Basic Information

Insect: Euclidia mi
Gene Symbol: -
Assembly: GCA_944738845.2
Location: CALYKX020000347.1:338259-371771[+]

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

1 121 0.054 15 8.4 3.8 1 23 255 277 255 277 0.98

2 121 0.00096 0.27 13.9 0.9 2 23 285 306 284 306 0.93

3 121 3.6 1e+03 2.7 0.3 1 23 310 332 310 332 0.94

4 121 0.029 8.1 9.3 2.0 1 23 337 360 337 360 0.98

5 121 0.026 7.3 9.4 0.1 1 23 364 387 364 387 0.95

6 121 0.016 4.4 10.1 0.4 2 20 403 421 403 427 0.93

7 121 0.00036 0.099 15.3 1.9 3 23 437 458 437 458 0.98

8 121 2.5e-05 0.0069 18.9 0.5 1 23 511 533 511 533 0.99

9 121 2.2e-07 6.2e-05 25.4 2.3 1 23 539 561 539 561 0.99

10 121 0.27 75 6.2 1.1 1 21 567 587 567 588 0.94

11 121 0.052 14 8.5 0.3 9 23 591 605 590 605 0.96

12 121 0.27 75 6.2 1.1 1 21 611 631 611 632 0.94

13 121 0.052 14 8.5 0.3 9 23 635 649 634 649 0.96

14 121 0.42 1.2e+02 5.6 1.4 1 21 655 675 655 676 0.93

15 121 0.052 14 8.5 0.3 9 23 679 693 678 693 0.96

16 121 0.27 75 6.2 1.1 1 21 699 719 699 720 0.94

17 121 0.052 14 8.5 0.3 9 23 723 737 722 737 0.96

18 121 0.27 75 6.2 1.1 1 21 743 763 743 764 0.94

19 121 0.052 14 8.5 0.3 9 23 767 781 766 781 0.96

20 121 0.27 75 6.2 1.1 1 21 787 807 787 808 0.94

21 121 0.052 14 8.5 0.3 9 23 811 825 810 825 0.96

22 121 0.27 75 6.2 1.1 1 21 831 851 831 852 0.94

23 121 0.052 14 8.5 0.3 9 23 855 869 854 869 0.96

24 121 0.27 75 6.2 1.1 1 21 875 895 875 896 0.94

25 121 0.052 14 8.5 0.3 9 23 899 913 898 913 0.96

26 121 0.27 75 6.2 1.1 1 21 919 939 919 940 0.94

27 121 0.052 14 8.5 0.3 9 23 943 957 942 957 0.96

28 121 0.27 75 6.2 1.1 1 21 963 983 963 984 0.94

29 121 0.052 14 8.5 0.3 9 23 987 1001 986 1001 0.96

30 121 0.27 75 6.2 1.1 1 21 1007 1027 1007 1028 0.94

31 121 0.052 14 8.5 0.3 9 23 1031 1045 1030 1045 0.96

32 121 0.27 75 6.2 1.1 1 21 1051 1071 1051 1072 0.94

33 121 0.052 14 8.5 0.3 9 23 1075 1089 1074 1089 0.96

34 121 0.27 75 6.2 1.1 1 21 1095 1115 1095 1116 0.94

35 121 0.052 14 8.5 0.3 9 23 1119 1133 1118 1133 0.96

36 121 0.27 75 6.2 1.1 1 21 1139 1159 1139 1160 0.94

37 121 0.052 14 8.5 0.3 9 23 1163 1177 1162 1177 0.96

38 121 0.27 75 6.2 1.1 1 21 1183 1203 1183 1204 0.94

39 121 0.052 14 8.5 0.3 9 23 1207 1221 1206 1221 0.96

40 121 0.85 2.4e+02 4.7 0.7 1 21 1227 1247 1227 1248 0.90

41 121 0.052 14 8.5 0.3 9 23 1251 1265 1250 1265 0.96

42 121 0.27 75 6.2 1.1 1 21 1271 1291 1271 1292 0.94

43 121 0.052 14 8.5 0.3 9 23 1295 1309 1294 1309 0.96

44 121 0.27 75 6.2 1.1 1 21 1315 1335 1315 1336 0.94

45 121 0.052 14 8.5 0.3 9 23 1339 1353 1338 1353 0.96

46 121 0.27 75 6.2 1.1 1 21 1359 1379 1359 1380 0.94

47 121 0.052 14 8.5 0.3 9 23 1383 1397 1382 1397 0.96

48 121 0.27 75 6.2 1.1 1 21 1403 1423 1403 1424 0.94

49 121 0.052 14 8.5 0.3 9 23 1427 1441 1426 1441 0.96

50 121 0.27 75 6.2 1.1 1 21 1447 1467 1447 1468 0.94

51 121 0.052 14 8.5 0.3 9 23 1471 1485 1470 1485 0.96

52 121 0.27 75 6.2 1.1 1 21 1491 1511 1491 1512 0.94

53 121 0.052 14 8.5 0.3 9 23 1515 1529 1514 1529 0.96

54 121 0.37 1e+02 5.8 1.1 1 21 1535 1555 1535 1556 0.93

55 121 0.052 14 8.5 0.3 9 23 1572 1586 1571 1586 0.96

56 121 0.27 75 6.2 1.1 1 21 1592 1612 1592 1613 0.94

57 121 0.052 14 8.5 0.3 9 23 1616 1630 1615 1630 0.96

58 121 0.27 75 6.2 1.1 1 21 1636 1656 1636 1657 0.94

59 121 0.052 14 8.5 0.3 9 23 1660 1674 1659 1674 0.96

60 121 0.27 75 6.2 1.1 1 21 1680 1700 1680 1701 0.94

61 121 0.052 14 8.5 0.3 9 23 1704 1718 1703 1718 0.96

62 121 0.27 75 6.2 1.1 1 21 1724 1744 1724 1745 0.94

63 121 0.052 14 8.5 0.3 9 23 1748 1762 1747 1762 0.96

64 121 0.27 75 6.2 1.1 1 21 1768 1788 1768 1789 0.94

65 121 0.052 14 8.5 0.3 9 23 1792 1806 1791 1806 0.96

66 121 0.27 75 6.2 1.1 1 21 1812 1832 1812 1833 0.94

67 121 0.052 14 8.5 0.3 9 23 1836 1850 1835 1850 0.96

68 121 0.27 75 6.2 1.1 1 21 1856 1876 1856 1877 0.94

69 121 0.052 14 8.5 0.3 9 23 1880 1894 1879 1894 0.96

70 121 0.27 75 6.2 1.1 1 21 1900 1920 1900 1921 0.94

71 121 0.052 14 8.5 0.3 9 23 1924 1938 1923 1938 0.96

72 121 0.27 75 6.2 1.1 1 21 1944 1964 1944 1965 0.94

73 121 0.052 14 8.5 0.3 9 23 1968 1982 1967 1982 0.96

74 121 0.27 75 6.2 1.1 1 21 1988 2008 1988 2009 0.94

75 121 0.052 14 8.5 0.3 9 23 2012 2026 2011 2026 0.96

76 121 0.27 75 6.2 1.1 1 21 2032 2052 2032 2053 0.94

77 121 0.052 14 8.5 0.3 9 23 2056 2070 2055 2070 0.96

78 121 0.27 75 6.2 1.1 1 21 2076 2096 2076 2097 0.94

79 121 0.052 14 8.5 0.3 9 23 2100 2114 2099 2114 0.96

80 121 0.27 75 6.2 1.1 1 21 2120 2140 2120 2141 0.94

81 121 0.052 14 8.5 0.3 9 23 2144 2158 2143 2158 0.96

82 121 0.85 2.4e+02 4.7 0.7 1 21 2164 2184 2164 2185 0.90

83 121 0.052 14 8.5 0.3 9 23 2188 2202 2187 2202 0.96

84 121 0.27 75 6.2 1.1 1 21 2208 2228 2208 2229 0.94

85 121 0.052 14 8.5 0.3 9 23 2232 2246 2231 2246 0.96

86 121 0.27 75 6.2 1.1 1 21 2252 2272 2252 2273 0.94

87 121 0.052 14 8.5 0.3 9 23 2276 2290 2275 2290 0.96

88 121 0.27 75 6.2 1.1 1 21 2296 2316 2296 2317 0.94

89 121 0.052 14 8.5 0.3 9 23 2320 2334 2319 2334 0.96

90 121 0.27 75 6.2 1.1 1 21 2340 2360 2340 2361 0.94

91 121 0.052 14 8.5 0.3 9 23 2364 2378 2363 2378 0.96

92 121 0.27 75 6.2 1.1 1 21 2384 2404 2384 2405 0.94

93 121 0.052 14 8.5 0.3 9 23 2408 2422 2407 2422 0.96

94 121 0.27 75 6.2 1.1 1 21 2428 2448 2428 2449 0.94

95 121 0.052 14 8.5 0.3 9 23 2452 2466 2451 2466 0.96

96 121 0.27 75 6.2 1.1 1 21 2472 2492 2472 2493 0.94

97 121 0.052 14 8.5 0.3 9 23 2496 2510 2495 2510 0.96

98 121 0.27 75 6.2 1.1 1 21 2516 2536 2516 2537 0.94

99 121 0.052 14 8.5 0.3 9 23 2540 2554 2539 2554 0.96

100 121 0.27 75 6.2 1.1 1 21 2560 2580 2560 2581 0.94

101 121 0.052 14 8.5 0.3 9 23 2584 2598 2583 2598 0.96

102 121 0.42 1.2e+02 5.6 1.4 1 21 2604 2624 2604 2625 0.93

103 121 0.052 14 8.5 0.3 9 23 2628 2642 2627 2642 0.96

104 121 0.27 75 6.2 1.1 1 21 2648 2668 2648 2669 0.94

105 121 0.052 14 8.5 0.3 9 23 2672 2686 2671 2686 0.96

106 121 0.27 75 6.2 1.1 1 21 2692 2712 2692 2713 0.94

107 121 0.052 14 8.5 0.3 9 23 2716 2730 2715 2730 0.96

108 121 0.27 75 6.2 1.1 1 21 2736 2756 2736 2757 0.94

109 121 0.052 14 8.5 0.3 9 23 2760 2774 2759 2774 0.96

110 121 0.27 75 6.2 1.1 1 21 2780 2800 2780 2801 0.94

111 121 0.052 14 8.5 0.3 9 23 2804 2818 2803 2818 0.96

112 121 1.8 5e+02 3.6 0.8 1 21 2824 2844 2824 2845 0.91

113 121 0.052 14 8.5 0.3 9 23 2848 2862 2847 2862 0.96

114 121 0.27 75 6.2 1.1 1 21 2868 2888 2868 2889 0.94

115 121 0.052 14 8.5 0.3 9 23 2892 2906 2891 2906 0.96

116 121 0.27 75 6.2 1.1 1 21 2912 2932 2912 2933 0.94

117 121 0.052 14 8.5 0.3 9 23 2936 2950 2935 2950 0.96

118 121 0.27 75 6.2 1.1 1 21 2956 2976 2956 2977 0.94

119 121 0.052 14 8.5 0.3 9 23 2980 2994 2979 2994 0.96

120 121 0.051 14 8.5 2.5 1 23 3000 3022 3000 3022 0.98

121 121 0.00023 0.065 15.9 0.3 1 23 3028 3051 3028 3051 0.97

#	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	121	0.054	15	8.4	3.8	1	23	255	277	255	277	0.98
2	121	0.00096	0.27	13.9	0.9	2	23	285	306	284	306	0.93
3	121	3.6	1e+03	2.7	0.3	1	23	310	332	310	332	0.94
4	121	0.029	8.1	9.3	2.0	1	23	337	360	337	360	0.98
5	121	0.026	7.3	9.4	0.1	1	23	364	387	364	387	0.95
6	121	0.016	4.4	10.1	0.4	2	20	403	421	403	427	0.93
7	121	0.00036	0.099	15.3	1.9	3	23	437	458	437	458	0.98
8	121	2.5e-05	0.0069	18.9	0.5	1	23	511	533	511	533	0.99
9	121	2.2e-07	6.2e-05	25.4	2.3	1	23	539	561	539	561	0.99
10	121	0.27	75	6.2	1.1	1	21	567	587	567	588	0.94
11	121	0.052	14	8.5	0.3	9	23	591	605	590	605	0.96
12	121	0.27	75	6.2	1.1	1	21	611	631	611	632	0.94
13	121	0.052	14	8.5	0.3	9	23	635	649	634	649	0.96
14	121	0.42	1.2e+02	5.6	1.4	1	21	655	675	655	676	0.93
15	121	0.052	14	8.5	0.3	9	23	679	693	678	693	0.96
16	121	0.27	75	6.2	1.1	1	21	699	719	699	720	0.94
17	121	0.052	14	8.5	0.3	9	23	723	737	722	737	0.96
18	121	0.27	75	6.2	1.1	1	21	743	763	743	764	0.94
19	121	0.052	14	8.5	0.3	9	23	767	781	766	781	0.96
20	121	0.27	75	6.2	1.1	1	21	787	807	787	808	0.94
21	121	0.052	14	8.5	0.3	9	23	811	825	810	825	0.96
22	121	0.27	75	6.2	1.1	1	21	831	851	831	852	0.94
23	121	0.052	14	8.5	0.3	9	23	855	869	854	869	0.96
24	121	0.27	75	6.2	1.1	1	21	875	895	875	896	0.94
25	121	0.052	14	8.5	0.3	9	23	899	913	898	913	0.96
26	121	0.27	75	6.2	1.1	1	21	919	939	919	940	0.94
27	121	0.052	14	8.5	0.3	9	23	943	957	942	957	0.96
28	121	0.27	75	6.2	1.1	1	21	963	983	963	984	0.94
29	121	0.052	14	8.5	0.3	9	23	987	1001	986	1001	0.96
30	121	0.27	75	6.2	1.1	1	21	1007	1027	1007	1028	0.94
31	121	0.052	14	8.5	0.3	9	23	1031	1045	1030	1045	0.96
32	121	0.27	75	6.2	1.1	1	21	1051	1071	1051	1072	0.94
33	121	0.052	14	8.5	0.3	9	23	1075	1089	1074	1089	0.96
34	121	0.27	75	6.2	1.1	1	21	1095	1115	1095	1116	0.94
35	121	0.052	14	8.5	0.3	9	23	1119	1133	1118	1133	0.96
36	121	0.27	75	6.2	1.1	1	21	1139	1159	1139	1160	0.94
37	121	0.052	14	8.5	0.3	9	23	1163	1177	1162	1177	0.96
38	121	0.27	75	6.2	1.1	1	21	1183	1203	1183	1204	0.94
39	121	0.052	14	8.5	0.3	9	23	1207	1221	1206	1221	0.96
40	121	0.85	2.4e+02	4.7	0.7	1	21	1227	1247	1227	1248	0.90
41	121	0.052	14	8.5	0.3	9	23	1251	1265	1250	1265	0.96
42	121	0.27	75	6.2	1.1	1	21	1271	1291	1271	1292	0.94
43	121	0.052	14	8.5	0.3	9	23	1295	1309	1294	1309	0.96
44	121	0.27	75	6.2	1.1	1	21	1315	1335	1315	1336	0.94
45	121	0.052	14	8.5	0.3	9	23	1339	1353	1338	1353	0.96
46	121	0.27	75	6.2	1.1	1	21	1359	1379	1359	1380	0.94
47	121	0.052	14	8.5	0.3	9	23	1383	1397	1382	1397	0.96
48	121	0.27	75	6.2	1.1	1	21	1403	1423	1403	1424	0.94
49	121	0.052	14	8.5	0.3	9	23	1427	1441	1426	1441	0.96
50	121	0.27	75	6.2	1.1	1	21	1447	1467	1447	1468	0.94
51	121	0.052	14	8.5	0.3	9	23	1471	1485	1470	1485	0.96
52	121	0.27	75	6.2	1.1	1	21	1491	1511	1491	1512	0.94
53	121	0.052	14	8.5	0.3	9	23	1515	1529	1514	1529	0.96
54	121	0.37	1e+02	5.8	1.1	1	21	1535	1555	1535	1556	0.93
55	121	0.052	14	8.5	0.3	9	23	1572	1586	1571	1586	0.96
56	121	0.27	75	6.2	1.1	1	21	1592	1612	1592	1613	0.94
57	121	0.052	14	8.5	0.3	9	23	1616	1630	1615	1630	0.96
58	121	0.27	75	6.2	1.1	1	21	1636	1656	1636	1657	0.94
59	121	0.052	14	8.5	0.3	9	23	1660	1674	1659	1674	0.96
60	121	0.27	75	6.2	1.1	1	21	1680	1700	1680	1701	0.94
61	121	0.052	14	8.5	0.3	9	23	1704	1718	1703	1718	0.96
62	121	0.27	75	6.2	1.1	1	21	1724	1744	1724	1745	0.94
63	121	0.052	14	8.5	0.3	9	23	1748	1762	1747	1762	0.96
64	121	0.27	75	6.2	1.1	1	21	1768	1788	1768	1789	0.94
65	121	0.052	14	8.5	0.3	9	23	1792	1806	1791	1806	0.96
66	121	0.27	75	6.2	1.1	1	21	1812	1832	1812	1833	0.94
67	121	0.052	14	8.5	0.3	9	23	1836	1850	1835	1850	0.96
68	121	0.27	75	6.2	1.1	1	21	1856	1876	1856	1877	0.94
69	121	0.052	14	8.5	0.3	9	23	1880	1894	1879	1894	0.96
70	121	0.27	75	6.2	1.1	1	21	1900	1920	1900	1921	0.94
71	121	0.052	14	8.5	0.3	9	23	1924	1938	1923	1938	0.96
72	121	0.27	75	6.2	1.1	1	21	1944	1964	1944	1965	0.94
73	121	0.052	14	8.5	0.3	9	23	1968	1982	1967	1982	0.96
74	121	0.27	75	6.2	1.1	1	21	1988	2008	1988	2009	0.94
75	121	0.052	14	8.5	0.3	9	23	2012	2026	2011	2026	0.96
76	121	0.27	75	6.2	1.1	1	21	2032	2052	2032	2053	0.94
77	121	0.052	14	8.5	0.3	9	23	2056	2070	2055	2070	0.96
78	121	0.27	75	6.2	1.1	1	21	2076	2096	2076	2097	0.94
79	121	0.052	14	8.5	0.3	9	23	2100	2114	2099	2114	0.96
80	121	0.27	75	6.2	1.1	1	21	2120	2140	2120	2141	0.94
81	121	0.052	14	8.5	0.3	9	23	2144	2158	2143	2158	0.96
82	121	0.85	2.4e+02	4.7	0.7	1	21	2164	2184	2164	2185	0.90
83	121	0.052	14	8.5	0.3	9	23	2188	2202	2187	2202	0.96
84	121	0.27	75	6.2	1.1	1	21	2208	2228	2208	2229	0.94
85	121	0.052	14	8.5	0.3	9	23	2232	2246	2231	2246	0.96
86	121	0.27	75	6.2	1.1	1	21	2252	2272	2252	2273	0.94
87	121	0.052	14	8.5	0.3	9	23	2276	2290	2275	2290	0.96
88	121	0.27	75	6.2	1.1	1	21	2296	2316	2296	2317	0.94
89	121	0.052	14	8.5	0.3	9	23	2320	2334	2319	2334	0.96
90	121	0.27	75	6.2	1.1	1	21	2340	2360	2340	2361	0.94
91	121	0.052	14	8.5	0.3	9	23	2364	2378	2363	2378	0.96
92	121	0.27	75	6.2	1.1	1	21	2384	2404	2384	2405	0.94
93	121	0.052	14	8.5	0.3	9	23	2408	2422	2407	2422	0.96
94	121	0.27	75	6.2	1.1	1	21	2428	2448	2428	2449	0.94
95	121	0.052	14	8.5	0.3	9	23	2452	2466	2451	2466	0.96
96	121	0.27	75	6.2	1.1	1	21	2472	2492	2472	2493	0.94
97	121	0.052	14	8.5	0.3	9	23	2496	2510	2495	2510	0.96
98	121	0.27	75	6.2	1.1	1	21	2516	2536	2516	2537	0.94
99	121	0.052	14	8.5	0.3	9	23	2540	2554	2539	2554	0.96
100	121	0.27	75	6.2	1.1	1	21	2560	2580	2560	2581	0.94
101	121	0.052	14	8.5	0.3	9	23	2584	2598	2583	2598	0.96
102	121	0.42	1.2e+02	5.6	1.4	1	21	2604	2624	2604	2625	0.93
103	121	0.052	14	8.5	0.3	9	23	2628	2642	2627	2642	0.96
104	121	0.27	75	6.2	1.1	1	21	2648	2668	2648	2669	0.94
105	121	0.052	14	8.5	0.3	9	23	2672	2686	2671	2686	0.96
106	121	0.27	75	6.2	1.1	1	21	2692	2712	2692	2713	0.94
107	121	0.052	14	8.5	0.3	9	23	2716	2730	2715	2730	0.96
108	121	0.27	75	6.2	1.1	1	21	2736	2756	2736	2757	0.94
109	121	0.052	14	8.5	0.3	9	23	2760	2774	2759	2774	0.96
110	121	0.27	75	6.2	1.1	1	21	2780	2800	2780	2801	0.94
111	121	0.052	14	8.5	0.3	9	23	2804	2818	2803	2818	0.96
112	121	1.8	5e+02	3.6	0.8	1	21	2824	2844	2824	2845	0.91
113	121	0.052	14	8.5	0.3	9	23	2848	2862	2847	2862	0.96
114	121	0.27	75	6.2	1.1	1	21	2868	2888	2868	2889	0.94
115	121	0.052	14	8.5	0.3	9	23	2892	2906	2891	2906	0.96
116	121	0.27	75	6.2	1.1	1	21	2912	2932	2912	2933	0.94
117	121	0.052	14	8.5	0.3	9	23	2936	2950	2935	2950	0.96
118	121	0.27	75	6.2	1.1	1	21	2956	2976	2956	2977	0.94
119	121	0.052	14	8.5	0.3	9	23	2980	2994	2979	2994	0.96
120	121	0.051	14	8.5	2.5	1	23	3000	3022	3000	3022	0.98
121	121	0.00023	0.065	15.9	0.3	1	23	3028	3051	3028	3051	0.97

Sequence Information

Coding Sequence: ATGGAAGAGGTCAAAGTGTGCCGTCTTTGTTTGGTAATGGACGTTAAGATGCACGACTTGCAGTTACATCCATTATATTCTTATTTTGAACCTGTAACAGGCAATGATTTCCTGAAAATTGAGAACTCACCACCATATGCCTGTTTTGAATGTGCTGTACTTGTGAAAAAGTATTACTTATTTAAGCAAAAGTGCCTGAAAAGTCAAGAAATACTTCATGGATTAATTGATCAGAGTGGCAAGATTGCATCTTCAGAATTAAAGCTAATAGACCGGGATGGTCTATTACTTACCTCCAACCTCTCAAAACACCTTACTCCAGGTGTAACAATCAACATAGATCATTCTAAATTAATCGTCAAAGAAGAACGAACAGAAGTACACTTTGACGTAGAAGACGGTTGTATAAAAGAAGAAGATGATTATGACTTGCTGTCTCCAGACAGAGATTTATCAAGTGAAGAGGATGATGAACCATTGTCCTTACATAAGGAGAAGAAGATTAAACAGATTGAAAGCCAGATCAAAGAAGATGAAGTTTCTATTGAGGTGGAACTGTCAAATGTTGCCTTTAGTCCACCACCAGGCAAGAGGAAGCGAGGCCGTCCTAGAAAACTGAATGTTCTCAAGAAACAGAAAGAGAGAAAGAAAATCAGTGAACTGGGCTTGGGTGATTACATTACTGTTATCAATCTATCGCTAGAAGAACAATTAGAAGAGATAAACAAGCGGAAGGACTCGTCCAACTATCTGAACTCGCCGTTCCAATGCAACTTGTGCTACAAGGGGTTCATAGACACGCACGCGTGGAAACATCACGTCAGTAAACATTCACCGAACGCGGGAGATATAGAATGTCCGGTATGCAAATTCAGGTTCAAAACGAAGAGAGCCTTGCAGAAGCATTCGGCTAACCACGAGAAAAAATACGCGTGCAAATCGTGTCCATACATATCTAGTAATACGACTCAAGCGAAGCAACATCAGGGCTGGCACAAGGGCGTTACATACAAATGTAAACACTGCGACGACATATTCACTATATGGACGTCGTACATGAGCCATGTGCGCATCAAGCACCCGTCCGAGTTCATCTGCGGCATCTGCGGCTACTCGTACATCAGCAAGCTGGGGCTCGCCATGCACAAGTCTATGATGCATAAGGATGTTATCGAGAAAGGTGAAGAAATATCAGAAGACGGTCCGTACTGCGAGGAGTGTGACGTCAAGTTCGTCTCGACCGAGGCGTTCAAGCGACACATGGTCATGTCTACTAAACACACCAGGACTACTAAGACTATTAACGGTTGCCGCACATGCGGAGAAACGTTCAAAAACGCAGAAGACTTGAGGATACACCATCGCAAGGAGCACGCCAGGAAACGACCCAAGAACTACGGGAAGAAACCACCCAACATGAGCTGGCCGGCAAAGTGTGAACTGTGTTCGGAAGAGATCCCGAACGGTCGGGAACACTGGTCGCACTACAGACGCATGCACCCAGAAGAGAAGTACCCCGTACAGAAGGACTACGTGTGCGATATATGCGGCAAGAGCTTTAGGGGCAACGCATTCCTGGTGTACCACAAGCGCACTCACACAGAGGAGCGCGCGTACAAGTGCTCGCAGTGCGACAAGGCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGTTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTTAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACATACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGACCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGACTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACATACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGTTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCATGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTCAGGGTGAGTGGCTCGTTCTACAACCGCTCCAACCTGCAGGTGCACCAGAAGACCCACAGCGAGTCGCGGCCCTACCCCTGCTCCGTGTGCTTCAAGGCCTTCAAGTGCAAGGGCGCGCTCGACAGACACTTTAGGAGTCACACAGGCCAAAAACCGTACGAGTGTGAGGTTTGCGGCAAGGCGTTCACGCAGTCAAACAGTCGCAAGCTTCACGTCACTACGGTCCACTTGAAACAACCGGCGCCATATGTCAGCCGCAGGCGAAGCAAACATGTCGAGAAAGAGCCGCCACATCACCAGTTTATATACTGA
Protein Sequence: MEEVKVCRLCLVMDVKMHDLQLHPLYSYFEPVTGNDFLKIENSPPYACFECAVLVKKYYLFKQKCLKSQEILHGLIDQSGKIASSELKLIDRDGLLLTSNLSKHLTPGVTINIDHSKLIVKEERTEVHFDVEDGCIKEEDDYDLLSPDRDLSSEEDDEPLSLHKEKKIKQIESQIKEDEVSIEVELSNVAFSPPPGKRKRGRPRKLNVLKKQKERKKISELGLGDYITVINLSLEEQLEEINKRKDSSNYLNSPFQCNLCYKGFIDTHAWKHHVSKHSPNAGDIECPVCKFRFKTKRALQKHSANHEKKYACKSCPYISSNTTQAKQHQGWHKGVTYKCKHCDDIFTIWTSYMSHVRIKHPSEFICGICGYSYISKLGLAMHKSMMHKDVIEKGEEISEDGPYCEECDVKFVSTEAFKRHMVMSTKHTRTTKTINGCRTCGETFKNAEDLRIHHRKEHARKRPKNYGKKPPNMSWPAKCELCSEEIPNGREHWSHYRRMHPEEKYPVQKDYVCDICGKSFRGNAFLVYHKRTHTEERAYKCSQCDKAFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRLSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDIHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSDSRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDIHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRLSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFMCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRVSGSFYNRSNLQVHQKTHSESRPYPCSVCFKAFKCKGALDRHFRSHTGQKPYECEVCGKAFTQSNSRKLHVTTVHLKQPAPYVSRRRSKHVEKEPPHHQFIY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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