Basic Information

Insect: Hololepta plana
Gene Symbol: Zfa
Assembly: GCA_963695495.1
Location: OY968837.1:5769631-5786535[+]

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 94 0.0019 0.16 12.1 3.7 1 23 19 41 19 41 0.96

2 94 0.0013 0.11 12.7 2.3 1 22 45 66 45 66 0.96

3 94 6.4e-05 0.0054 16.8 3.2 2 23 78 99 78 99 0.98

4 94 0.032 2.7 8.3 3.2 2 23 105 127 104 127 0.95

5 94 8.4 7.1e+02 0.7 3.1 1 23 133 155 133 155 0.97

6 94 0.43 36 4.8 4.4 1 23 161 184 161 184 0.93

7 94 0.00042 0.036 14.2 7.8 1 23 189 211 189 211 0.99

8 94 3.4e-05 0.0029 17.7 4.9 1 23 220 243 220 243 0.97

9 94 6.5e-05 0.0054 16.8 0.1 1 23 248 270 248 270 0.97

10 94 3.9e-06 0.00033 20.6 1.1 1 23 276 298 276 298 0.98

11 94 3e-05 0.0025 17.8 0.9 1 23 304 326 304 326 0.99

12 94 6.2e-05 0.0053 16.8 0.6 1 23 332 354 332 354 0.99

13 94 0.063 5.4 7.4 0.3 1 20 377 396 377 398 0.95

14 94 0.011 0.92 9.8 3.1 1 23 404 426 404 426 0.96

15 94 0.3 26 5.2 1.7 1 21 599 619 599 620 0.95

16 94 0.093 7.9 6.9 0.7 2 22 627 647 626 649 0.89

17 94 0.03 2.5 8.4 1.5 3 23 655 675 654 675 0.97

18 94 0.013 1.1 9.5 4.1 1 23 681 704 681 704 0.96

19 94 5.6e-05 0.0047 17.0 1.6 1 23 709 731 709 731 0.98

20 94 0.55 47 4.4 3.6 1 23 803 826 803 826 0.93

21 94 0.076 6.4 7.1 1.9 2 23 1075 1096 1074 1096 0.96

22 94 0.027 2.3 8.5 6.5 1 23 1102 1124 1102 1124 0.99

23 94 0.42 35 4.8 1.3 1 11 1130 1140 1130 1152 0.81

24 94 9.3e-05 0.0079 16.3 2.4 1 23 1158 1181 1158 1181 0.98

25 94 0.014 1.2 9.5 2.5 1 23 1193 1216 1193 1216 0.96

26 94 0.0034 0.28 11.4 0.9 3 23 1224 1244 1222 1244 0.96

27 94 0.0056 0.47 10.7 0.6 3 23 1252 1272 1250 1272 0.97

28 94 1.1e-05 0.0009 19.2 0.5 1 23 1278 1300 1278 1300 0.98

29 94 1 86 3.6 0.1 2 19 1363 1380 1362 1384 0.78

30 94 0.048 4 7.8 0.6 1 23 1390 1412 1390 1412 0.97

31 94 0.001 0.087 13.0 0.3 1 23 1418 1440 1418 1440 0.96

32 94 0.00012 0.01 15.9 4.0 1 23 1446 1469 1446 1469 0.98

33 94 0.0012 0.099 12.8 3.6 1 23 1481 1504 1481 1504 0.96

34 94 3.8e-06 0.00032 20.7 0.3 3 23 1542 1562 1540 1562 0.97

35 94 7.8e-08 6.6e-06 26.0 0.6 1 23 1568 1590 1568 1590 0.99

36 94 0.0059 0.5 10.6 0.5 1 21 1596 1616 1596 1617 0.96

37 94 2.9 2.5e+02 2.1 0.3 7 23 1690 1707 1683 1707 0.81

38 94 0.045 3.8 7.8 3.9 3 23 1728 1748 1727 1748 0.96

39 94 0.0038 0.32 11.2 2.0 1 23 1752 1774 1752 1774 0.98

40 94 0.19 16 5.9 0.6 1 19 1808 1826 1808 1830 0.92

41 94 1.7 1.5e+02 2.8 3.2 1 23 1836 1859 1836 1859 0.86

42 94 0.00033 0.028 14.5 2.6 1 23 1870 1892 1870 1892 0.98

43 94 0.014 1.2 9.5 0.5 3 23 1899 1919 1898 1919 0.97

44 94 0.0036 0.3 11.3 2.8 1 23 1925 1947 1925 1947 0.95

45 94 2.5e-07 2.1e-05 24.4 2.1 1 23 1953 1975 1953 1975 0.99

46 94 0.83 70 3.9 1.8 3 23 2112 2132 2111 2132 0.96

47 94 0.00093 0.079 13.1 0.5 1 23 2136 2158 2136 2158 0.98

48 94 0.19 16 5.9 1.1 1 23 2193 2215 2193 2215 0.96

49 94 0.0011 0.097 12.9 0.5 1 23 2221 2244 2221 2244 0.95

50 94 7e-06 0.00059 19.8 2.7 1 23 2255 2277 2255 2277 0.99

51 94 0.00013 0.011 15.9 0.3 3 23 2284 2304 2282 2304 0.97

52 94 0.092 7.7 6.9 0.9 1 23 2310 2332 2310 2332 0.97

53 94 1.1e-06 9.1e-05 22.4 1.6 1 23 2338 2360 2338 2360 0.99

54 94 0.00055 0.047 13.9 0.5 1 22 2366 2387 2366 2387 0.95

55 94 0.033 2.8 8.3 0.7 1 23 2417 2439 2417 2439 0.97

56 94 0.046 3.9 7.8 0.2 1 23 2460 2482 2460 2482 0.96

57 94 0.083 7 7.0 0.4 1 23 2486 2508 2486 2508 0.93

58 94 0.012 1 9.6 0.7 1 23 2513 2536 2513 2536 0.97

59 94 0.00012 0.0099 16.0 0.2 1 23 2542 2564 2542 2564 0.96

60 94 0.0067 0.56 10.5 0.8 1 23 2570 2593 2570 2593 0.97

61 94 0.00041 0.035 14.3 3.2 1 23 2604 2626 2604 2626 0.98

62 94 1.1e-05 0.00089 19.3 1.3 3 23 2638 2658 2636 2658 0.96

63 94 0.00013 0.011 15.8 3.0 1 23 2664 2686 2664 2686 0.98

64 94 5.1e-07 4.3e-05 23.4 0.6 1 23 2692 2714 2692 2714 0.98

65 94 0.00013 0.011 15.8 1.4 1 21 2720 2740 2720 2741 0.95

66 94 0.09 7.5 6.9 0.0 1 23 2765 2787 2765 2787 0.95

67 94 1.3 1.1e+02 3.3 0.4 1 23 2812 2834 2812 2834 0.95

68 94 0.24 20 5.5 1.1 1 23 2838 2861 2838 2861 0.95

69 94 2.4 2.1e+02 2.4 0.6 2 23 2869 2891 2868 2891 0.91

70 94 0.13 11 6.4 3.1 1 23 2916 2939 2916 2939 0.93

71 94 0.0035 0.29 11.3 7.7 1 23 2950 2972 2950 2972 0.98

72 94 0.00013 0.011 15.8 1.0 3 23 2981 3001 2979 3001 0.96

73 94 0.00015 0.013 15.6 6.3 1 23 3007 3029 3007 3029 0.98

74 94 0.00027 0.022 14.9 0.8 1 23 3035 3057 3035 3057 0.93

75 94 0.13 11 6.4 0.9 2 23 3095 3116 3094 3116 0.91

76 94 0.038 3.2 8.1 0.1 1 23 3138 3160 3138 3160 0.97

77 94 0.56 47 4.4 1.9 1 23 3164 3186 3164 3186 0.94

78 94 0.0023 0.19 11.9 0.3 1 23 3191 3214 3191 3214 0.98

79 94 0.0035 0.3 11.3 1.5 1 23 3220 3242 3220 3242 0.96

80 94 1.8 1.5e+02 2.8 1.5 3 23 3250 3271 3248 3271 0.90

81 94 0.0021 0.18 12.0 0.7 2 23 3283 3304 3283 3304 0.97

82 94 5.1e-07 4.3e-05 23.4 0.4 1 23 3314 3336 3314 3336 0.96

83 94 2.7e-05 0.0023 18.0 2.2 1 23 3342 3364 3342 3364 0.98

84 94 1.4e-05 0.0011 18.9 1.6 1 23 3370 3392 3370 3392 0.98

85 94 0.0053 0.44 10.8 6.7 1 23 3414 3436 3414 3436 0.97

86 94 0.0028 0.24 11.6 0.1 1 23 3465 3487 3465 3487 0.98

87 94 0.004 0.33 11.2 0.2 1 23 3491 3513 3491 3513 0.94

88 94 0.00039 0.033 14.3 0.2 1 23 3549 3571 3549 3571 0.96

89 94 0.2 17 5.8 1.3 1 23 3577 3600 3577 3600 0.94

90 94 0.0033 0.28 11.4 3.4 2 23 3612 3633 3611 3633 0.98

91 94 6.5e-06 0.00055 19.9 1.6 3 23 3645 3665 3643 3665 0.96

92 94 0.0003 0.025 14.7 3.7 1 23 3671 3693 3671 3693 0.98

93 94 1.9e-05 0.0016 18.5 2.3 1 23 3699 3721 3699 3721 0.97

94 94 0.00018 0.015 15.4 1.5 1 21 3727 3747 3727 3748 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	94	0.0019	0.16	12.1	3.7	1	23	19	41	19	41	0.96
2	94	0.0013	0.11	12.7	2.3	1	22	45	66	45	66	0.96
3	94	6.4e-05	0.0054	16.8	3.2	2	23	78	99	78	99	0.98
4	94	0.032	2.7	8.3	3.2	2	23	105	127	104	127	0.95
5	94	8.4	7.1e+02	0.7	3.1	1	23	133	155	133	155	0.97
6	94	0.43	36	4.8	4.4	1	23	161	184	161	184	0.93
7	94	0.00042	0.036	14.2	7.8	1	23	189	211	189	211	0.99
8	94	3.4e-05	0.0029	17.7	4.9	1	23	220	243	220	243	0.97
9	94	6.5e-05	0.0054	16.8	0.1	1	23	248	270	248	270	0.97
10	94	3.9e-06	0.00033	20.6	1.1	1	23	276	298	276	298	0.98
11	94	3e-05	0.0025	17.8	0.9	1	23	304	326	304	326	0.99
12	94	6.2e-05	0.0053	16.8	0.6	1	23	332	354	332	354	0.99
13	94	0.063	5.4	7.4	0.3	1	20	377	396	377	398	0.95
14	94	0.011	0.92	9.8	3.1	1	23	404	426	404	426	0.96
15	94	0.3	26	5.2	1.7	1	21	599	619	599	620	0.95
16	94	0.093	7.9	6.9	0.7	2	22	627	647	626	649	0.89
17	94	0.03	2.5	8.4	1.5	3	23	655	675	654	675	0.97
18	94	0.013	1.1	9.5	4.1	1	23	681	704	681	704	0.96
19	94	5.6e-05	0.0047	17.0	1.6	1	23	709	731	709	731	0.98
20	94	0.55	47	4.4	3.6	1	23	803	826	803	826	0.93
21	94	0.076	6.4	7.1	1.9	2	23	1075	1096	1074	1096	0.96
22	94	0.027	2.3	8.5	6.5	1	23	1102	1124	1102	1124	0.99
23	94	0.42	35	4.8	1.3	1	11	1130	1140	1130	1152	0.81
24	94	9.3e-05	0.0079	16.3	2.4	1	23	1158	1181	1158	1181	0.98
25	94	0.014	1.2	9.5	2.5	1	23	1193	1216	1193	1216	0.96
26	94	0.0034	0.28	11.4	0.9	3	23	1224	1244	1222	1244	0.96
27	94	0.0056	0.47	10.7	0.6	3	23	1252	1272	1250	1272	0.97
28	94	1.1e-05	0.0009	19.2	0.5	1	23	1278	1300	1278	1300	0.98
29	94	1	86	3.6	0.1	2	19	1363	1380	1362	1384	0.78
30	94	0.048	4	7.8	0.6	1	23	1390	1412	1390	1412	0.97
31	94	0.001	0.087	13.0	0.3	1	23	1418	1440	1418	1440	0.96
32	94	0.00012	0.01	15.9	4.0	1	23	1446	1469	1446	1469	0.98
33	94	0.0012	0.099	12.8	3.6	1	23	1481	1504	1481	1504	0.96
34	94	3.8e-06	0.00032	20.7	0.3	3	23	1542	1562	1540	1562	0.97
35	94	7.8e-08	6.6e-06	26.0	0.6	1	23	1568	1590	1568	1590	0.99
36	94	0.0059	0.5	10.6	0.5	1	21	1596	1616	1596	1617	0.96
37	94	2.9	2.5e+02	2.1	0.3	7	23	1690	1707	1683	1707	0.81
38	94	0.045	3.8	7.8	3.9	3	23	1728	1748	1727	1748	0.96
39	94	0.0038	0.32	11.2	2.0	1	23	1752	1774	1752	1774	0.98
40	94	0.19	16	5.9	0.6	1	19	1808	1826	1808	1830	0.92
41	94	1.7	1.5e+02	2.8	3.2	1	23	1836	1859	1836	1859	0.86
42	94	0.00033	0.028	14.5	2.6	1	23	1870	1892	1870	1892	0.98
43	94	0.014	1.2	9.5	0.5	3	23	1899	1919	1898	1919	0.97
44	94	0.0036	0.3	11.3	2.8	1	23	1925	1947	1925	1947	0.95
45	94	2.5e-07	2.1e-05	24.4	2.1	1	23	1953	1975	1953	1975	0.99
46	94	0.83	70	3.9	1.8	3	23	2112	2132	2111	2132	0.96
47	94	0.00093	0.079	13.1	0.5	1	23	2136	2158	2136	2158	0.98
48	94	0.19	16	5.9	1.1	1	23	2193	2215	2193	2215	0.96
49	94	0.0011	0.097	12.9	0.5	1	23	2221	2244	2221	2244	0.95
50	94	7e-06	0.00059	19.8	2.7	1	23	2255	2277	2255	2277	0.99
51	94	0.00013	0.011	15.9	0.3	3	23	2284	2304	2282	2304	0.97
52	94	0.092	7.7	6.9	0.9	1	23	2310	2332	2310	2332	0.97
53	94	1.1e-06	9.1e-05	22.4	1.6	1	23	2338	2360	2338	2360	0.99
54	94	0.00055	0.047	13.9	0.5	1	22	2366	2387	2366	2387	0.95
55	94	0.033	2.8	8.3	0.7	1	23	2417	2439	2417	2439	0.97
56	94	0.046	3.9	7.8	0.2	1	23	2460	2482	2460	2482	0.96
57	94	0.083	7	7.0	0.4	1	23	2486	2508	2486	2508	0.93
58	94	0.012	1	9.6	0.7	1	23	2513	2536	2513	2536	0.97
59	94	0.00012	0.0099	16.0	0.2	1	23	2542	2564	2542	2564	0.96
60	94	0.0067	0.56	10.5	0.8	1	23	2570	2593	2570	2593	0.97
61	94	0.00041	0.035	14.3	3.2	1	23	2604	2626	2604	2626	0.98
62	94	1.1e-05	0.00089	19.3	1.3	3	23	2638	2658	2636	2658	0.96
63	94	0.00013	0.011	15.8	3.0	1	23	2664	2686	2664	2686	0.98
64	94	5.1e-07	4.3e-05	23.4	0.6	1	23	2692	2714	2692	2714	0.98
65	94	0.00013	0.011	15.8	1.4	1	21	2720	2740	2720	2741	0.95
66	94	0.09	7.5	6.9	0.0	1	23	2765	2787	2765	2787	0.95
67	94	1.3	1.1e+02	3.3	0.4	1	23	2812	2834	2812	2834	0.95
68	94	0.24	20	5.5	1.1	1	23	2838	2861	2838	2861	0.95
69	94	2.4	2.1e+02	2.4	0.6	2	23	2869	2891	2868	2891	0.91
70	94	0.13	11	6.4	3.1	1	23	2916	2939	2916	2939	0.93
71	94	0.0035	0.29	11.3	7.7	1	23	2950	2972	2950	2972	0.98
72	94	0.00013	0.011	15.8	1.0	3	23	2981	3001	2979	3001	0.96
73	94	0.00015	0.013	15.6	6.3	1	23	3007	3029	3007	3029	0.98
74	94	0.00027	0.022	14.9	0.8	1	23	3035	3057	3035	3057	0.93
75	94	0.13	11	6.4	0.9	2	23	3095	3116	3094	3116	0.91
76	94	0.038	3.2	8.1	0.1	1	23	3138	3160	3138	3160	0.97
77	94	0.56	47	4.4	1.9	1	23	3164	3186	3164	3186	0.94
78	94	0.0023	0.19	11.9	0.3	1	23	3191	3214	3191	3214	0.98
79	94	0.0035	0.3	11.3	1.5	1	23	3220	3242	3220	3242	0.96
80	94	1.8	1.5e+02	2.8	1.5	3	23	3250	3271	3248	3271	0.90
81	94	0.0021	0.18	12.0	0.7	2	23	3283	3304	3283	3304	0.97
82	94	5.1e-07	4.3e-05	23.4	0.4	1	23	3314	3336	3314	3336	0.96
83	94	2.7e-05	0.0023	18.0	2.2	1	23	3342	3364	3342	3364	0.98
84	94	1.4e-05	0.0011	18.9	1.6	1	23	3370	3392	3370	3392	0.98
85	94	0.0053	0.44	10.8	6.7	1	23	3414	3436	3414	3436	0.97
86	94	0.0028	0.24	11.6	0.1	1	23	3465	3487	3465	3487	0.98
87	94	0.004	0.33	11.2	0.2	1	23	3491	3513	3491	3513	0.94
88	94	0.00039	0.033	14.3	0.2	1	23	3549	3571	3549	3571	0.96
89	94	0.2	17	5.8	1.3	1	23	3577	3600	3577	3600	0.94
90	94	0.0033	0.28	11.4	3.4	2	23	3612	3633	3611	3633	0.98
91	94	6.5e-06	0.00055	19.9	1.6	3	23	3645	3665	3643	3665	0.96
92	94	0.0003	0.025	14.7	3.7	1	23	3671	3693	3671	3693	0.98
93	94	1.9e-05	0.0016	18.5	2.3	1	23	3699	3721	3699	3721	0.97
94	94	0.00018	0.015	15.4	1.5	1	21	3727	3747	3727	3748	0.95

Sequence Information

Coding Sequence: ATGATCGAGCGAACGCGGAAAAGTGGGCCGAGGTACGAGAACGGCAGGAAAGTTTACGACTGCCACATTTGCTTCAAGACTTTCACGAAATCGTCTGTGCTTAGCAACCACAAGAAGGCACACGGCCGAACGTACAATTGTCGTTTTTGTCCCGAGAAGTTTAAGCGGTTGTACAAGTTGAAATTACACATGCGGAAGAAACTGAAGCGAGATGTTCCGGTGGAGGCGAGGACGTGTAAAGTGTGCAACAAAGTGTTCAAGCGAAAGGAGACGCTCAGTTTGCACAAGAAAACGCACGGCGAGAAAACCGTGCAGTGCGGTTTCTGCGACAAAAAGTTCTACCACTACAAAAACTACTATCAGCACAAGATCATGATGCATCCGTCGCAAGAGCAATACGTTTGCCAGGCGTGCAACGCGACGTTCAAGTGCAAACTTTATTACGACAAGCACATCATGCGACACACGAAGGACTACAAGTTCAAGTGCGAGCTGTGCGACAAAGGGTTCTTCACCCGCGGCGAGCACAAACATCACAAGGAGTCCGTGCACGAGGGCATACGCTACACGTGCGAGCACTGCGGCAAGACGTACGTGCATTGCGCTCAATTCAAGCTGCACCTGAAGACGCATCGCGACGACTACGTGCGGAAGGAGTTCGAGTGCACGGAGTGCAAACGCTCGTTCACGCGTCGCCATCAGTTGAAGGATCATCGGCAGAAGGTGCACGAGGGCGTGCGGTTCATTTGCGAGATATGCGGCAAACAGTTGAGCACGCAGCAGAGCCTCAAGGAGCACATCATCGTGCACGAGGGCGTGAAGCCGTACGTGTGCGACACGTGCGGCACGCGGTTCAATAAGAAATCGCTGCTCACCACGCACATACGTCTGCATACGAACGAGAAACCGTACAAGTGCGACGTGTGCGACAAGCGGTTCACGCAGTTGCCGCCGCTGAAGATCCATCGACGGTATCACACCGGCGAGAGGCCGTACAAATGTAGCATTTGCGAGAAGGCTTTCGTGTCGAAGACCATACTCAATACGCACATGAAAGTACACGGCACCACGTTGAACAACGTATGTGAGCTAATCGAAggatcgtcgtcgacgccAACGGAAATCGTTTACGAATGCGAGGTGTGCTCGCGTCTGTTCGCTAAGAGCAACGACTTCCAGCAGCATTACGGCCGCCGCATCGACGACTCGTACGTTTGTTGCAAATGCGACAAACGTTTCGATTCGACCACCAGCTTGTACGAGCACCGCGAATGGCACAAGAACGAAGACGTGTACGAAGAGGAGGTAATTATCAACGTCGGCGACGACATTGATTTGGATAATTGCTACACGGAGAACGTGGAAACGGCGATGGACGTGCCTGCTAACGAAGAGACCGacgaaatttacattttggaCGATACGCAGTGCGCGAACGAGGTCATAATCGAAGATAACGATgaaacgtcgtcgtcgattaaATCGAATAACAATTATGCCATCGTGAAAATGGAGCACGGCTACATGTTGCCGAGCATATTCAAAGGGCAATTGGAGTCGAGACCGCGGCCGAAAAAACGGGAGATCAACAGTAGCGTCAATAATATCGATAGTACTAATGCGTCGAAATACGTGCTGATCGAGCCGACCACCAGTAAAATCGGTCAGCCGCAAAGAAATGGGCGCAACGGTGGAGGAATGCAGTCGTACGGCAAGAAGAGACACGAGATACCGGATTTCTCGCCGACCGATTACGTCCAATTGAAGCCGAACGACGAGGTCGACGTGCCGCATTTCAAGTGTTTGCGTTGCGAGCAATTGTTCATTAACAAGTTCACGTTCTTCCGGCACATCGAGAAGGGCAAGTGTTTCATCAATCAATGCGATGTGTGCACGACGCGTTTCGACAAGAACAGTGACTTTTACGAGCATTACGTCGAGAGCCACACGGACCGGGCGATTTGTAATTTCTGCTTTAGGACGTTCATGTACGAGAAGAACGTGAAGGAGCACATGCTGCGGCATCTGGATCAGTTCCGGCACCGGTGCGAGGAGTGCAACAAGGGTTTCTACACGATCAGAGAGTATAGGAACCATTACAAGAACAGGCACATGGGTATCAGGCATCAGTGCGTCGTGTGCGGTCGCTCGTTCGCCGACGAGTACTATTTCAAACGGCACACCGCCACGCATACCAACGATATCGTGTTAGAAATCGGCGATCCCCTCGCTAGCTTTTCgGCCAACAAAGAAAAGCTGTTGCAAGCATCGCATCTACTCAAAAAGTGCTTCGTCTTCGTCGGGAACATGAAGACGCTGAACAAATCGAAATACGCACTACATAAACCGCAGACAGATTTCGAACGGATAAGCAAACAGAACATATTACCGAAACATCGAGCCAAGTTCAAGTGCCAACATTGTGCTTCGCGATTCGTGCTCAACAGTTATCTGCAAGAGCACTACTTTTATATGCACTTTCAAGAGTTCGctaaaaaatttataatggaAGACTTGGACGACGAAGAATTATCTATAGACGTTGTCACCCAGAGAATGTTGAAGGATCGACTGAAAAAAGTGCTGGCGCGTACTACGAGACCACAGAAAGCGAGAAGAAGTAAACCGTTCGGCAGCGAGAAGAAAGGTACGAATGCATCGATTCGAAAGGAACGCAACGGCACGAATGAGAGTCCGCGTACCACAAACGATGACACAAATTGTAATACGATAGCTGCGAATAATACAGCGACAGCTGTAATTGATCTTCCCAACATACGTAATACGGCAACGCATGCAGCAGTCGGTAATTCTAATAAACGCGAATCTGCGGTCGATGTTGTAAAATTAAGGCAAAACTCTATTAAAACTTACTTAAAACCATCGCGAAACAACGGTAGTCCCACGGTAGACAAGAAGCAACAAGATTGTTCGCTCGTTGGTGACCATACAATTGGAGAGGAAGGATCGTCGTCCTCGACGAAAATACCGGAACCTGCGAACAGCAAACGaacgttttcttcgtcgctGGTAGAAGCGTTTCGTTGCCAGAGatcAACGCCGGATGGCACGAtgaagtcgaagaagaaagtCGTCAAAGTGCGACCGAAGCCCAACGCCAAAGGGGGACAGCGAAGAGCGCAAAAGAGTAAAAAGCCCTTAAACGCGAAACCGGACGCTACGACTCCAACGGCCACGAAAACCGACATTAGCGACGCGATACATTGCGACATGTGCGACAAACTGTTCGACGATCATACCTCGTACGGCGTGCACCTGATGACGCACAGCAAATCGAAAAAGTACACGTGTCACATATGCGATCACAAGTCGAAGTCGAAGAAAGTGTTCGAGCGGCACGTGAAGACGCACGAGGGCAAGACGCGATTCAAGTGCGAGATTTGCCAGAAGGCGTTCACGATCGGCACGCACGCCTTGGAGCACAAGTACTTTCACACCGGCGAGACGCCGTTCCAGTGCGACATATGCGGCAAGAGTTTCATGTACTCGCGCTTCCTCTCGTCGCATCGGCGTTCCTACCACTTGGAGATCATATCCGGCGAGCCGGCGCCGAACTACACCTGTTTGATTTGTAACGTCGTGTACACGAAGTACAGCAGTTACAAGAAGCATAACATGCGCAAACACCTGGACCAAGAACCGCATCTGTGCGACGTGTGCGGTAAGGTGCTGTCCAGTGCGGAGATGTTAAAGTTCCACCAACGCACGCACACCGGTTATAAGCCGTTCGGTTGCGCCACGTGCGGCAAAAACTTCACGAAGAAACAGCGACTCGTCGAGCACGAGCGCGTCCACACCGGCGAGCGGCCGTTCATTTGTAAATACTGCGGCAAAGGGTTCACGCAACGGCCGCCGCTGAAGATACACGAGAGGACGCACACGGGCGAGCGGCCaTTTACGGAAACTGGCAAACCGCTGTCGCTGCCGAAAAATGATGACGAAACGTCGATTAACAACAGTAACGGTAACGCCAAGAAGCGCAAAAGATCGTTGCGACGATGTAACAGTAAAAAGGAACCCGTCGAAATCGAGGACGACGGTCGTCCAGAAGACCGCGAGATCATCCACTGCGGCGTTTGCGACGAAACGTTCAAGAACGCGCTCGCTTACGGCCTGCATTCGATCGAGCACCGCGACGACGACCGGTACGCGTGTTACGTTTGCGAGTACACGACGGCGTCGAAGAAGTACTTCGTCACTCACGTGAAGGTGCACGTCGGCAAGACGAAGTACAAGTGCGAGATTTGCGACAAGGCGTTCGTCGTCAAGAGTTACGCCTTGGAGCACAAGAATCTGCACACCGGCGAGCGGCCGTACCAGTGCGAGATATGCGGCAAACATTTCATGTTCTCGTCCTTCCTCTCGTCGCACCGACGCACGCAGCATTCGGACGTGACGACCGGCGTGCCGTTGGTCAAATACGATTGCACGACATGCGACAAACACTATAACTCGTCGACGGCATTGAGACGGCACAAGCTGATGAAACATAACGCGATGGGCGACTTGTCCGTGTTGTGCGACGTGTGCGGCAAGCGGTTGTCGTGCAAGGAGAAATTGAAGTTCCATCGGCGCATTCACACCGGTTACAAGCCGTACGGTTGTGCCGTGTGCGGCAAGAGTTTCACGCGGAAGGAACAGTTGAAGGAGCACGAGCGCGTGCACACCGGCGAGAAGCCGTTCAAGTGCGAGGTGTGCGGCAAAGGATTCACGCAGCGGTCGCCGCTGCGGATTCACATGCGGACGCACACCGGCGAGAAGCCGTACGTTTGCCGATTGTGCGGCAAAGGTTTCATCTCGAAAAGCATCATGAACACTCACATGAGACATTGCGATGGGAATGGCGTCTCGTACTTGCCAGATTACTTGATGCCTATAGTGACGATACAGGAGGATATTAAACCGGTGCTACGTAGAAGAGGCAAAACGAGTAGCAGCAGCAGAGCCGCGTGGAAAACGAGGAGAGCCGATAAGACTAATAGCAATAATACTTCGATAAAAACGCGCAGAGAGGAAACGAAACGGATCACGTGTTACTTCTGCGCGGATAAAATGTTCACCAGCGAGGGCGAATTGAAATTGCACTTTCAGTATTTGCATCCGGGGAAATTGATGAATCTGCAGAAGAACTCGTCGCTAACGACGCAAGAGTACGAGAGTTGCTACGTGTGCCATAAGAAACTGAAGACGGCCAAGCGACTGAAGGAGCACATGAAACTCCATTACAATCAGTACAATTGCGACGAGTGTAATACGTGTTTCAAGAAGGTGCTCGATTACGTCTTACACATGCGGGTGCATAGTAAGGAGGAACTGTTCCGCTGCATCTATTGCGATTACAAAGTGGAATGCATCAACGAGATTAGCAAACACGTGAAGAACCACGAGACCACTTACAAGTACACGTGCAAGATTTGCAATCAGGGCTTCAATCTGCTGTCGTGGTACGAAGAACACGATAACTTTCATACCGGCGCCACGCCGTTCGAGTGCGAGTTCTGCAAGAAACGGTTCCCGTACACGCGTTTGTTACATTTCCATCGTATATCCGTGCACAGCGACGTGGTGATGGACGGTCGGTCGGTGTACGAGTGCGTTATCTGCAAGAAACGGTATCAGCACAAGAACAGCCTCAATTTGCACATGAACATTCACACCGGCAATTGCGCGATATGCGACATCTGCGGGAAACAGTTGTCGAGTAGGGAAAAGTTAAAGTTCCATTTGCGCATTCACACCGGTTATAAACCGTACAAGTGTAAATATTGTCCGAAATGTTTCACGAAGAAACCGATATTGGACGAGCACGAGCGCGTCCACACCGGCGAGAAGCCGTACAAGTGCAGCTATTGCGAGAAGTCGTTCTCGCAACGGTCCAGTTTGGTCATACACCAGCGGAGTCACACGGGCGAGCGACCGTTCGTGTGCCATTTGTGCAATAAAGGGTCGATAAACGATTATTTCGTTCACATCGTTTCGACGTTTAATGGGAAACGGCCGatactatttaaaaaaacgaaatcgacaAAGACCAAGCGCCGCCCGAGTAGAAACAGCAAGAGGCACGCAAAAAGGGACGAGTACGAGGACGACGGCATCGACGATGAAACGGACGATGCGTCCGCGGACGAGCGAGACGAACCGCGATTGTCGACGAACCATTGCGAGGTGCGAAAATTCGCGTGTCCTCACTGCAACGGCAACGGTAACAACGAAATGGCGATGGGCGAGACGGAATTGCGTAAGCACATAAAACAGCAACATCCCACGCAACGGCGCAAATATCCGAAGCTGATCAAGCAGTATCGCAATTGTTACGTGTGCAATCGACAGATCAAGACGTTCAAGAAACTCAAAGAGCACCTACAGCTACACAACAAAACGTACAATTGCGAAGAGTGTTACGCGACCTTTAAGAAACTCATCAACTACGTCGCCCATCTACGCACGCACAACACGGAAACGACCGTCTATGCGTGCATCTATTGCGACTACAAGAACGAATCGCTGAAGGAGATCACCGCGCACTTGAAGCAGCACGAGAAGAAGCCGATCTACAAGTGTTTGACGTGTAAGGAAGGCTTCAACATTAGTTCGTGGTACGAGGAGCACAAGAATTTCCACAACGGATCGAGTCCGTACGCGTGCGAGTATTGCGACAAACGGTTCCCGTTGTCGCGCCTGTTGAATCTGCACAAGCTGTCGATGCACCGGAACGAGTACCTGAAAGGACTGGCCATCTACGAGTGCACCGTCTGCAAGAAACGCTATCAGCGGAAGAGCAGTTTACGCGTGCACATGAACCGTCACACCGGCAACGTGTCGATATGCGAGATTTGCGGCAAACAGTTGTCGAGCAGGGAGAAACTGAAGTTGCACATACGCATCCACACCGGTTACAAGCCGTTCAAGTGTCGATTTTGCGCGAAGAGTTTCACGAAGAAGCCGATCCTCGTCGAGCACGAGCGCGTCCACACCGGCGAGAAGCCGTACAAGTGCAGCTATTGCGAGAAGTCGTTCTCGCAACGGTCCAGCTTGGTCATACACGAGCGGAGCCACACGGGCGAGCGACCCTTCAGCTGTCACATTTGCTTCAAGAGTTTCGTCGCCCGGGCTCTTCTGAACGTGCACATGAAcaAACGCCGAACGTCGAAAAGACGGACCAAGAGACAGAGACGAGCCGTGggagcgaaacaaaaacgtttGGACAACGGACTCGAGAAGATTTACGAATGCGACGTGTGCGGCGACATATTCTTCACCAGCCGCGGTCTGCACACGCATCGCAACGCTCACGATCACAAACCGATGAACGTCGACATTTACAATTACTTCTACGACTACGAGGACAAGAAGTACATATGTAAAACGTGCGAGGCGGGCTACGAGGACTTCAAAGAGCTGGAGAAACACCTCGAACAGCACGAGGACAAGTACGTTTGCAAGTATTGCAACCAGGTGTTCATGGAGCCGATCAAATACGCCATACACAATTACACGCACGAGACCGACTACTATCGATGCCCGTTTTGTCCGATGAAGACGACCGTGCGCAATTCGCTGTACAGTCACATCAAACAGGTCCATTTGCAAAAGTACTCGTTCGTTTGTAAGTATTGCGGTCGCGGTTTCATCGACAGCGTCTACCTGAAAGAGCACGAGGACTCGCACGAGCGCGGCACGAAGTTCACTTGCGTCGTTTGCAATAAAGAGTATCCGTTCTCGCGATACCTACTGCAACATCAGATCCGTAACCATACGGTCAACATCGAAGGCGTCCTCTTGCCGCACCAATGCCCGATCTGTTATAAACTGTACAAGAAGGCGGAATCGTTGAAGAAGCACCTGAAGCGCCATCAGCAGAACGAGCAGCGGGAGATTCGACACTTGTGCGACATTTGCGGTAAGAATTTCTCGCAAGCGGACAAACTGAAACTGCACTATCGCATCCACACGGGCGAGAAGCCGTATCATTGTCAGTATTGCGAGAAGAGTTTCACGAAGAACGATTACCTGGTGATGCACGAGCGCATCCACACGGGCGAGAAACCGTACTCGTGCGAGTACTGCGGCAAGTGTTTCAATCAACCGGCGCCGTTAAAGATCCACATTCGGGTGCATACCGGCGAGAAACCGTTCTCGTGTCACTTGTGCGGCAACGCTTTCACCTCGAAGGCCAACTTGAACACTCACTACAAGAAAACGCGAAAGAAACGTAATTTAAGAAAACGCGTTAAAGCGAAAAAGGACGACGACGTGCCGGATACGATTTACGAATGCGAAACGTGCCGGAAGGTGTACCCGACGTTGATCGGCGTGCGAAATCACGAGGCGGTGCACAGAAAGCAAGGAAACGGTTCGtcgttgaagaagaagacgtaCTCGTACGTTTACGATCCGGCCAAGGAGAAGTTCGTTTGCAACGACTGTTGCGCCGCATACATCCAATTGAGCGACATGAAGCTGCACCTGGACGAGCACGAGTACATGCATTTCTGCAAACACTGCGCCGAGGCGTACGGCGACAACGTCGAGTTCGCCGTGCACGTTAACACCAAACACGCGATGACGAACGACCGGTGTCGGTGTCCGTTCTGTCCGGCCGTCAGCAAATCGTTGCCGGTGTTGCGACAGCACGTGAGTAATAAGCACGCGAAGATTAAACTGCGCAGCGAGGCGTCGGAAGCGGCGGCCGTCAGGAAACACGGGCCGCCGTTGGCGGTGCATCAGTGCGTCACGTGCGACCTGTCGTTCCAGCGTTTCCGACTGTTCGAACGGCATCGGCTCGCGTTTCACAAGACCGCCGATAAGGAGGCGACGTTCATGCATCGGTGCACGTTGTGCGATAAAGTTTACTCGCATTACCACTCCGTGCGGCGGCACATTCAGCGGCACAAGGAGCAGAAGATGATGCATTTGTGCGACATTTGCGGCAAGAATTTCACGCTGGCGGAAACGCTGAAACTGCACTATCGCATTCACACCGGCGAGAAACCGTACCATTGCCAGTATTGCGACAAGCGTTTCAGCAAACACGATTATCTCGTGTCGCATCAGCGTATCCACACGGGCGAGAAACCGTTCGCGTGCGACTACTGCGGCAAGCGTTTCAGTCAACGGGCCTCGTTAAAGTTTCACATTACCGGTCACACCGGCGACAAACCGTACACGTGTCATATCTGTAACGGCGGGTCCAGGAGGTCGACCAGACGGTCGTCGCGTCGTATCAGAATGAAAGCGACGAGCCGCGACGAGAAACACGTGTGCATACGCTGCAACGAGGAATTCGCGACCGACTCGAAGCTCCGTCAGCACTGGAAGGTGCACCGCAAGAAGATGTCCACGGTGGCGAACAGCGCGAATTATTACTACAACAGTTTGGAAGCGCGATACGTTTGCAACACGTGCGACAGCGAGTTCGTCGACGAGAACGAGATCAAGAAGCACGTGGACAGCCACGAGGACAAGTTCAAGTGCAAACTGTGCAACGACATTTTCAAGGACCCGATCAAGTTCTGCGTGCACGTTTACGGCCACGAGAAGGAAACTTATCGTTGTCCGTTGTGCGACAAGACGACGCCGTCGCGGAACGCGATTTACAGTCACATCAAACGCGTGCATCTACGACAATACCTCTACTATTGTCAGCATTGCGGCAAGGGCTACGACGACAAAACGTCCTTCGTGGAGCACGAGGACTCGCACATCAGCGGCAAAAAGTACCTTTGCATCGTTTGCCGGAAGGAGTATCCGTTCTCCAAGTACCTGCTGCACCATCAAATCCGGTACCATCGCGTCAATTTCGAGGGATGCCTCCTGCCGAACGAATGTTACATCTGCAACAAGACGTTCAGCAAGGACAAAACGTTGGCCGAACATCTCGAACGTCACGGTCGCGTGGCCTCGCGGGAAATGAAATACTTGTGCGACATCTGCGGCAAAGCGTTCTCGCGCAGCGACAAGCTAAAGGTCCATTACAGGGTGCACACCGGTTACAAGCCGTTCCAGTGTCAATCGTGCGACAAGTCGTTCACGAAGAAAGAGTATCTGACGATGCACGAGCGCATCCACAGCGGCGAGAAACCGTTCACGTGCCAGTACTGCGGCAAGTGTTTCAATCAGACGGCCCCGCTGAGGATTCACATACGCGGCCACACCGGCGAGAGGCCGTCGCTGGCGAAAATTCGAAAGTTCCGCAAGAGCAAACCGCAGCCGAAGCACACGTGCAAATTGTGCAACGAGCATTTCACGAACGAGAAGAAGCTGCGTGTGCACCGGCGCCAACACAAGCAGCAAAAGActgcgtcgtcgtcgaaagCGTCGACCGGTGCCGACACGGCCACGTACTACTACAACAAATTGGAATCGAAGTACATTTGCAACACGTGCGAAACGGAATTCGCGACCGTCGACGAAGTGGAGAAACACATCGAGACGCACGCGGAGAAGTACGTGTGCGAGATCTGTAGCGAATCGTTCAAAGATCCGTTTAAGTACGCCGTTCACAATAACGCGCACAACAACGGCGACTCGTCGTTTTACTGTCCGTTTTGCACGATGAAAACGTTAGCGAAGAACTCGCTCTATTGTCACATACGCAAAATCCATCTGCAGCAATTCTCGTACGTTTGTCGTTACTGCGGCAAAGGTTTCGACGATCGCACTTATCTCGTGGAGCACGAAGACATGCACGTGAACGGGACAAAGTACACGTGCATCGTTTGCAAGAAAGAGTATCCGTTCTCGCGATACTTGCAACAGCACCAGGTCCGCTATCACAAGGTGAACATCGACGGCGTCCTCTTGCCGAACCAGTGCCATCTCTGCTATCGCGTCTATAGGAAGCCGAAGACGCTGACGGAACATTTGAAACGGCACGAGCAGACGACGACGCGCGATTTGAAACACTTGTGCGACATTTGCGGCAAGAGTTTCGCGCAGCGCGACAAACTCAAGTTGCACTATCGCATCCACACCGGCGACAAGCCGTACCATTGCCGATACTGCGAGAAGAGTTTCACGAAGAAGGACTACCTGGTGATGCACGAGCGCATCCACAGCGGCGAGAAACCGTACGCGTGCCACTTCTGCGGCAAGTGTTTCAACCAGTCGGCCCCGCTGAGGATCCACATACGCGGCCACACCGGCGAGAAGCCGTACGTTTGCCATCTGTGCAACACCGGGTTCAGCTCGAGTTCGGGATTGAAGGCGCATCACAAGAGATGCGACGGCAGCGTCAATTGA
Protein Sequence: MIERTRKSGPRYENGRKVYDCHICFKTFTKSSVLSNHKKAHGRTYNCRFCPEKFKRLYKLKLHMRKKLKRDVPVEARTCKVCNKVFKRKETLSLHKKTHGEKTVQCGFCDKKFYHYKNYYQHKIMMHPSQEQYVCQACNATFKCKLYYDKHIMRHTKDYKFKCELCDKGFFTRGEHKHHKESVHEGIRYTCEHCGKTYVHCAQFKLHLKTHRDDYVRKEFECTECKRSFTRRHQLKDHRQKVHEGVRFICEICGKQLSTQQSLKEHIIVHEGVKPYVCDTCGTRFNKKSLLTTHIRLHTNEKPYKCDVCDKRFTQLPPLKIHRRYHTGERPYKCSICEKAFVSKTILNTHMKVHGTTLNNVCELIEGSSSTPTEIVYECEVCSRLFAKSNDFQQHYGRRIDDSYVCCKCDKRFDSTTSLYEHREWHKNEDVYEEEVIINVGDDIDLDNCYTENVETAMDVPANEETDEIYILDDTQCANEVIIEDNDETSSSIKSNNNYAIVKMEHGYMLPSIFKGQLESRPRPKKREINSSVNNIDSTNASKYVLIEPTTSKIGQPQRNGRNGGGMQSYGKKRHEIPDFSPTDYVQLKPNDEVDVPHFKCLRCEQLFINKFTFFRHIEKGKCFINQCDVCTTRFDKNSDFYEHYVESHTDRAICNFCFRTFMYEKNVKEHMLRHLDQFRHRCEECNKGFYTIREYRNHYKNRHMGIRHQCVVCGRSFADEYYFKRHTATHTNDIVLEIGDPLASFSANKEKLLQASHLLKKCFVFVGNMKTLNKSKYALHKPQTDFERISKQNILPKHRAKFKCQHCASRFVLNSYLQEHYFYMHFQEFAKKFIMEDLDDEELSIDVVTQRMLKDRLKKVLARTTRPQKARRSKPFGSEKKGTNASIRKERNGTNESPRTTNDDTNCNTIAANNTATAVIDLPNIRNTATHAAVGNSNKRESAVDVVKLRQNSIKTYLKPSRNNGSPTVDKKQQDCSLVGDHTIGEEGSSSSTKIPEPANSKRTFSSSLVEAFRCQRSTPDGTMKSKKKVVKVRPKPNAKGGQRRAQKSKKPLNAKPDATTPTATKTDISDAIHCDMCDKLFDDHTSYGVHLMTHSKSKKYTCHICDHKSKSKKVFERHVKTHEGKTRFKCEICQKAFTIGTHALEHKYFHTGETPFQCDICGKSFMYSRFLSSHRRSYHLEIISGEPAPNYTCLICNVVYTKYSSYKKHNMRKHLDQEPHLCDVCGKVLSSAEMLKFHQRTHTGYKPFGCATCGKNFTKKQRLVEHERVHTGERPFICKYCGKGFTQRPPLKIHERTHTGERPFTETGKPLSLPKNDDETSINNSNGNAKKRKRSLRRCNSKKEPVEIEDDGRPEDREIIHCGVCDETFKNALAYGLHSIEHRDDDRYACYVCEYTTASKKYFVTHVKVHVGKTKYKCEICDKAFVVKSYALEHKNLHTGERPYQCEICGKHFMFSSFLSSHRRTQHSDVTTGVPLVKYDCTTCDKHYNSSTALRRHKLMKHNAMGDLSVLCDVCGKRLSCKEKLKFHRRIHTGYKPYGCAVCGKSFTRKEQLKEHERVHTGEKPFKCEVCGKGFTQRSPLRIHMRTHTGEKPYVCRLCGKGFISKSIMNTHMRHCDGNGVSYLPDYLMPIVTIQEDIKPVLRRRGKTSSSSRAAWKTRRADKTNSNNTSIKTRREETKRITCYFCADKMFTSEGELKLHFQYLHPGKLMNLQKNSSLTTQEYESCYVCHKKLKTAKRLKEHMKLHYNQYNCDECNTCFKKVLDYVLHMRVHSKEELFRCIYCDYKVECINEISKHVKNHETTYKYTCKICNQGFNLLSWYEEHDNFHTGATPFECEFCKKRFPYTRLLHFHRISVHSDVVMDGRSVYECVICKKRYQHKNSLNLHMNIHTGNCAICDICGKQLSSREKLKFHLRIHTGYKPYKCKYCPKCFTKKPILDEHERVHTGEKPYKCSYCEKSFSQRSSLVIHQRSHTGERPFVCHLCNKGSINDYFVHIVSTFNGKRPILFKKTKSTKTKRRPSRNSKRHAKRDEYEDDGIDDETDDASADERDEPRLSTNHCEVRKFACPHCNGNGNNEMAMGETELRKHIKQQHPTQRRKYPKLIKQYRNCYVCNRQIKTFKKLKEHLQLHNKTYNCEECYATFKKLINYVAHLRTHNTETTVYACIYCDYKNESLKEITAHLKQHEKKPIYKCLTCKEGFNISSWYEEHKNFHNGSSPYACEYCDKRFPLSRLLNLHKLSMHRNEYLKGLAIYECTVCKKRYQRKSSLRVHMNRHTGNVSICEICGKQLSSREKLKLHIRIHTGYKPFKCRFCAKSFTKKPILVEHERVHTGEKPYKCSYCEKSFSQRSSLVIHERSHTGERPFSCHICFKSFVARALLNVHMNKRRTSKRRTKRQRRAVGAKQKRLDNGLEKIYECDVCGDIFFTSRGLHTHRNAHDHKPMNVDIYNYFYDYEDKKYICKTCEAGYEDFKELEKHLEQHEDKYVCKYCNQVFMEPIKYAIHNYTHETDYYRCPFCPMKTTVRNSLYSHIKQVHLQKYSFVCKYCGRGFIDSVYLKEHEDSHERGTKFTCVVCNKEYPFSRYLLQHQIRNHTVNIEGVLLPHQCPICYKLYKKAESLKKHLKRHQQNEQREIRHLCDICGKNFSQADKLKLHYRIHTGEKPYHCQYCEKSFTKNDYLVMHERIHTGEKPYSCEYCGKCFNQPAPLKIHIRVHTGEKPFSCHLCGNAFTSKANLNTHYKKTRKKRNLRKRVKAKKDDDVPDTIYECETCRKVYPTLIGVRNHEAVHRKQGNGSSLKKKTYSYVYDPAKEKFVCNDCCAAYIQLSDMKLHLDEHEYMHFCKHCAEAYGDNVEFAVHVNTKHAMTNDRCRCPFCPAVSKSLPVLRQHVSNKHAKIKLRSEASEAAAVRKHGPPLAVHQCVTCDLSFQRFRLFERHRLAFHKTADKEATFMHRCTLCDKVYSHYHSVRRHIQRHKEQKMMHLCDICGKNFTLAETLKLHYRIHTGEKPYHCQYCDKRFSKHDYLVSHQRIHTGEKPFACDYCGKRFSQRASLKFHITGHTGDKPYTCHICNGGSRRSTRRSSRRIRMKATSRDEKHVCIRCNEEFATDSKLRQHWKVHRKKMSTVANSANYYYNSLEARYVCNTCDSEFVDENEIKKHVDSHEDKFKCKLCNDIFKDPIKFCVHVYGHEKETYRCPLCDKTTPSRNAIYSHIKRVHLRQYLYYCQHCGKGYDDKTSFVEHEDSHISGKKYLCIVCRKEYPFSKYLLHHQIRYHRVNFEGCLLPNECYICNKTFSKDKTLAEHLERHGRVASREMKYLCDICGKAFSRSDKLKVHYRVHTGYKPFQCQSCDKSFTKKEYLTMHERIHSGEKPFTCQYCGKCFNQTAPLRIHIRGHTGERPSLAKIRKFRKSKPQPKHTCKLCNEHFTNEKKLRVHRRQHKQQKTASSSKASTGADTATYYYNKLESKYICNTCETEFATVDEVEKHIETHAEKYVCEICSESFKDPFKYAVHNNAHNNGDSSFYCPFCTMKTLAKNSLYCHIRKIHLQQFSYVCRYCGKGFDDRTYLVEHEDMHVNGTKYTCIVCKKEYPFSRYLQQHQVRYHKVNIDGVLLPNQCHLCYRVYRKPKTLTEHLKRHEQTTTRDLKHLCDICGKSFAQRDKLKLHYRIHTGDKPYHCRYCEKSFTKKDYLVMHERIHSGEKPYACHFCGKCFNQSAPLRIHIRGHTGEKPYVCHLCNTGFSSSSGLKAHHKRCDGSVN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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