAATTATTTGTTGAAGCTCCATATGGTTAAACATGATGGGGAGAGGAAATTCTCGTGCAGTGTCTGCGGGAAGGCCTTTTTGAGAAAGACCAATTTGAGCTCTCATATGGACATGCATAAAAAATATGGACATATTCAAGCGAAAAAAAGTTATTACGATAAATGCCACCATGCGCAAAAAGTGACATCTGTTAATATTAATTATTCTTTAAACTCAGATCCTAAAACCGAAGCCTCCAATTACAAGAAAAGGAAATGTGCCAAATACAATTCGGTGGAGGACAAATATAAGAAAAGAGAATTGGCACGTAAGCTATTGCTGAAACGACGCAATGTCGAGTACGTGTTGCAGTATAGCAACGTTACTCCCTTCATGTGGTACAAGGGCAGATATAGATGCTTCTACTGCACGGAACCCATGAAGGACCCCGTATTGTTGAGAGAACACACCGCCAAAGTCCATCAGTTCGCCAATCTAGAAAATAGGGATGCAGCAGTCAAAATAGATGTCACGGATATCTCCTGCAAGCTCTGTCCGCAAGCGGTCAACAGCTTGGAACAACTGATCCATCATTTGATCATAGCCCACGATGCTGAGTATGATGTCAGTGTCCCAAATTGTCTTCTCCCTTTTAAACTGGACAAGGTTCATCCCTCTTGCCCCATATGCAATCTACAGTTCGTCTTCTTCGAATATCTTCTGCGACACGCGAACAAACACCATTTGGCGCATGACTACATTTGCGATGTATGCGGCACCAGTTTTCAAGGCGAGAATCATTTGAAGATGCACAATAGATATTACCACAGAGATGGTGGATACACGTGTGATCATTGTGGGATTAGCTTGACCACGCTGTCGAAGAAAACGCTGCACGAGAAAAATGTCCACATGATCAACCTTTCAACCTGCCCACATTGCCCCGAAACGTTTAAGAGTCCGTATTTCAAGAAACTACATTTGGCCAATGTGCATGGCGTTGAGGAATTGAAGATCAAATGTCCTTACTGCCCCAAAGTCTATCCACAGGAAAGCATCATGTCTCGCCATATGAGGCGAGTGCATTTGCGAGAGAAAAATGTCGAGTGCGAGGTCTGTGGAGACAAATTCTTCGGGCCTTACGACGTGAAGCTTCATATGTTAAAACACAACGGGGATAAGAAATTTGTTTGTACGGTTTGCGGGAAGAAATTTTCTAAGAAGAGCAATTTGAATTCGCATTTCGTGATACATACAGGAACCAAGAAGTATTCGTGCGAAATTTGTAATAAAGAGTTTGCGCATCGTCCGAACCTAAGGATACATTTTAAGGCGAGGCATCCTGATTTGTATACTAAGTTTACCGTTGAAGAGACCACGGGCGTCGTTGACGAAATGGAATTTGTTAAAGATGAAATTGAAGGACACCAATGTGTTTTCCTTGCAGGAGAACCTAGTGGTGGCCAGGAGGAAACAATTACGCCGGTCGATAACGAACCACACTACGAGGAACCTATGCTGACGCTAGAAATTGAACCGCCACGAATGAAAAAGACACTCTCCGCAAAGGAAAAACGTAAGATCTTCCGAAGCAACGTTATTGAAGTCCTCACGAAGTCGACTGTGATGCCGTTTCGTTGGCTCAAGAGTTCCTATAGATGCTTCTACTGCTACGACATATTTCAAGAGTCATCGGACTTGAAAAACCATCAACATGTGCACGTTGGAGATCATGTTAAGGAGCAACCAGTTGTCTACGTCGATATATCTAATTTATCCTGCAGACTCTGCCCGGAACCTGTCTCGAATTTATTCGACCTTATTGATCATTTGATCGCGAAACATGACGTCGTCTACAACAAGGATGTCGGGATTTGTATGGTAGCATTCAAGCTGGATAACTTCAACGTCAATTGCTTGGCCTGTGGCGCTAGCTTCTACACTTTTGGTCCGCTGCTGCATCACACGAATAAGGATCATAAGGGCACGTCAGCGATCCTCTGTGACGTGTGCGGGCAGCATTTTAAGGACGCGAACTTATTGCGGCTTCACGTTAAAACTGTGCATGAAAACACAGGTTTACTTTGTACCGAGTGTGGAGAGAAGTTCGAAACGCGAGCGAAGTTAAAGACTCACCAGAAGAACCAACACAATATGGATAAGAAGTTCAAGTGTCTTATGTGTCCGCAAACTTTCCAGAGCCATTACAAGCGGTCTAGACACATGGCGTCGGAACACAAGAACCGACAGGAGGTGAAGTGCCTTCACTGTCCAAAGACGTTCGTCTTTCGGAGCATGATGATGACGCATCTTCGCGACACGCACTTAAAAGTTAGGAATCATATTTGCGGGGTCTGTGGCTGGAAGGCCTTCAATAGCAACCGGTTGAAGAACCATATGTATAAGCACAGTGGGGAGAAGAATTTTAAATGTGATGCGTGCGACAAGGCTTTTACGACGAAAAAGATTATGAAGGCTCATTTCGCGCGAATGCACAAATCCATTCAGCAGCCCATGATGCCTTTTGAGCATCCATACGTTGGAACTTTAGGAAGCCAAACATCAGATGAGGATTCAGAGACCGACGATGAAGATATGAAACTAAAACTAATAACGTTCGCTGACAAATATTGTAAGACTGGCTTATCGATCAAAAACCATACTGGCTCTAAAAAGAAAAAGAAAGAAATTTCGAAGCAAAAGAAACTAGAAATTACAAGACAGAATATTACTCAGGTGTTGATCAACTCCACGGTACATCCCTTCAAATGGCTCAGGAGCATTTATAGATGTTTCTTTTGTTACGAAGAGTTCAAAGAACCGAAGCAACTTTTACCCCACTTTGGAAGCCATTTCAAAACTGAAGAAATTCATGTAGCAATGAACAATTACTGGGAAACAGTCGTCTATGTTGATGTCTCGACGATTTCTTGCAAACTTTGTCCTGCTAAGATCGAGAATTTGAAAGAGCTTGTCGATCATCTTATAGACAGCCACCAAATTCAGATTAATAAAAGTGTCAATTTAGGCATGGTTCCTTTCAAATTGGATGAATCTACAGCGAAATGCCTCGAATGTGGATATGGATTTAGAAGTTACGCTCATTTATTCGTCCATACAGTTAGGGCCCATAAGACATATTCAGTGATCCACTGCAATATATGCGGGCAGCATTTTAAATCGTCAAGGGATATGCATCATCATAAGAACACGACGCATCCGAAGAAGGAAGTGAAATGTACAGTTTGTGGTCTCATCATGGCAGCGACGAAAATGAAGGCGCATTTGCAGAACTTTCACGGGAAGAAATACGACTGCTTCTATTGTTCAGAGAAGTTTGTGACGCATTATCAACGCGCCAGACATTTTATTGAGGTCCACAAGAGTAGAAAGAATTTGAACTGTTCTTACTGCACGAGGACTTTTGTTTTCGAGAGCTCCTTGAAAAGGCACGTGAGGGAGATCCATCTGAAAGAGAAAGATTCTGTTTGTGACGTCTGTGGATGGGAAGGCTTCGGGAAGGCTCGGATGCAAAGACATATGATGAAACACAGCGATGAGAGGAACATCAAATGTCCCGACTGCGATAAGTCATATAAAACTAAGAAGACGATGAGACAGCATTTTAGAAATATGCACCAGAAGTCTGAGAAAGTTAAAGATGAGGTGCTTAAAACTTTTATAGACTTATAA
Protein Sequence: MDFDHIVVKESPGLCRCCLSEGCYKDLGTEYPWMDDTEVYADMLLECFDISISQHNEGPNGPKRLICEVCITRLRDACNFKKQVLDSEKKFVDMVGRGEFRPKATTVTYQSPMKCEISVEALPSDAEEVEFLDEGDHYDDDSFKDESTSTAMEVTATPLPAKGKRGRPKKSSTVKPEKKPKVPKLEEKPKTSKAVSKGNKRQEMALFEAQSKSSLSNTTRNRLIKTNATIILECSTVIPFKWHRHNYLCFFCHKDFKDVNDLKVHTVEAHKNSNVKSAVSYLKRDEKVKVDVSSIVCKICSRKVNDINGLIDHVKIDHEKTFTPFSYGVIPFQCAVCNKEFHYFIKLNEHMNEHFGNYVCELCGKSFLSQDRLRCHTVNHGSGYKCLSCPKIFDSLTQKNIHEAEIHNKEKCIKCLFCQETFKNYTLRKRHHNVAHEVQLPTIKCPVCGKVFEILSKMRSHLKEVHIREKNFACTMCDQKFFSKTHLQRHMVKHFGERTHQCDVCKKSYARKQTLREHMRIHSNDKKYACSLCNQSFVQSNSLRMHLRVHHPETLKNFFSDDKTRKYRGYESSSVRRRKNLQILFNNTTVIPFKWRGKYLCFYCSKDLPEYSELRKHTKSHGNCSTRDHSLKVLKGVDISEISCEICNEPFPTLNEVLNHLHTKHKLEFDEEVDMAIKEYRLMDLSCLVCDEKFSYFGYLVSHVNNFHPKNCHVCDKCNQKFNKKRDLFSHMKNYHREGGYNCEFCTQIFSTLNILRKHKNNKHFTRCNICHLKLPTGILKRKHMELEHPDDGSLQCGNCCKEFHTKQGLKMHLRKCKGEDDLYVEIKKESFDAMDLDDNYEDVKRPTVKQVRENIVIVINMSTNKFNCFYCCKDFPDSDSMREHTVLEHPVCDVKQKCIRKCRESVACVKIDISSLACKICFESMVDLDVLLDHLIIKHEANYDKSITTCLQPYRLIKDHMACPHCPSEVFRFFGTLLKHVNNKHTNNNIICVYCGQTFRRDQNLRVHIWRNHRDDRFKCSICGTDCNIPSRLYMHMAKAHGVKAAKCPKCPEAFSTQYSRQKHLIEAHDSGHKCTYCGKLFTRNSFMKDHIRRTHLKEKNVECSICNMKFFNNILLRRHMVKHSGEKNFHCDICDERFYWRKSLRTHMARHNKLMNPIHLTEVTEEAFFPDKSIRKHRDANRRRRQNLQLLFNNTTVIPFKGRGSFKFDYQEFRQHTKTHNPCSINDRAIKLVKTDEAEVRVDVSIVICEICNESKANFEDLVTHLIENHNILYDREIKLMIMKYKLENFKCVLCDQECSSLIALLTHVSNSHDTTKLVSCTECRQKFKKKGELDAHVRAYHKKEYSCLKCALNFPSYFELQNHKSNSHIATCNICFRPFPTAKKRLQHLKLEHGDDDLRCGFCEKVIGTKIGFLKHASKCTEMDKKHAREGLEDFISLNTEVFNTELNVKKTSVKTIRNNIACLLNNSTAVPFKFFMNRFRCFYCPKDFNDCDGLKEHTKIEHPHCDTKFKCMLMRNLDVSSLFCKLCFEAMKDLDYLIDHLISEHKSNFDKTVDSNVQAFTLIKGRYLCPFCGEVFRYFSNVLKHISQAHSNNNAVCMHCGATFRNLPNLRAHIYKHHRPAQPSKYKCAKCKLHFSSKKDYQTHFGRVHGNKMFDCSVCREKFSSAHAKDRHMINVHQLGHKCSHCGKLFPRNSQMVDHVRRTHLKEKNVQCQICHELFFDVHVLRLHMVTHCGERKFQCDVCGKKFLWKKNLIGHMATHYKNQPFSQRGRFMITREHDYHHIVTYLKNLQILFNNTTLCPFKWRGKYLCFYCGEDMPNYDELKKHTKGHGPCSDRDRAIRLVKAADAEVKIDVSDITCEICNECFVNFEEIVDHLKLKHELPYDTGVKLSLATYRLTDLRCLFCEEKFNYFNKLIKHVNRRHPSESFECCKCLQKFNKKRDLDAHTRKSHKEDHRCLKCSVTFTSYAALKKHNSNSHISTCNVCFKSYSSLKKRLKHMKQEHADDMLECGFCLKTMSTKQSFLRHATKCNLRINSYENEVVDDEDRKPNVACILNMSTAIPFKYFMSRFRCFYCPKDFHECSDLREHTVTEHPHCDIKLKSMKLRNRHDGCIKIDVASLSCKLCFEPMQGLEALIDHLISNHKANYDKSIDCNMQPYRLIKDNFACPLCGEVYRYFSSLLRHVGNFHTDNKYICVYCGKPFRNVSNLRAHVSSKHNTVVHKCSKCDMEFSSNSHLQTHLGSAHGAKVIQCSECQEKFISNYRMQRHMVNVHRSGHKCTFCGKLFTRNSLMVNHLRRTHLKEKNVECSVCFERFFDGQRLKIHMVKHYGERNFHCDVCGKKFLWKKNLRGHMSSHIKNEFLTNVKHMNTEYEAFVSHIFIDNRCLKRWIQMKKNFFPGELAQTKYENYTSEKRRKNLKILFNNTSIIPFKWRGKYLCFYCGKTYADYTEFKKHTKSHGLCTTKDYSLKLIKGSHNEIKIDISDITCEICNEAFPSLDEIVGHLIKYFLSDSHCQFCGEQFKYFRNLIIHINSVHPQNCFMCDDCGLTFNKKRDLVYHIRRNHRRGGYPCEECSEVFESQSLLRTHKNNFHFRKCKTCYSSFASFTLLKKHMKLEHSIIEIKKCPHCAKECHTRQGLIQHVRSCKVKMIVKRDKPATFPKKIILVPRKTQNIYQIRQNIVCVLNMSTAIPFKFFAKFSCFHCSKKFTEFEELKEHTTLEHPVCDLKSKCITKCKGERTCVKIDVTSLSMEDLDSLIEHLITKHKANYDKSYTECFDPFKIVKDNIPCPHCSNIFRYFATLIRHINAEHSNNKRICDFCGRTFRNASNLNVHIIYTHTGSCECDVCGLKFKNQWCLGRHKAKSHDVKDFKCPKCPEQFQSQYHKQKHLIQVHDIGHKCSYCGRMFTRNSFMKDHIRRTHLKEKNVPCSVCNEKFFDNYLLKLHMVKHDGERKFSCSVCGKAFLRKTNLSSHMDMHKKYGHIQAKKSYYDKCHHAQKVTSVNINYSLNSDPKTEASNYKKRKCAKYNSVEDKYKKRELARKLLLKRRNVEYVLQYSNVTPFMWYKGRYRCFYCTEPMKDPVLLREHTAKVHQFANLENRDAAVKIDVTDISCKLCPQAVNSLEQLIHHLIIAHDAEYDVSVPNCLLPFKLDKVHPSCPICNLQFVFFEYLLRHANKHHLAHDYICDVCGTSFQGENHLKMHNRYYHRDGGYTCDHCGISLTTLSKKTLHEKNVHMINLSTCPHCPETFKSPYFKKLHLANVHGVEELKIKCPYCPKVYPQESIMSRHMRRVHLREKNVECEVCGDKFFGPYDVKLHMLKHNGDKKFVCTVCGKKFSKKSNLNSHFVIHTGTKKYSCEICNKEFAHRPNLRIHFKARHPDLYTKFTVEETTGVVDEMEFVKDEIEGHQCVFLAGEPSGGQEETITPVDNEPHYEEPMLTLEIEPPRMKKTLSAKEKRKIFRSNVIEVLTKSTVMPFRWLKSSYRCFYCYDIFQESSDLKNHQHVHVGDHVKEQPVVYVDISNLSCRLCPEPVSNLFDLIDHLIAKHDVVYNKDVGICMVAFKLDNFNVNCLACGASFYTFGPLLHHTNKDHKGTSAILCDVCGQHFKDANLLRLHVKTVHENTGLLCTECGEKFETRAKLKTHQKNQHNMDKKFKCLMCPQTFQSHYKRSRHMASEHKNRQEVKCLHCPKTFVFRSMMMTHLRDTHLKVRNHICGVCGWKAFNSNRLKNHMYKHSGEKNFKCDACDKAFTTKKIMKAHFARMHKSIQQPMMPFEHPYVGTLGSQTSDEDSETDDEDMKLKLITFADKYCKTGLSIKNHTGSKKKKKEISKQKKLEITRQNITQVLINSTVHPFKWLRSIYRCFFCYEEFKEPKQLLPHFGSHFKTEEIHVAMNNYWETVVYVDVSTISCKLCPAKIENLKELVDHLIDSHQIQINKSVNLGMVPFKLDESTAKCLECGYGFRSYAHLFVHTVRAHKTYSVIHCNICGQHFKSSRDMHHHKNTTHPKKEVKCTVCGLIMAATKMKAHLQNFHGKKYDCFYCSEKFVTHYQRARHFIEVHKSRKNLNCSYCTRTFVFESSLKRHVREIHLKEKDSVCDVCGWEGFGKARMQRHMMKHSDERNIKCPDCDKSYKTKKTMRQHFRNMHQKSEKVKDEVLKTFIDL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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