Basic Information

Insect: Lucilia sericata
Gene Symbol: -
Assembly: GCA_015586225.1
Location: NW:166067-188322[+]

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 80 0.4 19 5.7 1.5 1 23 254 277 254 277 0.94

2 80 0.014 0.64 10.3 3.6 1 23 319 342 319 342 0.96

3 80 1 47 4.4 3.8 1 23 348 371 348 371 0.97

4 80 0.2 9.5 6.6 0.3 2 23 402 423 401 423 0.96

5 80 0.035 1.6 9.0 0.3 1 23 500 523 500 523 0.96

6 80 3.9 1.8e+02 2.6 3.3 2 23 531 552 530 552 0.97

7 80 0.019 0.91 9.8 0.4 2 23 597 618 596 618 0.97

8 80 0.72 34 4.9 0.1 2 20 631 649 630 652 0.93

9 80 0.0088 0.41 10.9 2.5 1 23 730 753 730 753 0.95

10 80 0.0019 0.089 13.0 0.5 1 22 760 781 760 781 0.96

11 80 0.32 15 6.0 0.6 2 21 793 812 792 816 0.89

12 80 0.053 2.5 8.4 1.7 1 23 825 847 825 847 0.97

13 80 0.041 1.9 8.8 0.1 2 19 874 891 873 893 0.94

14 80 3e-05 0.0014 18.7 2.7 1 23 946 969 946 969 0.98

15 80 0.22 10 6.5 1.0 1 23 1006 1029 1006 1029 0.96

16 80 0.00039 0.018 15.2 0.1 1 23 1078 1100 1078 1100 0.95

17 80 1.2e-06 5.5e-05 23.1 0.9 1 23 1106 1128 1106 1128 0.99

18 80 0.00063 0.03 14.5 2.6 1 23 1134 1156 1134 1156 0.98

19 80 1.5e-05 0.00072 19.6 0.5 1 23 1162 1184 1162 1184 0.98

20 80 0.00056 0.026 14.7 0.3 1 20 1190 1209 1190 1214 0.91

21 80 0.00092 0.043 14.0 0.5 3 23 1243 1263 1242 1263 0.99

22 80 0.00017 0.008 16.3 3.0 1 23 1269 1291 1269 1291 0.99

23 80 2.3e-06 0.00011 22.2 1.4 1 23 1297 1319 1297 1319 0.99

24 80 1.7e-05 0.00078 19.5 2.8 1 23 1325 1347 1325 1347 0.98

25 80 0.0018 0.084 13.1 2.5 1 21 1353 1373 1353 1377 0.92

26 80 3.4e-05 0.0016 18.5 1.3 1 23 1632 1655 1632 1655 0.96

27 80 0.00027 0.013 15.6 1.1 2 23 1665 1687 1664 1687 0.96

28 80 0.11 5 7.5 1.2 3 23 1709 1730 1708 1730 0.97

29 80 0.02 0.92 9.8 3.0 2 23 1740 1762 1739 1762 0.96

30 80 0.0021 0.096 12.9 1.9 1 23 1770 1793 1770 1793 0.97

31 80 0.15 7.1 7.0 3.4 1 23 1799 1821 1799 1821 0.95

32 80 0.00028 0.013 15.6 0.3 1 23 1827 1849 1827 1849 0.96

33 80 0.5 23 5.4 1.0 3 23 1857 1877 1856 1877 0.98

34 80 0.00082 0.038 14.1 1.0 2 23 1883 1905 1882 1905 0.94

35 80 0.73 34 4.9 1.8 1 23 1911 1934 1911 1934 0.97

36 80 0.13 5.9 7.2 4.7 1 23 2015 2038 2015 2038 0.95

37 80 3.3 1.5e+02 2.8 2.3 1 23 2044 2067 2044 2067 0.95

38 80 0.001 0.047 13.9 0.5 1 23 2077 2100 2077 2100 0.96

39 80 0.0027 0.13 12.5 2.0 2 23 2134 2155 2133 2155 0.96

40 80 0.02 0.92 9.8 1.1 2 23 2266 2287 2265 2287 0.97

41 80 0.015 0.69 10.2 0.3 2 20 2334 2352 2333 2355 0.94

42 80 0.0015 0.072 13.3 0.4 1 23 2427 2450 2427 2450 0.95

43 80 0.002 0.095 12.9 1.4 1 22 2457 2478 2457 2478 0.95

44 80 0.29 14 6.1 0.8 2 23 2490 2512 2489 2512 0.95

45 80 0.2 9.5 6.6 3.9 1 23 2528 2550 2528 2551 0.93

46 80 1.6 74 3.8 0.1 2 19 2577 2594 2576 2596 0.93

47 80 2e-05 0.00093 19.2 5.5 1 23 2648 2671 2648 2671 0.98

48 80 0.012 0.54 10.5 0.9 1 23 2708 2731 2708 2731 0.97

49 80 3.8e-05 0.0018 18.3 0.2 1 23 2762 2784 2762 2784 0.98

50 80 0.0003 0.014 15.5 2.9 1 23 2790 2812 2790 2812 0.99

51 80 0.03 1.4 9.2 0.1 1 23 2818 2842 2818 2842 0.98

52 80 0.004 0.19 12.0 0.0 2 23 2856 2877 2855 2877 0.97

53 80 1.6e-06 7.7e-05 22.6 1.8 1 23 2883 2905 2883 2905 0.99

54 80 0.0015 0.068 13.4 3.3 1 23 2911 2933 2911 2933 0.96

55 80 0.32 15 6.0 1.3 1 23 3198 3221 3198 3221 0.91

56 80 0.00014 0.0067 16.5 2.6 1 23 3227 3250 3227 3250 0.97

57 80 0.00056 0.026 14.7 1.1 2 23 3280 3301 3279 3301 0.96

58 80 0.69 32 4.9 2.0 1 23 3378 3401 3378 3401 0.95

59 80 0.88 41 4.6 0.5 2 23 3409 3430 3408 3430 0.97

60 80 0.0011 0.05 13.8 0.5 2 23 3475 3496 3474 3496 0.97

61 80 0.11 5.3 7.4 0.7 2 20 3509 3527 3508 3530 0.94

62 80 0.008 0.37 11.0 2.9 1 23 3607 3629 3607 3630 0.96

63 80 0.0038 0.18 12.1 0.4 1 21 3637 3657 3637 3658 0.95

64 80 0.12 5.8 7.3 0.2 2 23 3670 3692 3669 3692 0.95

65 80 0.00046 0.021 14.9 0.3 2 23 3707 3728 3706 3728 0.97

66 80 2.5e-06 0.00012 22.1 3.7 1 23 3734 3756 3734 3756 0.98

67 80 0.56 26 5.2 1.6 1 23 3899 3923 3899 3923 0.97

68 80 9.5 4.4e+02 1.4 1.5 1 21 3930 3950 3930 3951 0.92

69 80 4.1 1.9e+02 2.5 1.3 1 23 3960 3983 3960 3983 0.92

70 80 0.027 1.3 9.4 3.1 1 23 3993 4016 3993 4016 0.93

71 80 0.025 1.2 9.5 3.6 1 23 4023 4045 4023 4045 0.97

72 80 0.018 0.86 9.9 0.0 2 19 4072 4089 4071 4091 0.95

73 80 0.01 0.48 10.7 4.5 1 23 4147 4170 4147 4170 0.97

74 80 0.06 2.8 8.3 0.4 1 23 4207 4230 4207 4230 0.96

75 80 0.18 8.6 6.7 6.2 1 23 4262 4285 4262 4285 0.97

76 80 1.7e-06 7.8e-05 22.6 0.8 2 23 4313 4334 4312 4334 0.95

77 80 3.4e-05 0.0016 18.5 0.4 1 23 4340 4362 4340 4362 0.99

78 80 0.00014 0.0065 16.6 3.0 1 23 4368 4390 4368 4390 0.98

79 80 2.3e-05 0.0011 19.0 1.9 1 23 4396 4418 4396 4418 0.99

80 80 0.071 3.3 8.1 0.7 1 22 4424 4445 4424 4448 0.90

#	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	80	0.4	19	5.7	1.5	1	23	254	277	254	277	0.94
2	80	0.014	0.64	10.3	3.6	1	23	319	342	319	342	0.96
3	80	1	47	4.4	3.8	1	23	348	371	348	371	0.97
4	80	0.2	9.5	6.6	0.3	2	23	402	423	401	423	0.96
5	80	0.035	1.6	9.0	0.3	1	23	500	523	500	523	0.96
6	80	3.9	1.8e+02	2.6	3.3	2	23	531	552	530	552	0.97
7	80	0.019	0.91	9.8	0.4	2	23	597	618	596	618	0.97
8	80	0.72	34	4.9	0.1	2	20	631	649	630	652	0.93
9	80	0.0088	0.41	10.9	2.5	1	23	730	753	730	753	0.95
10	80	0.0019	0.089	13.0	0.5	1	22	760	781	760	781	0.96
11	80	0.32	15	6.0	0.6	2	21	793	812	792	816	0.89
12	80	0.053	2.5	8.4	1.7	1	23	825	847	825	847	0.97
13	80	0.041	1.9	8.8	0.1	2	19	874	891	873	893	0.94
14	80	3e-05	0.0014	18.7	2.7	1	23	946	969	946	969	0.98
15	80	0.22	10	6.5	1.0	1	23	1006	1029	1006	1029	0.96
16	80	0.00039	0.018	15.2	0.1	1	23	1078	1100	1078	1100	0.95
17	80	1.2e-06	5.5e-05	23.1	0.9	1	23	1106	1128	1106	1128	0.99
18	80	0.00063	0.03	14.5	2.6	1	23	1134	1156	1134	1156	0.98
19	80	1.5e-05	0.00072	19.6	0.5	1	23	1162	1184	1162	1184	0.98
20	80	0.00056	0.026	14.7	0.3	1	20	1190	1209	1190	1214	0.91
21	80	0.00092	0.043	14.0	0.5	3	23	1243	1263	1242	1263	0.99
22	80	0.00017	0.008	16.3	3.0	1	23	1269	1291	1269	1291	0.99
23	80	2.3e-06	0.00011	22.2	1.4	1	23	1297	1319	1297	1319	0.99
24	80	1.7e-05	0.00078	19.5	2.8	1	23	1325	1347	1325	1347	0.98
25	80	0.0018	0.084	13.1	2.5	1	21	1353	1373	1353	1377	0.92
26	80	3.4e-05	0.0016	18.5	1.3	1	23	1632	1655	1632	1655	0.96
27	80	0.00027	0.013	15.6	1.1	2	23	1665	1687	1664	1687	0.96
28	80	0.11	5	7.5	1.2	3	23	1709	1730	1708	1730	0.97
29	80	0.02	0.92	9.8	3.0	2	23	1740	1762	1739	1762	0.96
30	80	0.0021	0.096	12.9	1.9	1	23	1770	1793	1770	1793	0.97
31	80	0.15	7.1	7.0	3.4	1	23	1799	1821	1799	1821	0.95
32	80	0.00028	0.013	15.6	0.3	1	23	1827	1849	1827	1849	0.96
33	80	0.5	23	5.4	1.0	3	23	1857	1877	1856	1877	0.98
34	80	0.00082	0.038	14.1	1.0	2	23	1883	1905	1882	1905	0.94
35	80	0.73	34	4.9	1.8	1	23	1911	1934	1911	1934	0.97
36	80	0.13	5.9	7.2	4.7	1	23	2015	2038	2015	2038	0.95
37	80	3.3	1.5e+02	2.8	2.3	1	23	2044	2067	2044	2067	0.95
38	80	0.001	0.047	13.9	0.5	1	23	2077	2100	2077	2100	0.96
39	80	0.0027	0.13	12.5	2.0	2	23	2134	2155	2133	2155	0.96
40	80	0.02	0.92	9.8	1.1	2	23	2266	2287	2265	2287	0.97
41	80	0.015	0.69	10.2	0.3	2	20	2334	2352	2333	2355	0.94
42	80	0.0015	0.072	13.3	0.4	1	23	2427	2450	2427	2450	0.95
43	80	0.002	0.095	12.9	1.4	1	22	2457	2478	2457	2478	0.95
44	80	0.29	14	6.1	0.8	2	23	2490	2512	2489	2512	0.95
45	80	0.2	9.5	6.6	3.9	1	23	2528	2550	2528	2551	0.93
46	80	1.6	74	3.8	0.1	2	19	2577	2594	2576	2596	0.93
47	80	2e-05	0.00093	19.2	5.5	1	23	2648	2671	2648	2671	0.98
48	80	0.012	0.54	10.5	0.9	1	23	2708	2731	2708	2731	0.97
49	80	3.8e-05	0.0018	18.3	0.2	1	23	2762	2784	2762	2784	0.98
50	80	0.0003	0.014	15.5	2.9	1	23	2790	2812	2790	2812	0.99
51	80	0.03	1.4	9.2	0.1	1	23	2818	2842	2818	2842	0.98
52	80	0.004	0.19	12.0	0.0	2	23	2856	2877	2855	2877	0.97
53	80	1.6e-06	7.7e-05	22.6	1.8	1	23	2883	2905	2883	2905	0.99
54	80	0.0015	0.068	13.4	3.3	1	23	2911	2933	2911	2933	0.96
55	80	0.32	15	6.0	1.3	1	23	3198	3221	3198	3221	0.91
56	80	0.00014	0.0067	16.5	2.6	1	23	3227	3250	3227	3250	0.97
57	80	0.00056	0.026	14.7	1.1	2	23	3280	3301	3279	3301	0.96
58	80	0.69	32	4.9	2.0	1	23	3378	3401	3378	3401	0.95
59	80	0.88	41	4.6	0.5	2	23	3409	3430	3408	3430	0.97
60	80	0.0011	0.05	13.8	0.5	2	23	3475	3496	3474	3496	0.97
61	80	0.11	5.3	7.4	0.7	2	20	3509	3527	3508	3530	0.94
62	80	0.008	0.37	11.0	2.9	1	23	3607	3629	3607	3630	0.96
63	80	0.0038	0.18	12.1	0.4	1	21	3637	3657	3637	3658	0.95
64	80	0.12	5.8	7.3	0.2	2	23	3670	3692	3669	3692	0.95
65	80	0.00046	0.021	14.9	0.3	2	23	3707	3728	3706	3728	0.97
66	80	2.5e-06	0.00012	22.1	3.7	1	23	3734	3756	3734	3756	0.98
67	80	0.56	26	5.2	1.6	1	23	3899	3923	3899	3923	0.97
68	80	9.5	4.4e+02	1.4	1.5	1	21	3930	3950	3930	3951	0.92
69	80	4.1	1.9e+02	2.5	1.3	1	23	3960	3983	3960	3983	0.92
70	80	0.027	1.3	9.4	3.1	1	23	3993	4016	3993	4016	0.93
71	80	0.025	1.2	9.5	3.6	1	23	4023	4045	4023	4045	0.97
72	80	0.018	0.86	9.9	0.0	2	19	4072	4089	4071	4091	0.95
73	80	0.01	0.48	10.7	4.5	1	23	4147	4170	4147	4170	0.97
74	80	0.06	2.8	8.3	0.4	1	23	4207	4230	4207	4230	0.96
75	80	0.18	8.6	6.7	6.2	1	23	4262	4285	4262	4285	0.97
76	80	1.7e-06	7.8e-05	22.6	0.8	2	23	4313	4334	4312	4334	0.95
77	80	3.4e-05	0.0016	18.5	0.4	1	23	4340	4362	4340	4362	0.99
78	80	0.00014	0.0065	16.6	3.0	1	23	4368	4390	4368	4390	0.98
79	80	2.3e-05	0.0011	19.0	1.9	1	23	4396	4418	4396	4418	0.99
80	80	0.071	3.3	8.1	0.7	1	22	4424	4445	4424	4448	0.90

Sequence Information

Coding Sequence: atggcaaaaataaGCAACAGTATTAAAAATGACTGTTTTATAAATGGAATACAATACACCTGTCGTACTTGCTTTGATCCGGGACAATCGGTTTACTCCCTTGCAGATGAATGCAGCAACTCAAAAACTTGGGCTGATTTATTGAAAGATATTGCACAGTTACAGACTAATGAGGACGAGCATCTGCCCAGGACTGTTTGTTGCAAATGTTTGGATAAGCTTATAAGTTTCTATGATTTTATACTTCAGATACacagtgttaataaaaaatattctgaaCTTTTGGCATTTTGTAAGAATCCTCAACAGCAGAGTTTCACTGTTAGTGAAATTGATAATTTTACCGATTGTTTAGCAGAGTCAGCAACAGCTTTGCCATTGGAACTTTATATTCCTGAAATAAAATTAGAGGAGGAGCAGATTGTTCCTTATGATTTGCATGGGGAAGGTGAAGAAACCTTAAAAAATGAagACGCTCATGATCCTTTTACTGAAACATGTAAAGATGCTATCAGTTCAATGTCATTGCAATTTGAAGAAATCCAAAGAGACATAATGgaacaaaattgtaaaagttcGGACAATGATGACAAAAATGAATACAGCTCCTCATCATCCGATGAAGTGGATTATGTTCCTCAAAGGAAGAAAAAACAAAGTACGAAGAAGATTAAGGTTCCTGTTAAAAGgcAAACAATGGAACGAAATATAACGGATTTggattcagaaaatgaattaatAGAAACAAAATCTGATCAATATATATGTGTTGTATGTAATAAATCGTTTTTAAGTCAAAAAAATTGTCTTCGCCATATAAAAGCAGTGCATCCTCGACAGCAAGAATCTATATTCTCCTCCTCCAGCGAAAGTGATTTTGAGCCATCAACTAAcCAAGAAaccgaaagaaaaaaatcatcgGAAAGTGATAAAATGATACAAGTCAAAAATCACTTTGTTTGCCTGATatgtaaaaaaacatttacaatgCAAAAAAATTGTCGTCGtcatataattataaaacactCACAAGACGGTGTATTTCCATGTGGATTTTGTGAACAACATTTCGTGTGTAAGGATTATTTGCAAGTACATCTTAAACGTATGCATCCAGGTGAAACATTGGATTCAAATACTAAACATATACAACGGATATTTGGAGATCGTTTATATAGTAAACCAGCCGCTTGGTCTCTGGTAGAGTGTAAATTATGTGAAACAACATTTGGTGCAACAAAAGAACTACGTCAACACTTAGAAAATCACACAAATATAGATACTTTAAGTAATTTAGACTTGAACAGTAACATTATTCAGCATTTGTTTCCTAATATGACAGATTTAATTACCATCAAGGAGGGCATATGCAAAGATTTACAAGATAAAAATTGGTTTAAATATTACACAGTGTTAAATGACAACTTTTATGAAATGTCTATTAGTGACACAGAAGCTGAAGATTTGGAAGAAGAATCTAAAAGGCAAAATTTGAAATACAAGTGTGAATTGTGTGCTGCagagttttcttataaataccAAGTTTTCGCCCATTTGAAAGAGGCTCATAACGAGGAAGAAATTCCTTTAAAATGTAGACGTTGCCAATTGGAATTTATTTCCATAAAAATGTATGAACACCACAAACAAACACATTGTCGTAACAAACATAAAGTTTTGCGTTGCACCAATTGTCCGGCCAAGTTTGTTTGGCCGGATAGTATAAAAAAGCATAACTGTGCTTCGAAACTACCAAAGAACACCATAACTGGCAATACAGAACTTATAAAATGTAATGTATGCGATCTTGAATTTGAAGAAAAGACTAAATATAAGGAGCATTTAGAAACACACAGCAATGCCAAGATCTTAACAGCAAAAACTATAATACGTTGCGGTCTTTGTGCACTTTCCTTTGAAAAGCTACAAGATTTGCGTCAACACATGCCCTTGCATGCCGATGGCAGCACTGGCATTGACTTTAAAGACTGTATTTATGTGAAATACTTTGAAAACACgaaaaaatttgatttgttaCCACTACAGCTGCGTATACAAAATGCCTATAGTAAATCTCAAATAAGTTGCTTTTACCAGGCCATCGATAAGTACGGCAATGAACTGGACATTTCCGATTCAGATAGTTTTACGGAGGACGACGAAGAAAGcgtaaatttgaaaaaacaacACATGTGTGATCtttgtaaagaaatatttaatacaagaACACTTTTATTAAAACACCAAAAAGAACGTCATAATAATATGACACTACCCTTCAAATGTAAGGACTGTAATGAACAATATGTAAGTCTTGATTTATTGCAACAACATTTAAAGAGAATTTGCTGGAACGAGCACCGACGAATAGCTCAACAATGTGATCAATGTAAAGAACGTTTCATTTGGCCAAACAATTTACAGAAACACAAAGAAATACAGAGACATATGACCAAGAGCGATGTTCAGCTTCATTACTGTCTGCTGTGCCCCAAAACATTTTTTACTGTTGAAGATGTGAAGCTACATTTAAATCGCCATCGTTTAACTGAAGCCGATCTCAAAACTGTTGAAAGTATAGTAAATTCCACCTGGTGGCCAAATGGTAAGAAAGCCATTAAATGCAAAATATGTGatcaaaattttgaaactaTGGCCGATTTAAGAGAACATTTTTCTCCAAACAATTCTCAAAATTCCTGTGCCAATGAGCATTCTTTGGAAAATTATTCGATTACAAATCAAAAAGGTTTCGAATTGCATTTAGAACTGGATTCTGAAACAGAAGCTGAAGTTGAACAGGAAGCGCAGGTCGATGAAACGATTTTATATCCCTATAAATGTTCCATGTGTTCAAAATCGTTCAAGCGAAAATATCAAATAGCTCAACATCAACGTTctatacataattatgaattgCTGCAGTTGAAATGTGAAcgttgtatttttaaaacagtgtCAGAGAAAGTTTTAGATTGCCATAAAGCAACGCAATGCTTCAATGCTGAAAAACAATACGAATGTGAGCTGTGTCATTTTAAATTCATGTGGCAAGAGAATCTCGATAATCATATGGCAATATTTCATTCTCCAAAAGATTCAATAAAAGCAACAAATGTTACAATATCGAATGAATTTGTGCCAATACACAACAATGATTTAGAGTCGGTATCCCACAAGGACAATTCAAACGCTGGCAGCAAGCAACACACAGCCAAAAAAGAAAGTGACTTTTTATGTACAATTTGTGGGGCGACCTATGTAAATAGCACTGGTCTTAAAGTACACATAATGCGGCACAATGGTGAGAAACCTTTCAAATGTGATCTTTGCAAAAAGGCCTTTCCACGCAAAGCCGATCTACAGGACCATCAACGCACACACACTGGAGAACGTCGTTTCAAATGTAACTATTGCGAGAAAAAATTTTGGCGAAACAGCAAATTAAAAGAACACGAGCGTGTACACACCGGCGAACGTCCTTTTCAGTGCACACTTTGTCCAAAAGCATTTATTAGATCAGAATATTTGAAGCTACATTTACGTGGTCACACTGGTGAAAAACCCTTTGCGTGTGACATTTGCAATAAACGTTTTGTATCTCTTAGTTATCTGAATAGTCATCGTACAGCTATGGGCCACAATGAACTATTTTCAACGCCCGGTATCACTCCTAGCGCAAATCCAACCACCGAACCTTCCAGTTCTAAGACGGACAAAAAATTATGTCCCTTTTGTGGGATTTACTTGTCGTCTAAGACAAGTCTTACGTTACACATGCGAACGCACACTGGTGAGAAGCCCTTCAAGTGTGATTTTTGCGAAATGGGCTTTACACGTAAAACTGATTTGACTTATCACCGCCGCACACACACCGGCGAACGTCCCTATAAATGTTCGCAATGCGATAGAGCATTTACGCAAAGAACAAAATTATCTGCACACATGCGTATACATACCGGCGAACGTCCTTACGAATGCAATATTTGTcagaaaaaatttagaaaatccgATTTTTTGAGACTTCATATGCGTAATCATACTGGCGAAAATCTTCATCGATGTGATATTTGCGGTAAAGCTTTTGTTTTGCGATGCTATCTGAAACGGCATCAAATTGCAATGAAACATCACCCACAAGAAGATTATGAATGTTTTATAAATGGTATACAATATAAGTGTCGTACTTGTTTCGATCCAGGACAAATTATCTACTCCCTTAGGGATGAAGCCAACAACGCGAAAACTTGGCGTGAATTGTTAAAGGATATTGCTCCGCCACAgCCATATGACGAGAATTTACTTCCAAATACAATGTGCTGTTTATGCTCGGAAAAACTTCAAACCACCTACGATTTCATACGTCAGATTCAAAATGTAAATgagaaatattcaaaattattggAAGGTTGTAATGGACTTTATAACTCTACTGATTGTTTGGAAGAATCAACAATTGATATGCCAATGAAAGAGCTTTTGCCGGAAATTAAACTAGAGGAAGAATTAAATCCTTATGATGTCGTTTTAACTAGCACCGACCAGTTAGATGAAGTACCAGCAACTATATTTAAAAACGAAgacactgatgatgatgatgatgatcccTTTACGGAAACTTACAATGATGATGCCGCATCAACATCTGACTTATTGGAAACAAGTGAAGTAAAATCGGAAGACAGTCCAACAAAAGCGAAAGCAAAAGTTAAACAATCAGAAGATGAAGATGATGAggatgattatgatgatgaaGAAGACGACGAACCACTTTCCAATCGTAAAGTTTTAACTAGAAAAGCTAAACAACAACCAAAGGAAATTGACAAAAATACATTAAACACTGACGCGacacaaaaaactgaaaaacgtgAAGTCGACGAATCGTTGCCATTTGCCTGCGATTTGTGTACGAAAGCATATTCTACCAAGTCTAAATTAAAAAGACAtctacaaagagtacatccctCAGATGATGCAGCAGGACCTCTGGTTTGCGAAACATGTTCGAAAACATTTATTActgtttacaaattaaaaagacATCAACAGCGTGTACATCcaacaatatataaaacaaatcccagaccaaaaattaatttggaTATAAAAGGACCCGTTGATTGTGAATTATGTGCGAAAACGTATGATAATATACAGAAATTTAAAAGGCATCAAAAACGAATACATCCAGAAGAATATAAAAATGAGCCGATTGTTTGCGATAAATGTTCAAAGGAATTTGAGAATATGTACAAGTTTAGAAGACACCACCAAAGAGTACATCCAATACCGAATCAAGAGACCCACAAATGTCCGCTATGctcaaaagaatttaaaaataaattctatgTTTCTGAACACATAAAAGTCGTACACGAAAAATTAAAGCCCTATAATTGTTCGCATTGCCCTAAAACGTTTGCATCGGGCCATTCCAAACGTATTCATGAACTTTCACACACTGACATTTTCCCCTATGAGTGCGAATGGTGCGATAAGCGTTTCCGTCTACCCAGTAAATTGAAGATTCACTCAGAAATCCATACAACCAAACCAGAACTCTTATGCCCCATCTGTCATAGAAGCCAAAAGTCTATAAAAGATTTGGAAGATCATGTAAAATCTCACGACGATAATCGTTTACAGTGTCCTTCTTGCGGTCACTTGTTCAGAAGAAGTTCCCAACTTAAAGATCATTATAATGCAGTTCATTTGAAATTGCGTCCATACAAATGTGAATTTTGTGAATTAGGTTTCGGTGACCGTAAAACACGACGTATGCACGAAAGAAAATATCATCCGAAAGAGCGTCCGCCACCACCGCCAAAGACaatCTTAAGTGAACATTTTGAAGATTACCAAAATGACTATGATTACGCAAATGTGTCCagcAACGTGTCATTTAGTGAAAGTAATTACAATCCTTTGAACGAGATGGAGAAAAACAGCAGTGATAATGATGAAAGACATCAAGAGAGCGAAGAAACCACAATAAAAAAGTTCTTAGATAATGATAAAATCGAAATTATCAACCATGGCTTCCTATGTCGCATATGTCAGAAAACATTTACCTTACTGAGAAATTGTCGAAGACATATAAAAACTCTACATCCTCAGCAGATCTTTTACATTTGCTCATTTTGTGGACAGAATTTAAAGTGtgaagacaaattaaaaaagcACATTGTGCGTTCACATTCTGGCGATAATTATAAAATGACATATTTTCCTTGCAAATTATGTGGACAATATTACATGAGTGAAGACAATTTACAAAAGCATATTACACGCTTACACTCTGTCAAACGTATTAAATCGACCTGGTCAACTATTAAAAATGTAGAACACATATTTGCCAAACGTTTATACAGCAAGCCGACCGCTAGACTTCATGTGGAATGTAAATTGTGTTCTGAAACATTTCAAACAAGTAAAGATCTACGCCACCACTTGGAGAGCCACAGCGTTATAGACACTCTCCAAGATTTGGAATTAAGCGATAGTATTGTCCAACATTTCTTTCCAAATATGAATGATTTAAACGTCGTTAAACAAACAATATGTAATGATATTCGTAAGAAAGATTGGTTTAAATATTACACAGTGCTAAATGaacatttttatgaaatgtCCCTAAGTGACACTGAGGTAGAGGATCTAGAAGGAGAAGAACAAATTGCAGAACGAGCCGGTAAATACAAGTGTTCTATGTGTGCTTTATGCGACTTTTCGTATAAATACGAAGTATTCCAgcatttaaaaaactttcattacaagaatgaaattgctttaaaatgtgACAAGTGTAATTTGCCATTCATATCCATCAAAATGTTTACACAACACACACAAACTCATTGCCATAACAAATATAAAGATTTACTCTGTGCTCGTTGTCCAGCCAAATTTGTTTGgccagaaaacataaaaaatcacAACTGCTGTGTCAACAGCAATAAGAAGCTGCCTGTTCATAGATTTACAAAACCTATAATACGTTGTGGTCTTTGTCCTGAATCCTTTAAGAAACTTCCACATTTACGCGAACACATGCCATTACATGCCGATGGTAAAACTGGTATTGATTtcgaaaactgtatttatgtaAGAAATTTCTACCCATCGATAACAATTGATAAAGCATTACTGGAACAAGAGATACAAAATGCCTATACTAAAtctcaaattagttgtttttatCAAGTCATAGATAAGTATGGCAATGAACTAGACATGTCCGATTCAGATTCAGATACTAATACGGAAGGAAAGGAATACGTGTGTGAACTCTGCAAAGAAATGTTCGAAAGACGACAGCTTTTATTAAAACATCAACTAGAACTACACAATGATCTGACGCTACCTTTTGTGTGTAAGGACTGCAAACAGCAATTTGTTAGTCATGATTTATTGCAACAACATTTAAAAAGGGTTTGTTGGAATGAACACCGACGCATAGCTCAACAATGTGAGCATTGTAATAATCGTTTTATATGGCCAAATAATCTGCAGATACATAGAGAAATACAGCATTCTATGGTCCAGGTTATCAAACAACATTCTGACGCAAATGAACTTCATTATTGTCTCTTGTGTCCTCAAACATTCAAGAGTATTGATGACCTGCACGATCACTTGAGTGACCATCATTTAACACCCGTTGATGTCAAGACAGCTGAAAGTATATTACATTCCACGTGGTGGCCAAACGGTGAAAAAAGAATAATGTGTAAGAAATGTGGGCTGTTATTTCCCTCTATGGTGAGTTTAAGAGAGCATTTTTCGCCCAATAATCCCAATAATTTATGTGGGAATCAACATCTATTGGCAAATTATTCAATTACCAATCAAAAAGGATTCGAGTTGCACCTGAACCTGGATTCCGAAACAGACGAAGAAGATGATTTGGAGGTAACACATAGAAAAATGCCACCACCCTATAAATGTAGCATTTGCAGTATGTCGTTTAAGCGAAAGCATCAACTGACCCAACATCAGCGATCCACGCACAATTATGAATCGCTGGAGCTAAAATGCGATCGTTGTATATTTAGAACTGCCTCAAAGaaaatcttaGATTATCATAAAGTCATGCAgtgttttaatattgaaaaacaatataaatgtaaCCAGTGTAACTTTAAATTTATGTGGCAAGAGAATCTTGAGAATCATATAAAATTGATTCACACATCCAACAATGTGGCCAAAACAATCGTCGGCCAGTCAGAGTCGGTAACTAACAATGATTTACAATCAACGTCGCACGACAATAAATCTTTCCAGTGTGATCAATGCGAAATGGTCTTTGCACGAAATTCCGACTTACAAGAACATCTGCAATTGCACAGTGCCGAACATCCGTACAAATGTACATTTTGCAAAGAATCATTTAAGCATAGagaagttttaattattcacaTCAGAAGTCACGCAGTCCAGCGTCGTTACCAGTGCGAATTTGAGGATTGTACGGAAGAATTTCCGAGCTCGCTCGATTTAGAACTACATACGCAAATTCATACGAGAGATAAACCCACACCAAGTGCAAATGGAAAATGGAAATGTCCCTACTGTGGTATTTTCTTAGCGTCGAATGGAGGTCTTACAATACACGTAAGACTTCACACCGGAGAAAGACCCTACAAGTGCGATTTTTGTGAAAAGGGCTTTACTCGTAGAAGTGATTTAACTGAACATATACGCAAACACACTGACGAACGTCCCTACAAATGCACGCATTGTGATAAAGCCTTTTCAAAGAGGCAACGTTTAAATGAACACAACCTCGTTCATACGGGCGAACGTCCTCACCTGTGTCCGTTTTtaaattgtataaagaaTTGTAAAATGTCCAGGGATAATAAAAAAGAATGTTTAATAAATGGAATTAGCTACAAATGTCGAACTTGCTTTGATCCAGGACGTACAGTATGCTCACTCTCAGACGATGCTTTCAATGAAAAAACTTGGCGAGATTTGTTAAAGGATATTAGTCAGACAGAGACAAACGAAGAAGATTTACTTCCAAAATTTTTGTGCTGCAAATGCTCtggaaaacttaaaagttcCTATGAATTTATCCTTCAGATtcataatgtaaataaaaaatactccCAATTATTAGCGAATCGTAATGATCCACTCCAAGAGATTGATAATTTTACTGACTGTTTGGCGGAATCAACTATTGATTTGCCACTGGAGCCATATATGCCAGAAGTTAAGCTAGAAGAAGATTTCGTTGATCCATATAATACAAGTTTAAGAAACAAATTACCAGCCAGTGAAgcaaaatttgaaattgaagGCGCTCATGACACCTTGAAGGAAACTGATGAATTCAACTTAGCTTCAAAGTATTTAGAAGAGCATAaaagGCATCATAGTATAGATGATGAGTACAACGACAATGGTGACAGAAATGGAACCAGctCGTCTTCGTCTGATGAAAGTGATTATGtgcctttaaaaaaattaaaaaaggaaaaagtcaATAACTTCAACTCCACCAGTGAACCGGTTAAACAGAGAAAAGGTCGAAAAGCCCCAGAGTATTATGATAAAATCGAAAAAGTCAATGACCGTTTCGTCTGTCTCATTTGTCAAAAGACTTTTTCCTTGCGAAAAGATTGTGGCCGACATATAGCTTCAATACACTTGCGACAAATAATGTTTCCTTGCGAATTTTGCGGGCAAAGTTTTAGTCGCAAGGATAAAATACAACATCACATTAAGCGCATGCATATGGACGGAGTGGTGTATCCGACTAAACACAGAGAATGGTTATTTGGTGATCGTTTATATAGCAAACCTATTGCTTGGCATCTCGTTGAGTGTAAATTGTGTGACACCACATTTAAAACAACTAAAGAACTTCGGCAGCATTTAGAAAACCATAGTGATATAGATACTCTTCATAGCTTAGAATTAAGCGATAAGACTGTCCAGCATTTATTTCCAAATATGATTGATTTAGGTATCGTAAAGGAGAGCATATGCAAAGACATTCGAGAGAAAAATTGGTTCAAGTATTACACGGTGTTAAATGAACATTCCTATGAAATGTCAGTTAGTGACACTGAACCAGAAGATTTGAATGATGCTGCAGAAAATCATTCCACTAAATACAAGTGCAATTTATGCTCTAaggagtttttatttaaatacgaAGTTTTCTCTCATTTAAAAGAAATGCACGGCAATGATGAAATTCCTTTGAAATGTGGCTTATGCAAATTGGagtttatttcaataaaaatgtatgaacaACATTCTCAAACCCACTGCCGTAATAGAAATAAGGTTTTGCTTTGTGCTCAGTGCCCGGCCAAATTTATTTGGCCTGAAAATATGAAGCATCACAATTGTGCCATGAAAGCACTAGCGACTCCACCGGTTGCCACAAAAGACTTACTAGTATGTAATATTTGTGATCGTAAATATGAAGTAAAGTCTAAATACGAAAAGCATTTAGAGACACATAAAGACGGCAGGATGGTATCTGCGAAAACTATAATTCGTTGTGGTCTTTGTGCACATACCTTCGTTAAGTTACGTCAATTGCGCAGACATATGCCTTTGCATGCCGATGGCAAAACAGGTATTGATTTTAAGGgcagtatttatataaaacgcTTTGAACGTTCGAAATCGATTGATTATGCACTACTTCAGCAAGAGATACAAAATGCCTACAGCAAATCTCAAATTAGTCGTTTCTACCGAGCGATCGATAAGGACGGGAATGAATTGGACATTTTAGATTCGGACAGTGATACAGAAGAGTCAGacgttgaaaatgttaaaaaagaatATACATGTGAACtttgtaaagaaatatttaagaaacGAAAACTTCTGCTTATGCATCAACAAGAACACCACAATGATGTGCCATTGCCCTTTACTTGTAAGGATTGTACGCAGCAATATGTTAGTAATGATTTGTTACAACAACATTTAATGAGGGATTGCTGGAATGAACATCGTCGAATTGCTCAGCAATGTGATTATTGTAATGCCCGTTTCATATGGCCCAATAATCTCTTGAAGCATAGAGAAATTCAGcataaaaatcaaaaacaaccAAAACCTCAAAGAGCCAGCACTCTCAAATGTGAATACTGCGATAAAGCATTTATATGGCCCAAGGATTTAGTACGTCACAGAAAGACTCAcaccgatggaaaaaaatttacctGTCCGCACTGCGATCGCAAATTTCACCGCAAGGACAATTTGCTGGCTCACATAAGAATTCATTGCCCGGAAGGTATTCCAACTATCGCAAATCCTGGAAAAGGTATCGACTACATACTGCCTCATTTGATAAAACCTCATGGTTGTAAACGCATCAAATGTATGATCTGCTTTTCCGAACACAACCGCATACGAGATCTAAGATCGCACATACGAACACATCGATATTCCGTTAATTTCGATAAAAGGAAAGAAACTGAAACATTTGATGTTATTTCATCTCAGCTCTATCCCGATGAAGCGGATACATTGACAGAAGAGGAACTAGTGAAACGAATTGGTTTTGATATtgcttcagaaaataacttggaACGTTTTTATTCTATAACAAGTGAAAACGGTTGTGAAGTAAGTTTGGATAGTTCTGAAACGGAAAGCGATTCTGATGGTGATGAAAACGAAGAAGATGATGAGAAGCCAAAACGTATTTACAAATGTGACTTGTGTCCTCAATTGAGTTTTAAtcgtaaatataaaattttcgagcATCAGAATAAAGAACATAAGTGGGAGGAAGCCCGCCATATTTGCGGACATTGTAATGGGCGATTTCTTTCATCATATATGCTGCAATTGCActataaaaatcaatgtaaaaattccaaaaaacgtCACTTTTGTCGTCGTTGTCCCTTGCGTTTCATGTGGAAAAGTAATATGAAGGCTCATATTGTAATGGAACATGGACAAGAgATCGATTTAAATCGACGACATGAATGTTTTCTGTGTCATGAAAAGTTCTCTATTCAAAAAGAACTTAAACGCCACTTGATTGCACAACATTCCGCTGATGCTGCAGTTCATTATTGTCTGCTGTGCCCGAAAACATTCTTTAGTATTGAACATCTCAATGAACATTTGAGCCGTCATCGTTTGACCACTTCCGATGTTAAGTCTGTTGAAAGTATAATCCATTCCACTTGTTGGCCAAATGgtgaaaaaacaattaaatgtaaaatatgtggcctaatatttgaaaatatggCGAACCTACGAGAACATTTTTCAGCTAGAAATCCCCAAAATTTATGTGCCACTGAACATTCCCTATCAAATTACTCAATTACAAATCAAAAGGGATTCGAATTGCACTTAGAACTGGATTCTGAAACTGAAGTAGAAGATGAAGTGGAAGTGGGCCACAGTAAAGACACCAAGAATATAGTTTACCCCTATAATTGTTGCATGTGCAGTATGTCGTTTAAACGAAAATATCAAATAGCTCAACATCAGCGTTCTATGCATAATTATGAGCTTCTGGAATTAAAATGTGAACATTGTATTTTTCGAACAGTATCTCAGAAAGTTTTAGATTATCATCAAGCCACGCAATGTTTTAACGTAGAAAAACAGTATGTATGTGAGCAGTGTAATTTCAAATTCATGTGGCAAGAAAATCTTGAAAACCATATTACCATTTTTCATACTTCTAATGATTTGAGCAAACCACCGGAGGCTGCTAAGATGGTAACTTCCACAGAGCCCATaccaaccaacaacaaaagcgataaaaatatattcgaaTGTATGGACTGCCACCGAAGGTACAACCGAAAAGATCGTTATAAGgcacatttcaaaaaatttcacaacgaTTTGCCACTTACCTCAGCCactatttcaaaatcaaaagttCGCAAACATTCTACAGCAAAAAcggaaaagaaatttttatgtgCTTTTTGTGGCCTTTCATTTTCCAACAATTCAAATCTTACGGTGCACATGAGAAGACACACAGGTGAAAAGCCATTCAAATGTGATCTTTGTGAAATGGCCTTCCCACGTACATCGGATTTACAGGCTCATAAACGCACACATACTGGAGAACGTCCCTTCAAATGTTTGTTTTGCGAGAAATCATTTTCTCGACAATACAAATTAACTGTTCACAACCGCATTCATACGGGCGAGCGTCCCTATGAGTGCACGTTTTGCCAGAAAACATTTATTCAATCGAACGACTTAACTCTACATTTGCGTCGCCACACGGGCGAAAGACCCTATATGTGTGACATTTGTGGAGAAGGCTTTATATGCGCCACATCGCTGAAGCAGCATCGCAACTCGAAAGGTCATCAGGAAGATAAAATTGACTTGAAAACTTGCGTGCAACAAATGACTCAATTCGATATGAAGTTCTAA
Protein Sequence: MAKISNSIKNDCFINGIQYTCRTCFDPGQSVYSLADECSNSKTWADLLKDIAQLQTNEDEHLPRTVCCKCLDKLISFYDFILQIHSVNKKYSELLAFCKNPQQQSFTVSEIDNFTDCLAESATALPLELYIPEIKLEEEQIVPYDLHGEGEETLKNEDAHDPFTETCKDAISSMSLQFEEIQRDIMEQNCKSSDNDDKNEYSSSSSDEVDYVPQRKKKQSTKKIKVPVKRQTMERNITDLDSENELIETKSDQYICVVCNKSFLSQKNCLRHIKAVHPRQQESIFSSSSESDFEPSTNQETERKKSSESDKMIQVKNHFVCLICKKTFTMQKNCRRHIIIKHSQDGVFPCGFCEQHFVCKDYLQVHLKRMHPGETLDSNTKHIQRIFGDRLYSKPAAWSLVECKLCETTFGATKELRQHLENHTNIDTLSNLDLNSNIIQHLFPNMTDLITIKEGICKDLQDKNWFKYYTVLNDNFYEMSISDTEAEDLEEESKRQNLKYKCELCAAEFSYKYQVFAHLKEAHNEEEIPLKCRRCQLEFISIKMYEHHKQTHCRNKHKVLRCTNCPAKFVWPDSIKKHNCASKLPKNTITGNTELIKCNVCDLEFEEKTKYKEHLETHSNAKILTAKTIIRCGLCALSFEKLQDLRQHMPLHADGSTGIDFKDCIYVKYFENTKKFDLLPLQLRIQNAYSKSQISCFYQAIDKYGNELDISDSDSFTEDDEESVNLKKQHMCDLCKEIFNTRTLLLKHQKERHNNMTLPFKCKDCNEQYVSLDLLQQHLKRICWNEHRRIAQQCDQCKERFIWPNNLQKHKEIQRHMTKSDVQLHYCLLCPKTFFTVEDVKLHLNRHRLTEADLKTVESIVNSTWWPNGKKAIKCKICDQNFETMADLREHFSPNNSQNSCANEHSLENYSITNQKGFELHLELDSETEAEVEQEAQVDETILYPYKCSMCSKSFKRKYQIAQHQRSIHNYELLQLKCERCIFKTVSEKVLDCHKATQCFNAEKQYECELCHFKFMWQENLDNHMAIFHSPKDSIKATNVTISNEFVPIHNNDLESVSHKDNSNAGSKQHTAKKESDFLCTICGATYVNSTGLKVHIMRHNGEKPFKCDLCKKAFPRKADLQDHQRTHTGERRFKCNYCEKKFWRNSKLKEHERVHTGERPFQCTLCPKAFIRSEYLKLHLRGHTGEKPFACDICNKRFVSLSYLNSHRTAMGHNELFSTPGITPSANPTTEPSSSKTDKKLCPFCGIYLSSKTSLTLHMRTHTGEKPFKCDFCEMGFTRKTDLTYHRRTHTGERPYKCSQCDRAFTQRTKLSAHMRIHTGERPYECNICQKKFRKSDFLRLHMRNHTGENLHRCDICGKAFVLRCYLKRHQIAMKHHPQEDYECFINGIQYKCRTCFDPGQIIYSLRDEANNAKTWRELLKDIAPPQPYDENLLPNTMCCLCSEKLQTTYDFIRQIQNVNEKYSKLLEGCNGLYNSTDCLEESTIDMPMKELLPEIKLEEELNPYDVVLTSTDQLDEVPATIFKNEDTDDDDDDPFTETYNDDAASTSDLLETSEVKSEDSPTKAKAKVKQSEDEDDEDDYDDEEDDEPLSNRKVLTRKAKQQPKEIDKNTLNTDATQKTEKREVDESLPFACDLCTKAYSTKSKLKRHLQRVHPSDDAAGPLVCETCSKTFITVYKLKRHQQRVHPTIYKTNPRPKINLDIKGPVDCELCAKTYDNIQKFKRHQKRIHPEEYKNEPIVCDKCSKEFENMYKFRRHHQRVHPIPNQETHKCPLCSKEFKNKFYVSEHIKVVHEKLKPYNCSHCPKTFASGHSKRIHELSHTDIFPYECEWCDKRFRLPSKLKIHSEIHTTKPELLCPICHRSQKSIKDLEDHVKSHDDNRLQCPSCGHLFRRSSQLKDHYNAVHLKLRPYKCEFCELGFGDRKTRRMHERKYHPKERPPPPPKTILSEHFEDYQNDYDYANVSSNVSFSESNYNPLNEMEKNSSDNDERHQESEETTIKKFLDNDKIEIINHGFLCRICQKTFTLLRNCRRHIKTLHPQQIFYICSFCGQNLKCEDKLKKHIVRSHSGDNYKMTYFPCKLCGQYYMSEDNLQKHITRLHSVKRIKSTWSTIKNVEHIFAKRLYSKPTARLHVECKLCSETFQTSKDLRHHLESHSVIDTLQDLELSDSIVQHFFPNMNDLNVVKQTICNDIRKKDWFKYYTVLNEHFYEMSLSDTEVEDLEGEEQIAERAGKYKCSMCALCDFSYKYEVFQHLKNFHYKNEIALKCDKCNLPFISIKMFTQHTQTHCHNKYKDLLCARCPAKFVWPENIKNHNCCVNSNKKLPVHRFTKPIIRCGLCPESFKKLPHLREHMPLHADGKTGIDFENCIYVRNFYPSITIDKALLEQEIQNAYTKSQISCFYQVIDKYGNELDMSDSDSDTNTEGKEYVCELCKEMFERRQLLLKHQLELHNDLTLPFVCKDCKQQFVSHDLLQQHLKRVCWNEHRRIAQQCEHCNNRFIWPNNLQIHREIQHSMVQVIKQHSDANELHYCLLCPQTFKSIDDLHDHLSDHHLTPVDVKTAESILHSTWWPNGEKRIMCKKCGLLFPSMVSLREHFSPNNPNNLCGNQHLLANYSITNQKGFELHLNLDSETDEEDDLEVTHRKMPPPYKCSICSMSFKRKHQLTQHQRSTHNYESLELKCDRCIFRTASKKILDYHKVMQCFNIEKQYKCNQCNFKFMWQENLENHIKLIHTSNNVAKTIVGQSESVTNNDLQSTSHDNKSFQCDQCEMVFARNSDLQEHLQLHSAEHPYKCTFCKESFKHREVLIIHIRSHAVQRRYQCEFEDCTEEFPSSLDLELHTQIHTRDKPTPSANGKWKCPYCGIFLASNGGLTIHVRLHTGERPYKCDFCEKGFTRRSDLTEHIRKHTDERPYKCTHCDKAFSKRQRLNEHNLVHTGERPHLCPFLNCIKNCKMSRDNKKECLINGISYKCRTCFDPGRTVCSLSDDAFNEKTWRDLLKDISQTETNEEDLLPKFLCCKCSGKLKSSYEFILQIHNVNKKYSQLLANRNDPLQEIDNFTDCLAESTIDLPLEPYMPEVKLEEDFVDPYNTSLRNKLPASEAKFEIEGAHDTLKETDEFNLASKYLEEHKRHHSIDDEYNDNGDRNGTSSSSSDESDYVPLKKLKKEKVNNFNSTSEPVKQRKGRKAPEYYDKIEKVNDRFVCLICQKTFSLRKDCGRHIASIHLRQIMFPCEFCGQSFSRKDKIQHHIKRMHMDGVVYPTKHREWLFGDRLYSKPIAWHLVECKLCDTTFKTTKELRQHLENHSDIDTLHSLELSDKTVQHLFPNMIDLGIVKESICKDIREKNWFKYYTVLNEHSYEMSVSDTEPEDLNDAAENHSTKYKCNLCSKEFLFKYEVFSHLKEMHGNDEIPLKCGLCKLEFISIKMYEQHSQTHCRNRNKVLLCAQCPAKFIWPENMKHHNCAMKALATPPVATKDLLVCNICDRKYEVKSKYEKHLETHKDGRMVSAKTIIRCGLCAHTFVKLRQLRRHMPLHADGKTGIDFKGSIYIKRFERSKSIDYALLQQEIQNAYSKSQISRFYRAIDKDGNELDILDSDSDTEESDVENVKKEYTCELCKEIFKKRKLLLMHQQEHHNDVPLPFTCKDCTQQYVSNDLLQQHLMRDCWNEHRRIAQQCDYCNARFIWPNNLLKHREIQHKNQKQPKPQRASTLKCEYCDKAFIWPKDLVRHRKTHTDGKKFTCPHCDRKFHRKDNLLAHIRIHCPEGIPTIANPGKGIDYILPHLIKPHGCKRIKCMICFSEHNRIRDLRSHIRTHRYSVNFDKRKETETFDVISSQLYPDEADTLTEEELVKRIGFDIASENNLERFYSITSENGCEVSLDSSETESDSDGDENEEDDEKPKRIYKCDLCPQLSFNRKYKIFEHQNKEHKWEEARHICGHCNGRFLSSYMLQLHYKNQCKNSKKRHFCRRCPLRFMWKSNMKAHIVMEHGQEIDLNRRHECFLCHEKFSIQKELKRHLIAQHSADAAVHYCLLCPKTFFSIEHLNEHLSRHRLTTSDVKSVESIIHSTCWPNGEKTIKCKICGLIFENMANLREHFSARNPQNLCATEHSLSNYSITNQKGFELHLELDSETEVEDEVEVGHSKDTKNIVYPYNCCMCSMSFKRKYQIAQHQRSMHNYELLELKCEHCIFRTVSQKVLDYHQATQCFNVEKQYVCEQCNFKFMWQENLENHITIFHTSNDLSKPPEAAKMVTSTEPIPTNNKSDKNIFECMDCHRRYNRKDRYKAHFKKFHNDLPLTSATISKSKVRKHSTAKTEKKFLCAFCGLSFSNNSNLTVHMRRHTGEKPFKCDLCEMAFPRTSDLQAHKRTHTGERPFKCLFCEKSFSRQYKLTVHNRIHTGERPYECTFCQKTFIQSNDLTLHLRRHTGERPYMCDICGEGFICATSLKQHRNSKGHQEDKIDLKTCVQQMTQFDMKF

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00921531;
90% Identity: iTF_00921531;
80% Identity: -