Basic Information

Insect: Phlebotomus argentipes
Gene Symbol: Zfy1_1
Assembly: GCA_947086385.1
Location: CAMTYR010000025.1:5943673-5956126[+]

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 90 0.64 25 5.1 0.8 3 23 40 60 38 60 0.95

2 90 1.5 58 3.9 0.6 2 23 62 84 61 84 0.92

3 90 0.013 0.49 10.5 0.7 2 23 97 119 96 119 0.93

4 90 0.0067 0.26 11.3 1.2 1 23 178 201 178 201 0.93

5 90 0.029 1.1 9.3 1.9 2 23 212 234 211 234 0.95

6 90 0.0045 0.18 11.9 0.3 1 23 269 292 269 292 0.95

7 90 0.18 7 6.8 0.3 1 23 302 324 302 324 0.95

8 90 0.23 8.9 6.5 1.1 2 20 332 350 331 353 0.89

9 90 0.00095 0.037 14.0 2.3 1 23 359 381 359 381 0.97

10 90 0.014 0.53 10.4 0.1 2 23 422 444 421 444 0.93

11 90 2.9 1.1e+02 3.0 3.3 2 23 452 474 451 474 0.91

12 90 8.6e-06 0.00034 20.4 0.8 1 23 489 511 489 511 0.98

13 90 4.2e-05 0.0016 18.3 0.1 1 21 517 537 517 538 0.95

14 90 0.0073 0.29 11.2 3.1 2 23 550 572 550 572 0.97

15 90 0.0016 0.063 13.3 0.1 2 22 585 605 584 607 0.88

16 90 0.65 25 5.1 0.1 2 23 614 636 613 636 0.90

17 90 0.00045 0.017 15.0 0.9 1 23 639 661 639 661 0.97

18 90 0.00014 0.0056 16.6 1.4 1 23 674 697 674 697 0.96

19 90 0.00057 0.022 14.7 0.3 1 23 709 731 709 731 0.97

20 90 4.4e-05 0.0017 18.2 2.0 1 23 737 759 737 759 0.98

21 90 0.00021 0.0082 16.0 0.1 1 23 765 787 765 787 0.98

22 90 0.098 3.8 7.7 6.9 2 23 793 815 792 815 0.96

23 90 0.78 30 4.8 0.2 1 19 829 847 829 852 0.92

24 90 0.022 0.88 9.7 0.6 1 20 858 877 858 879 0.94

25 90 0.00016 0.0061 16.5 1.7 1 23 896 919 896 919 0.93

26 90 0.012 0.47 10.5 0.6 1 21 925 945 925 946 0.96

27 90 0.00081 0.032 14.2 6.0 1 23 986 1008 986 1008 0.98

28 90 0.019 0.76 9.9 0.1 2 23 1015 1036 1014 1036 0.97

29 90 0.073 2.8 8.1 3.0 1 20 1042 1061 1042 1063 0.89

30 90 0.3 12 6.1 0.8 2 23 1078 1100 1077 1100 0.96

31 90 4.7 1.8e+02 2.4 1.5 1 19 1113 1131 1113 1136 0.92

32 90 0.0003 0.012 15.6 0.5 2 21 1143 1162 1142 1163 0.94

33 90 0.002 0.077 13.0 1.3 1 23 1189 1212 1189 1212 0.92

34 90 0.02 0.79 9.8 0.9 1 22 1218 1239 1218 1239 0.96

35 90 1.5 60 3.9 0.7 6 23 1284 1302 1281 1302 0.94

36 90 0.00099 0.038 13.9 3.1 3 23 1344 1364 1342 1364 0.96

37 90 0.0081 0.32 11.1 0.6 1 23 1375 1398 1375 1398 0.95

38 90 0.2 7.7 6.7 2.4 1 23 1411 1433 1411 1433 0.98

39 90 1 40 4.5 1.0 1 23 1439 1461 1439 1461 0.97

40 90 4.2e-05 0.0017 18.2 1.9 1 23 1465 1487 1465 1487 0.97

41 90 0.0029 0.11 12.5 1.2 2 23 1496 1518 1496 1518 0.96

42 90 0.064 2.5 8.2 0.9 1 23 1531 1554 1531 1554 0.90

43 90 0.0047 0.18 11.8 0.5 1 20 1560 1579 1560 1581 0.94

44 90 0.64 25 5.1 0.0 2 23 1602 1623 1601 1623 0.91

45 90 0.68 27 5.0 1.0 2 23 1660 1682 1659 1682 0.94

46 90 0.68 27 5.0 0.1 3 23 1696 1717 1694 1717 0.94

47 90 0.31 12 6.1 0.1 1 23 1723 1746 1723 1746 0.89

48 90 0.0037 0.15 12.1 3.0 3 23 1767 1788 1767 1788 0.98

49 90 6.9 2.7e+02 1.8 2.4 1 21 1801 1821 1801 1824 0.88

50 90 0.004 0.16 12.0 0.3 1 20 1830 1849 1830 1850 0.96

51 90 4.9 1.9e+02 2.3 0.9 1 19 1894 1912 1894 1914 0.87

52 90 0.0024 0.094 12.7 1.8 2 23 1925 1947 1924 1947 0.95

53 90 0.0046 0.18 11.9 0.1 2 23 1960 1982 1959 1982 0.95

54 90 6.3 2.4e+02 2.0 3.4 1 11 1988 1998 1988 2011 0.81

55 90 0.018 0.69 10.0 2.0 2 23 2015 2036 2014 2036 0.97

56 90 0.075 2.9 8.0 3.1 1 23 2048 2070 2048 2071 0.94

57 90 0.00062 0.024 14.6 1.0 1 23 2085 2107 2085 2107 0.98

58 90 0.2 7.8 6.7 0.4 2 23 2114 2135 2113 2135 0.96

59 90 0.78 30 4.8 0.2 1 19 2201 2219 2201 2224 0.92

60 90 0.14 5.3 7.2 0.6 1 20 2230 2249 2230 2251 0.93

61 90 0.047 1.8 8.7 3.4 2 23 2261 2282 2260 2282 0.96

62 90 0.053 2.1 8.5 1.0 1 23 2294 2317 2294 2317 0.90

63 90 0.016 0.62 10.1 0.8 1 23 2341 2363 2341 2363 0.95

64 90 0.012 0.46 10.6 0.3 2 23 2369 2391 2368 2391 0.96

65 90 8.8 3.4e+02 1.5 0.2 1 19 2404 2422 2404 2427 0.87

66 90 2.3 89 3.4 0.2 1 21 2433 2453 2433 2454 0.93

67 90 9.9 3.9e+02 1.4 0.4 1 23 2466 2489 2466 2489 0.86

68 90 0.01 0.39 10.8 1.1 2 23 2496 2518 2495 2518 0.95

69 90 0.3 12 6.1 0.6 2 23 2526 2548 2525 2548 0.92

70 90 0.00046 0.018 15.0 0.3 1 23 2593 2616 2593 2616 0.94

71 90 0.024 0.95 9.6 0.2 3 23 2631 2651 2629 2651 0.95

72 90 8.4 3.3e+02 1.6 0.2 2 10 2658 2666 2657 2668 0.94

73 90 1.5 60 3.9 0.4 2 23 2719 2744 2718 2744 0.92

74 90 0.038 1.5 8.9 0.5 1 21 2785 2805 2785 2806 0.95

75 90 0.00045 0.018 15.0 0.9 3 23 2831 2851 2830 2851 0.96

76 90 0.76 30 4.9 1.7 1 23 2872 2895 2872 2895 0.92

77 90 8.4e-06 0.00033 20.5 1.5 1 23 2913 2935 2913 2935 0.96

78 90 0.92 36 4.6 0.2 2 23 2942 2963 2941 2963 0.89

79 90 3.7e-06 0.00014 21.6 0.2 1 23 2971 2993 2971 2993 0.98

80 90 0.21 8 6.6 1.1 2 23 2999 3021 2998 3021 0.96

81 90 0.0046 0.18 11.8 4.2 2 23 3035 3057 3034 3057 0.96

82 90 1.2 46 4.2 0.2 3 23 3065 3086 3063 3086 0.93

83 90 0.0072 0.28 11.2 0.1 3 23 3093 3113 3091 3113 0.95

84 90 2.1 84 3.4 1.4 3 23 3149 3170 3148 3170 0.96

85 90 0.01 0.4 10.7 0.2 1 23 3212 3235 3212 3235 0.95

86 90 0.00018 0.0072 16.2 2.5 1 23 3238 3260 3238 3261 0.94

87 90 0.00063 0.025 14.6 0.4 2 23 3285 3306 3284 3306 0.97

88 90 0.0033 0.13 12.3 0.5 3 23 3319 3340 3318 3340 0.94

89 90 0.18 6.9 6.8 1.4 2 23 3346 3368 3345 3368 0.94

90 90 0.053 2.1 8.5 0.2 3 23 3430 3450 3429 3450 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	90	0.64	25	5.1	0.8	3	23	40	60	38	60	0.95
2	90	1.5	58	3.9	0.6	2	23	62	84	61	84	0.92
3	90	0.013	0.49	10.5	0.7	2	23	97	119	96	119	0.93
4	90	0.0067	0.26	11.3	1.2	1	23	178	201	178	201	0.93
5	90	0.029	1.1	9.3	1.9	2	23	212	234	211	234	0.95
6	90	0.0045	0.18	11.9	0.3	1	23	269	292	269	292	0.95
7	90	0.18	7	6.8	0.3	1	23	302	324	302	324	0.95
8	90	0.23	8.9	6.5	1.1	2	20	332	350	331	353	0.89
9	90	0.00095	0.037	14.0	2.3	1	23	359	381	359	381	0.97
10	90	0.014	0.53	10.4	0.1	2	23	422	444	421	444	0.93
11	90	2.9	1.1e+02	3.0	3.3	2	23	452	474	451	474	0.91
12	90	8.6e-06	0.00034	20.4	0.8	1	23	489	511	489	511	0.98
13	90	4.2e-05	0.0016	18.3	0.1	1	21	517	537	517	538	0.95
14	90	0.0073	0.29	11.2	3.1	2	23	550	572	550	572	0.97
15	90	0.0016	0.063	13.3	0.1	2	22	585	605	584	607	0.88
16	90	0.65	25	5.1	0.1	2	23	614	636	613	636	0.90
17	90	0.00045	0.017	15.0	0.9	1	23	639	661	639	661	0.97
18	90	0.00014	0.0056	16.6	1.4	1	23	674	697	674	697	0.96
19	90	0.00057	0.022	14.7	0.3	1	23	709	731	709	731	0.97
20	90	4.4e-05	0.0017	18.2	2.0	1	23	737	759	737	759	0.98
21	90	0.00021	0.0082	16.0	0.1	1	23	765	787	765	787	0.98
22	90	0.098	3.8	7.7	6.9	2	23	793	815	792	815	0.96
23	90	0.78	30	4.8	0.2	1	19	829	847	829	852	0.92
24	90	0.022	0.88	9.7	0.6	1	20	858	877	858	879	0.94
25	90	0.00016	0.0061	16.5	1.7	1	23	896	919	896	919	0.93
26	90	0.012	0.47	10.5	0.6	1	21	925	945	925	946	0.96
27	90	0.00081	0.032	14.2	6.0	1	23	986	1008	986	1008	0.98
28	90	0.019	0.76	9.9	0.1	2	23	1015	1036	1014	1036	0.97
29	90	0.073	2.8	8.1	3.0	1	20	1042	1061	1042	1063	0.89
30	90	0.3	12	6.1	0.8	2	23	1078	1100	1077	1100	0.96
31	90	4.7	1.8e+02	2.4	1.5	1	19	1113	1131	1113	1136	0.92
32	90	0.0003	0.012	15.6	0.5	2	21	1143	1162	1142	1163	0.94
33	90	0.002	0.077	13.0	1.3	1	23	1189	1212	1189	1212	0.92
34	90	0.02	0.79	9.8	0.9	1	22	1218	1239	1218	1239	0.96
35	90	1.5	60	3.9	0.7	6	23	1284	1302	1281	1302	0.94
36	90	0.00099	0.038	13.9	3.1	3	23	1344	1364	1342	1364	0.96
37	90	0.0081	0.32	11.1	0.6	1	23	1375	1398	1375	1398	0.95
38	90	0.2	7.7	6.7	2.4	1	23	1411	1433	1411	1433	0.98
39	90	1	40	4.5	1.0	1	23	1439	1461	1439	1461	0.97
40	90	4.2e-05	0.0017	18.2	1.9	1	23	1465	1487	1465	1487	0.97
41	90	0.0029	0.11	12.5	1.2	2	23	1496	1518	1496	1518	0.96
42	90	0.064	2.5	8.2	0.9	1	23	1531	1554	1531	1554	0.90
43	90	0.0047	0.18	11.8	0.5	1	20	1560	1579	1560	1581	0.94
44	90	0.64	25	5.1	0.0	2	23	1602	1623	1601	1623	0.91
45	90	0.68	27	5.0	1.0	2	23	1660	1682	1659	1682	0.94
46	90	0.68	27	5.0	0.1	3	23	1696	1717	1694	1717	0.94
47	90	0.31	12	6.1	0.1	1	23	1723	1746	1723	1746	0.89
48	90	0.0037	0.15	12.1	3.0	3	23	1767	1788	1767	1788	0.98
49	90	6.9	2.7e+02	1.8	2.4	1	21	1801	1821	1801	1824	0.88
50	90	0.004	0.16	12.0	0.3	1	20	1830	1849	1830	1850	0.96
51	90	4.9	1.9e+02	2.3	0.9	1	19	1894	1912	1894	1914	0.87
52	90	0.0024	0.094	12.7	1.8	2	23	1925	1947	1924	1947	0.95
53	90	0.0046	0.18	11.9	0.1	2	23	1960	1982	1959	1982	0.95
54	90	6.3	2.4e+02	2.0	3.4	1	11	1988	1998	1988	2011	0.81
55	90	0.018	0.69	10.0	2.0	2	23	2015	2036	2014	2036	0.97
56	90	0.075	2.9	8.0	3.1	1	23	2048	2070	2048	2071	0.94
57	90	0.00062	0.024	14.6	1.0	1	23	2085	2107	2085	2107	0.98
58	90	0.2	7.8	6.7	0.4	2	23	2114	2135	2113	2135	0.96
59	90	0.78	30	4.8	0.2	1	19	2201	2219	2201	2224	0.92
60	90	0.14	5.3	7.2	0.6	1	20	2230	2249	2230	2251	0.93
61	90	0.047	1.8	8.7	3.4	2	23	2261	2282	2260	2282	0.96
62	90	0.053	2.1	8.5	1.0	1	23	2294	2317	2294	2317	0.90
63	90	0.016	0.62	10.1	0.8	1	23	2341	2363	2341	2363	0.95
64	90	0.012	0.46	10.6	0.3	2	23	2369	2391	2368	2391	0.96
65	90	8.8	3.4e+02	1.5	0.2	1	19	2404	2422	2404	2427	0.87
66	90	2.3	89	3.4	0.2	1	21	2433	2453	2433	2454	0.93
67	90	9.9	3.9e+02	1.4	0.4	1	23	2466	2489	2466	2489	0.86
68	90	0.01	0.39	10.8	1.1	2	23	2496	2518	2495	2518	0.95
69	90	0.3	12	6.1	0.6	2	23	2526	2548	2525	2548	0.92
70	90	0.00046	0.018	15.0	0.3	1	23	2593	2616	2593	2616	0.94
71	90	0.024	0.95	9.6	0.2	3	23	2631	2651	2629	2651	0.95
72	90	8.4	3.3e+02	1.6	0.2	2	10	2658	2666	2657	2668	0.94
73	90	1.5	60	3.9	0.4	2	23	2719	2744	2718	2744	0.92
74	90	0.038	1.5	8.9	0.5	1	21	2785	2805	2785	2806	0.95
75	90	0.00045	0.018	15.0	0.9	3	23	2831	2851	2830	2851	0.96
76	90	0.76	30	4.9	1.7	1	23	2872	2895	2872	2895	0.92
77	90	8.4e-06	0.00033	20.5	1.5	1	23	2913	2935	2913	2935	0.96
78	90	0.92	36	4.6	0.2	2	23	2942	2963	2941	2963	0.89
79	90	3.7e-06	0.00014	21.6	0.2	1	23	2971	2993	2971	2993	0.98
80	90	0.21	8	6.6	1.1	2	23	2999	3021	2998	3021	0.96
81	90	0.0046	0.18	11.8	4.2	2	23	3035	3057	3034	3057	0.96
82	90	1.2	46	4.2	0.2	3	23	3065	3086	3063	3086	0.93
83	90	0.0072	0.28	11.2	0.1	3	23	3093	3113	3091	3113	0.95
84	90	2.1	84	3.4	1.4	3	23	3149	3170	3148	3170	0.96
85	90	0.01	0.4	10.7	0.2	1	23	3212	3235	3212	3235	0.95
86	90	0.00018	0.0072	16.2	2.5	1	23	3238	3260	3238	3261	0.94
87	90	0.00063	0.025	14.6	0.4	2	23	3285	3306	3284	3306	0.97
88	90	0.0033	0.13	12.3	0.5	3	23	3319	3340	3318	3340	0.94
89	90	0.18	6.9	6.8	1.4	2	23	3346	3368	3345	3368	0.94
90	90	0.053	2.1	8.5	0.2	3	23	3430	3450	3429	3450	0.95

Sequence Information

Coding Sequence: ATGGAAAGGCGGGTGAAAAAGGAGCCAGAATCGACTGAGTGTAGCTTCCTGAAGGCGAAGGAAGAGGTGGCCGGGGAAAATGGGCCAGTTGAGGAGCAGGGAAATGCGAATTTATTCTGCCACGCTTGCGAGAGGCAATTTTATGATCAGGAGGAGTACGATGTGCATCAGGAGCAGCACATGCAGTGTCCCTACTGCGAAAAGTGGCTTCCCACCAAGCGTGGTCTCAAGTTACATGTGCACTATCTTCACAGTGGCCTTCCGTGGATCATCGCAGATGGTCCACAGAGGTGCACAGCTTGTGGCAAGACATTTAAGAATCTCACAGTGCTGCAATCTCACGCAGAGAGTAAACATCAAAAGGGACGGAAGTCTTCGGCCAGGAAGTCTGTGGCGAGATCCTCAACATTCCAGATTACTATGGTTGATTTGACCAGTGATCAGGGCACCAGTGGACGTGTTGGCCAGAGAATTAGTCAGGTGAAAGTGGAGAGAAGCCTGCCAAATGGACTCTTTCACGCTGCGAATGATTTTCACTGCAGAATCTGCGGTGAGACATTCAGAAGTGAGGAGAACCGATTGAAGCATGTCCTGCAGGTGCACGAAATCTCCCAAGGAACACAGGAGAGTGTCTCCTGCTCGTACTGCAATGTGAAATGCAGGAATAGTTATCGTCTGGAGTTGCACATAAGAGAATCTCATCGAGGATTGCCCACATTTATTGAAGATGGTCCAATTTCTCGGGGTGTTTGCTTTGTGGCCTTAAACAGAGTGGAAAATGAAAAGTTCACACAACCCTTGAGGTACGCGTGCACGAGTTGCGGTGAGAAGTTTGCGGAGAAGGTGAAATTAAAGAGTCACATCCTTCAAATGCACGGCAACAGTGACACGGGAAAGAGTGGCTTCCCATGCAATGTGTGCGGAGCTGTTTTGCAGCACAAACTGTCCTTCGAGCGACACCTTGTGTTGCATGACAACAGTCTGGGCaccgtcaagtgtccgcagtgtccgaagagcttcctcaggcagtgtgatctggacgaacacttgccgcgtcacagtcaagagcgacccttcaagtgctccgactgcAGTTTGTCGTTCAAGAAGCGGAGAGGTCTGCAGCAGCACAGACTGCTGCACGACACGGGCCCCACAATGTGTCCGTACTGCACGCGACACTGTCTGAATGAGGCTCGATTGCGATTCCACGTGCGGAAGTGCCATCGCGGGCTTCCGGCGAAGATCACCGATGGCCCTGTCAGTTGCACCATCTGCAAGATGTCCTTCGACAGTCTGGATGCCCTGATGAGTCACGCCACGATGCTGCATGCCACGGCAATGAAGCCCTGCCGGTGCAAATACTGCGGCGAGGAGTTCCTCGATCACAACGAGCGACAAGTGCACATTCAGCAGAACCATGACAATGAGTCCCAGGGCATCGTGCAATTGTCCTACAAATCCTATCGCTGTGATGAGTGTGGCAAAGTGTTGTCCAGCAAGAATAACTTCGAGCGACACGTGATGAAGCACAAGAACGTGGGCAGTTTCGAGTGCACCATCTGTCCAAGGAAGTTTGCCTATCAATCTGAGCTGAGGCAACATGTGAGAGTGTGTCTGAGGCGACAGAAGAAGAGTCAGACGGCACAGTGTCCGCATTGTCTGGTGAAATTCAAGACACAGGAGCGCTTTGAGAAGCACATGATGAAACTCCATCCCGGATTGCCGAAGAGCATTTCAGAGGGACACATTGAGTGTAGCATTTGTGAGAAGTCATTCGACAGTCTGGATGAATTGAGGACACACGCTGCGGCACAGCATCCCGTTGAGCGGCCGGTGGAGTGTAGATTTTGCGGAGAGACATTCCAGGATGAGGAGGAGAAGAGAGATCACATTGACGAAGTTCACCGAAGGCACATTTGTGATGTTTGCAAGAGATTCTTTGACAACAGAGACGCTCTTTTGCTGCACATGGAGACACACGAGACAAAGAAGAATTCCCGCAGACATAATGAATCGTATGAGTGTGAGAAATGCGGAGAGATGTTTAGTAAGAAGTTAACACTGAAGATTCACATGTTCCGAAGGCATTTGAGCAAAGCAACAAGTACGGAAAAGGGACCATTTCCTTGCAAGATTTGTGGTAAAGTTCTTGCCAAGAGGACAACACTGAAGCTACATGTGTTGCGACACGAGGGATCGCTGAAGTTTGAATGTTCGCGATGTTCAAAGACATTTCAGTCAAATGTAGATCTGAGGAAGCACGTGAGGACACACAATATAAGGAGAATCTACAAGTGTAGAATTTGTGGGAAGGGATTCAAGGGAAGTGGAGCTCTTGGGCGACACGCAATGGTTCACGAGAATCCACCGAAAGAGTGTCCACATTGTGGCATGAAGTGCAGAAATGAGGAGACTTTCCACAGTCACATGACGACATTCCATCGTGGACTTCCGCTGGAGATTGGCAATGAAGGAGGTCCGTTCGATTGTGGTGTCTGTGGAGTGTCTTTTAAGATAATTGAGGCTCTGCAGAATCACTGTTCAGCTGAACATCCGTGCGAGAAGCCTTTCAAGTGCATGAATTGCCAGGAGACATTCAGTGACAAACAGGGAATGGAGAAACACTTCCAAGAGACACAAGAATGCCAACTGAAACACGCCTTGTATTCCACATCTGGACCATTTACGTGTAATTTGTGTGGCAAAGTGTTTATTCAGCGGCACTCGATGGAGAGTCACATGGTGCAGAAGCACAATGCCAAGGGGAAATACAAATGTTCGAGCTGCAATAGAGAGTTCGCCTACATTAGTCAGTACAAGCAGCATCAAATGGCCAAGAGATCGTGTCGCAGGGGATTCAAGACGACGGTGAGGAGCGTGAGGAGAGTCAAGGCGACTTACAGGCGACGAGCTAGACGTCGCATCATGGATAGCTACAAAGGCAGCGGACCTTTCACGTGCAAACAGTGTGGAAAGGTGTTGATTCGCAGACACACTTTGAGGCGTCATTTGCACAGACATGCCAATGATTTGGGCATAAAGTGTCCACTATGTCCGAAGTCTTACATGTTAAGGTTGGATTTGAGAGAACACATAGCATCACATTCGAAGGATAAGGCATTCAAGTGTGGTGTTTGTGGGCAAGCATTCAAGCAAAAGCGATATTTGATGTGTCACAAGAAGAAGATGATGTGTTTTAAGAGTAAGTTACTTGATTATGAGAACATCAGTTGTCCGTACTGCATGAAAGAGTTCAAATTGAAGTACATCCTCGTGAGACACTTGAAACGCTTTCACCGAGGACTTCCGCAAGTCATCACGACAGACGGTCCTTTTCGGTGTTACGTGTGCCAGACGAAGAGTGAGACACTTGAGGATCTCAAGGAGCACTGTGCTGTTCAGCATCCCTGCGAGAAGCCCATCAGATGTCACAAGTGTGGAGAGAGATTCACACAGAGAATAGAGCTTAGTGATCACATGCAGAGTGGAAAATGTGTCAAAAGGAGAATTTTGGTGCACAGATCGAAGGTATCGAGCAGGATGAAGAGAATATCGGCGCGACATGCCTGCAATATCTGCGGAAAGGTGATGCGTTATCATTTCAATCTTGAGCGACACATGATCGACGCACACGCGCAAGCTGGGCGATTCCAGTGTGAGATTTGCTCCAAACAGATATCACATCAGAGTGTCTACACGGTGCACATGAAGAGATGCATGGACAGTAGATACTGTGCTTACTGCAGCAAACTGTGCTGGACTTCGGTGCGACTGGTCAATCATGTGCATAGACACCATCAGAGTCTTCCGGTGGACAGCAGAAATCATCCTTTGGACTGCATAGCGTGTGAGAAGTCATTTGGCAATCTTCAAGAGTTGAATGATCACCATAAAGATACGCATTATGGTGAGGAGCGCTTCGAGTGTGTGCGATGCAAGATAACTTTTGACAGCAGAGAAGAGAGAATGTATCACTTTACCTTTCAGTGCAGGAAGAATAATCAGCATATTAAGTCAGATATCTGTTGCAACATCTGTGGAATGTTCTTCAGGAAGAGGAAATATCTTGAATTGCACATGAGTAGACATGAAGCGGCAGATGATGCTGCATTCTTTCTGTATGAGTGTGAAAAGTGTGGTCAGAAGTTCAATGATGAGATGAAAGTGAAGCTTCACATTTTCCGCATACACTTGAAATTGATGGCAAAATATCAGGGCAATGGACCATTTACGTGCAAAGATTGTGGCTCATTTCACGTGCGTAAGGCGAATTTTGAGTTGCATCTGATGAGACATGAAACTAGTGAGAATTTCCCATGTTACAAGTGTCCAATGAAGTTCTTGTCAATGCGAAGCATGGAGATTCACATGAAGTATCACAGTCGGACGTACAAATGTGAGCAGTGTGGAAAGAAATTCAAGAGCAGAGGCGTTCTGAGGCGTCACACGGTGAGGCATGAAGTGGAAAATGCCATGACTGCTGAATGTCCGTATTGTGGCATCGTGTGTGAGAGTAAGAGTGATTTTCACGTGCACGTGGAGACATTCCATCGAGGTCTGCCGGTGGAGATTGGCGAAGAAGGACCATTTAGTTGTAGTGCTTGTGAGCAGACTTTTGACACACTTGACGATTTGCAGGCTCACTGTTTGACTGAACATCCTTGTGAGAAGCCATTTGACTGCAAAATGTGCCAACAAACATTCGTCAACAAGACAGAAATGCAGAAACACACTGAAGAAAGAACAGAATGTCGAGAAATTGAAGAGAAAAGCGCCGTGAATGCCAGAACAGAGATGGTTCCGTGCACGGTGTGCGGAAAGGAGATGCAGGCGAGTTCATTGGCCAATCACATGGTCAATGTTCATGGCATTGGAGGGAAGTTTGAGTGTCAATTCTGTCTGAAGAAGTTCCTGCATCAGGGACGCCACAGAGCTCATGTGCCGCTGTGCAGGAAACTCATGTCGCGCGTGCAAGAGTGTGATTATTGTGCCAAGAAGTGCAAAGGGAGGCAATTGCTGGTGATTCACGTGCAGAATCTCCATCCTGGACTGCCAGTTGACAATGTTTATGGTCCAGTGAATTGCAAATTGTGCGGAGAATTATTCGAAAGCACACAATTTCTCATAAGTCACGCAAATGTTGAGCATCCAGTTGAGAAGCCTTTTGAATGTAAGACTTGTGGAAATGCATTTGCCAGTGAGAAGGAGAAGGAAATTCATGTGGAAGAAATACATCCAAATGCTGAAGTGGAAAACACCATTGAGAGGATTGAGAGATCGTCCAGAGTCATGGGATGTTTGTATTGTGGCAAGGAGTGTATCAATCAGGAGCACTTTATGGCGCACATCAATACATTTCATCGTGGACTTCCGATGGAGATTGAGGAAGAGGGTCCGTTCTATTGCAGTGCCTGTCCGAAGATATTCAAGATTTTTGAGGCTCTGCAGGATCACTGCCAGGCGCATCATCCCTGTGAGAATCCCTTCAGATGCAATCACTGCCAGTGGACGTTCGCCAGAAAGCTGGAAATGGAGGCTCACTTGGTGGCGAACAAGCAATGTCAGACGACAAAGAGTCATTCGAGTGAACTGACGTCCTGTGAATTCTGTGGCATTCAGATAACCAGGCGCAATTTTGAGTATCACATTGTGCATCGGCACGGAATTGGGGGAAAGTTTGAGTGTCAATATTGTGCAAAGAGATTTCTCTACCAAAGAGAATTTGGGAGACATGAGAATTTCTGTCGCGACAAGCTGGGCTGGAAGAAGAAGTGTCCCTACTGTCCGAGAGTGTGCAAGGATAGTGAGCTCCTGACACTGCATGTGCACGTCCTTCATCCGGGTCTTCCAGTTGAAATCAAGGATGATGAAATTCAGTGTGTAATTTGCAAAGAGGAGTTTAAGTATCTTGACAATCTCATGGATCACGCTCGTGAGCAACATCCTGTTGAGAAGCCCTTTGAGTGCCAAATCTGTGGACAATGTTTTGTTGCTGAGCAAGAGAAGAGTTGTCACATGAAGGAAAAACACATGAATTCCGAATGTGAACTTTGTGGAAAGAATTTCTCGTGTGAAAAAGCACTCAGTCGACATTTGCAGCGACACAAGAAGAGAGGAGTTGATGCATCACAGTACAAGTTTAAGTGTGAAAAGTGTGGATTGAAGTTTCGTCGTGAGATTCAAGTGAAATTTCACATTTTGCGACATCATGTAAATTCATCTCTATCGGATTACACGGGAAAGGCGCCGTACACTTGCAAAGAGTGTGGCAAAATCATGCAACGCAGAGATTATCTAGAGCGACACTTGCTAAAGCATGGCAGTACTAAAGGTGTTCCGTGTGAAAAGTGTGGTAAACTCTTCCTCAGTGAAATGATGTACACGACACACATGAAGAATCATGCGAAGAACAAGGCTTTCAATCCACACCTTTATTCGTTTAAGCATCGTAAGCATGTTAAGGAGCACACGAATCATACCAGATTCAAGCAGTGTTGCTATTGTGATCAGGATTGTCAGAATGAGGAGACTTTCCACAGTCACATGACGACATTCCATCGTGGACTTCCGCTGGAGATTGGCGATGAAGGAGGTCCGTTCGATTGTGGCGTCTGTGGAGTGTCTTTTAAGATAATTGAGGCTCTGCAGAATCACTGTTCGGCTGAACATCCGTGCGAGAAGCCCTTCAAGTGCATGAATTGCCAGGAGACATTCAGCAAGAAGCAAGCAATGATGGATCACTTCCAAGAGAATGAGGAATGCTACAAAAATCGATTGAATTGCCGTATTTGTGCTAAACGCTGCAATAATCAATTCAAACTCTTGCGTCACATTCAAAGCCACGGAAGAGAGTTAATCGGTGAGTCGGCATACAAGTATGAATGCGAAAAGTGTGGACAGAAGTTTAGTGATGAGATGAGAGTGAAGCTTCACGTCTTCCGGAAGCATTCAAATGAGAAGAGCTTTCTCAACGATGTGTCAATGGTGAAGACACAGACAGAGCGTCGCAAGATGTCATTTCTGTGCAAGACTTGTGGGCAATCTTTCACAATTGAGAAGAGTTACTTGACACACATTGCGAAGCACACGGCAGAATATAAGGAATGTCCATATTGTGGATTGATTTGCGCCAGTGAAGATGATTTTTTGCAGCACTTGGAGACTTTCCATCGCGGTCTTCCGGTGGAGATGGAGGAGGAAGGACCGTTCAATTGTGGTGTTTGTGAGGAGCGTTTTAAGATAATTGAGGCGCTGATTGATCATTGTTTACTTGAACATCCATGCAATCCACCTTTCACGTGTCTGAATTGCCATGGCGCATTTAGCAGTTTGCGTGAAGTTGCTGATCACTTGCAGCAGAATGGAAAATGTCCAGAAAATTCAACGAAGACATTCGACTGTGATTTGTGTGGGAGACAACACTACTCTATTCCAGCGTTGAAGCGTCATTTGGTGCTGTCGCACAATATTGGAGGGAAAATCAAGTGCCAACAATGTCCGAGGATGTTTACCTTTCCCAGTGATGTTATCAGTCACACGGAAATGTGCCACAAGCCGAAAATGCAATTGCTAGAGTGTCCGTATTGTGGTGTGAAGTGTGAGAATAAGGAGCGCTTTGTGATGCACGTGGACAGACTTCACACAGGTCTTCCGATTCCCTTGACTGAACCCTTGGAGGACGGTCCCGTCGCCTGTATTGCCTGTGGAGAGGCATTTGAGTGTCTGGATGATCTGAAGAAGCACGCAAGTGTGCAACATTTGCCTGAGGAGGCGTTTGAGTGTAAGACTTGTGGGGAGACATTCGTCACGGAGGTGGAATTGGACAAACACATTCACGAGGGACACTCGAGAGACAAAATGCTGGCTGAATATGCAGAATCTCTCGCGTGTAAAGAATGTGGCAAAGTGATGGCGTCTAGGTTGAATTTGGAGAAGCATTTCATGCTGCACGATCCCACATTGGGTGTAAAGTGTCCAAAGTGTCCGAGGAGATTCCTAATCAACGGTGACATGGTTTTCCACTCGCGGCGTCACAACAAGAACGTTCCATTCACTTGTAGGATTTGCCAGAAGGCAGTGAAAGGACACATTGAGTACATTGCTCACTGCACGAGTCACACAACAGGCAAATTGTCAGCCAACGAGAGTGTTGAATGTCCGTATTGTGGCCTGTTGTGGAAGAAGAACTTCAGCAGAGAACGCTTTCTCGATCATATGAGGAAGTATCATCGAGGACTTCCGTTGGAAGTTGGTGGACCGTTTGAGTGTCGAGTGTGCAAAGACTTGACATTTGACTCACTGGAGGCCATCAAGAGTCACTGTTTGGCTGAACATCCGTGTGAAATGCCCTTCAGATGTAAGAATTGTCAGCAAATGTTCGGCCACAATGTGGACATTGAGAGGCATTTGCAGGAAAATGTCGATTGTCAAGGTGTTAACAGGAGTTTTCCTCAGAGACGCCGAACAATTGTGGGACATTCGAACTATTGTAGAAAGTGTGGAAAGATTTTTGACACCCAAGAAGATCTGCTGAAGCACAAGGAATCACACGCTGAGGAGTTTTACAGGAGGAGAGCCGAGAAGAATATCTCTTTTGATCCATCATTGCCGTATGAGTGTGAAAAGTGTCATCAGAGATTCCAGACGGAGTTCATTGTGAAGGTTCACATAATGCGTGAACATGTGAGACCAGGATTGAAGGACAAGATGAAGGAGTATTCCCGAATTGGTCCGTTCACTTGCAAGGAGTGTGGAAAGGTGTTCACTGTGAGATACTATCTGGAGAAGCATTTGCTGTTTCACGATCCTTCTCTCGGTGTTTCATGTCCTGAATGTCCGAGGAGTTTTCTGTCTGAGCCCAATATGCTGTTTCACATGAAATCTCACAGAAGTGAGCCAAAAGATCTGTTTGAGTGCAAAGTGTGTGGCAAGAAGTTCATACGGAAGGCCAATTGGGAGGATCACATGTCTGTGCATGATAATACACCGCAAAAGTGCCAATATTGCCAGATGTCAGTGAAAAATATGCAACGTCTCAAGATTCACATCATAAAATACCATCCAGGATTGCCTCACAATGCCAAAGACGATGAACCGGTGAAGTGTAGGCTGTGCAAGAGGAAATTCAACAATCTCAGTGATCTGAAGCATCACACAGCGACGAAGCATCCACTGAAGAAGGCTGTCAATTGTACATTTTGCAGAAAGAAACTCGACAGTGTGGATGATATGGTGAGACATATGGAGGAGGATCATGGAAACGAAAATACCGCTTGCAACATTTGTGGACAAGTTCTGGTCACGAAGTTCGGCATGACGAGACATATGGAAGCGCACGCTTATGACAAAACGTGTCCAATTTGCTCAAAGAGAATCCTGCGAAAATACTACCAGAATCATCTGAACACATGTCAGGAGAGTCAATCGCAGGGAAGTGAGCTTTGTCCACATTGTCCGGCAAAGTGTATCAGCAGAGAAGTGCTGGAGATGCACGTTAGTAAATTCCACACAGGACTTCCTATTGAGATTACAGATGGACCTCTTGAGTGTACAATTTGCCGAATGTCCTTCGCTGAGGGCATCGAAGCGCTCAAGGATCACGTCGAGGTGGAACATATGGAAATCAACTTGTTCGACTGTGAACGATGCGAAGATTCGTTCAGCAGCAAAGAGCAGCTCTATGATCACATTCGTGCGGCGCATGAAACGCACGATTGCGCAGAATGTGGCGAGAAGTTCAGCAGACGGATCAAATTGGAGGATCACATCAGGCGCCATCACAGGGCTCCGGAGGAGGACGAGGAGGAGGAGAATTACGATGAGGAGGAGGGCCATGGGGAGGACATATGGACGTGTCAGGAGTGCGGGAAGAGCTTGTACAGCGGCAGTGCCTTTAAGCGACACATGGCCAGACATGCGGAGCGCAATGGCGACGTGTGCAGACCGGCGAATTGTCTGTATTGCGATCAGGTGTTCAAGACCAGCGAGTGTCTGGCGGCTCACGTGGCGATGAGCCATTGGAGTGTGGCTGTGGAGTGCAGATACTGCAGTGTAGAGTGCACAAGCAGGCAGAATCTCAGGTATCACGTGAACTACGCGCACACAGGACTTCCAGTGGATGCTCATGATGGGCCAATTTCACCGCTGATTTGCAATGTGGCGTTGCTCAATATGGACTCACTACTATATATTAAGCAGGAGAAACCGGCTGATGAGGAGGAGACGGATGTGGAAGTGATAGAGAATGGCGTGCAGTTCATGCTGGAAGAGACAATCCAGCGGAGTTGCTCTCGCTGTGGAGATGTTTTCACCGATGAGGATGAATTCAATAACCATGTTCTTAACCATGGGATAAGCGTGATTGAGGACGAAGACTGTTATTAG
Protein Sequence: MERRVKKEPESTECSFLKAKEEVAGENGPVEEQGNANLFCHACERQFYDQEEYDVHQEQHMQCPYCEKWLPTKRGLKLHVHYLHSGLPWIIADGPQRCTACGKTFKNLTVLQSHAESKHQKGRKSSARKSVARSSTFQITMVDLTSDQGTSGRVGQRISQVKVERSLPNGLFHAANDFHCRICGETFRSEENRLKHVLQVHEISQGTQESVSCSYCNVKCRNSYRLELHIRESHRGLPTFIEDGPISRGVCFVALNRVENEKFTQPLRYACTSCGEKFAEKVKLKSHILQMHGNSDTGKSGFPCNVCGAVLQHKLSFERHLVLHDNSLGTVKCPQCPKSFLRQCDLDEHLPRHSQERPFKCSDCSLSFKKRRGLQQHRLLHDTGPTMCPYCTRHCLNEARLRFHVRKCHRGLPAKITDGPVSCTICKMSFDSLDALMSHATMLHATAMKPCRCKYCGEEFLDHNERQVHIQQNHDNESQGIVQLSYKSYRCDECGKVLSSKNNFERHVMKHKNVGSFECTICPRKFAYQSELRQHVRVCLRRQKKSQTAQCPHCLVKFKTQERFEKHMMKLHPGLPKSISEGHIECSICEKSFDSLDELRTHAAAQHPVERPVECRFCGETFQDEEEKRDHIDEVHRRHICDVCKRFFDNRDALLLHMETHETKKNSRRHNESYECEKCGEMFSKKLTLKIHMFRRHLSKATSTEKGPFPCKICGKVLAKRTTLKLHVLRHEGSLKFECSRCSKTFQSNVDLRKHVRTHNIRRIYKCRICGKGFKGSGALGRHAMVHENPPKECPHCGMKCRNEETFHSHMTTFHRGLPLEIGNEGGPFDCGVCGVSFKIIEALQNHCSAEHPCEKPFKCMNCQETFSDKQGMEKHFQETQECQLKHALYSTSGPFTCNLCGKVFIQRHSMESHMVQKHNAKGKYKCSSCNREFAYISQYKQHQMAKRSCRRGFKTTVRSVRRVKATYRRRARRRIMDSYKGSGPFTCKQCGKVLIRRHTLRRHLHRHANDLGIKCPLCPKSYMLRLDLREHIASHSKDKAFKCGVCGQAFKQKRYLMCHKKKMMCFKSKLLDYENISCPYCMKEFKLKYILVRHLKRFHRGLPQVITTDGPFRCYVCQTKSETLEDLKEHCAVQHPCEKPIRCHKCGERFTQRIELSDHMQSGKCVKRRILVHRSKVSSRMKRISARHACNICGKVMRYHFNLERHMIDAHAQAGRFQCEICSKQISHQSVYTVHMKRCMDSRYCAYCSKLCWTSVRLVNHVHRHHQSLPVDSRNHPLDCIACEKSFGNLQELNDHHKDTHYGEERFECVRCKITFDSREERMYHFTFQCRKNNQHIKSDICCNICGMFFRKRKYLELHMSRHEAADDAAFFLYECEKCGQKFNDEMKVKLHIFRIHLKLMAKYQGNGPFTCKDCGSFHVRKANFELHLMRHETSENFPCYKCPMKFLSMRSMEIHMKYHSRTYKCEQCGKKFKSRGVLRRHTVRHEVENAMTAECPYCGIVCESKSDFHVHVETFHRGLPVEIGEEGPFSCSACEQTFDTLDDLQAHCLTEHPCEKPFDCKMCQQTFVNKTEMQKHTEERTECREIEEKSAVNARTEMVPCTVCGKEMQASSLANHMVNVHGIGGKFECQFCLKKFLHQGRHRAHVPLCRKLMSRVQECDYCAKKCKGRQLLVIHVQNLHPGLPVDNVYGPVNCKLCGELFESTQFLISHANVEHPVEKPFECKTCGNAFASEKEKEIHVEEIHPNAEVENTIERIERSSRVMGCLYCGKECINQEHFMAHINTFHRGLPMEIEEEGPFYCSACPKIFKIFEALQDHCQAHHPCENPFRCNHCQWTFARKLEMEAHLVANKQCQTTKSHSSELTSCEFCGIQITRRNFEYHIVHRHGIGGKFECQYCAKRFLYQREFGRHENFCRDKLGWKKKCPYCPRVCKDSELLTLHVHVLHPGLPVEIKDDEIQCVICKEEFKYLDNLMDHAREQHPVEKPFECQICGQCFVAEQEKSCHMKEKHMNSECELCGKNFSCEKALSRHLQRHKKRGVDASQYKFKCEKCGLKFRREIQVKFHILRHHVNSSLSDYTGKAPYTCKECGKIMQRRDYLERHLLKHGSTKGVPCEKCGKLFLSEMMYTTHMKNHAKNKAFNPHLYSFKHRKHVKEHTNHTRFKQCCYCDQDCQNEETFHSHMTTFHRGLPLEIGDEGGPFDCGVCGVSFKIIEALQNHCSAEHPCEKPFKCMNCQETFSKKQAMMDHFQENEECYKNRLNCRICAKRCNNQFKLLRHIQSHGRELIGESAYKYECEKCGQKFSDEMRVKLHVFRKHSNEKSFLNDVSMVKTQTERRKMSFLCKTCGQSFTIEKSYLTHIAKHTAEYKECPYCGLICASEDDFLQHLETFHRGLPVEMEEEGPFNCGVCEERFKIIEALIDHCLLEHPCNPPFTCLNCHGAFSSLREVADHLQQNGKCPENSTKTFDCDLCGRQHYSIPALKRHLVLSHNIGGKIKCQQCPRMFTFPSDVISHTEMCHKPKMQLLECPYCGVKCENKERFVMHVDRLHTGLPIPLTEPLEDGPVACIACGEAFECLDDLKKHASVQHLPEEAFECKTCGETFVTEVELDKHIHEGHSRDKMLAEYAESLACKECGKVMASRLNLEKHFMLHDPTLGVKCPKCPRRFLINGDMVFHSRRHNKNVPFTCRICQKAVKGHIEYIAHCTSHTTGKLSANESVECPYCGLLWKKNFSRERFLDHMRKYHRGLPLEVGGPFECRVCKDLTFDSLEAIKSHCLAEHPCEMPFRCKNCQQMFGHNVDIERHLQENVDCQGVNRSFPQRRRTIVGHSNYCRKCGKIFDTQEDLLKHKESHAEEFYRRRAEKNISFDPSLPYECEKCHQRFQTEFIVKVHIMREHVRPGLKDKMKEYSRIGPFTCKECGKVFTVRYYLEKHLLFHDPSLGVSCPECPRSFLSEPNMLFHMKSHRSEPKDLFECKVCGKKFIRKANWEDHMSVHDNTPQKCQYCQMSVKNMQRLKIHIIKYHPGLPHNAKDDEPVKCRLCKRKFNNLSDLKHHTATKHPLKKAVNCTFCRKKLDSVDDMVRHMEEDHGNENTACNICGQVLVTKFGMTRHMEAHAYDKTCPICSKRILRKYYQNHLNTCQESQSQGSELCPHCPAKCISREVLEMHVSKFHTGLPIEITDGPLECTICRMSFAEGIEALKDHVEVEHMEINLFDCERCEDSFSSKEQLYDHIRAAHETHDCAECGEKFSRRIKLEDHIRRHHRAPEEDEEEENYDEEEGHGEDIWTCQECGKSLYSGSAFKRHMARHAERNGDVCRPANCLYCDQVFKTSECLAAHVAMSHWSVAVECRYCSVECTSRQNLRYHVNYAHTGLPVDAHDGPISPLICNVALLNMDSLLYIKQEKPADEEETDVEVIENGVQFMLEETIQRSCSRCGDVFTDEDEFNNHVLNHGISVIEDEDCY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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