Basic Information

Insect: Nineta flava
Gene Symbol: ZNF131
Assembly: GCA_963920215.1
Location: OY986042.1:23327980-23346238[+]

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 76 0.1 3.8 8.7 4.5 1 23 52 74 52 74 0.98

2 76 1.8e-05 0.00066 20.5 1.7 1 23 80 102 80 102 0.98

3 76 0.0058 0.21 12.6 1.6 1 23 137 160 137 160 0.96

4 76 0.0019 0.07 14.2 4.2 2 23 166 188 165 188 0.96

5 76 0.0034 0.13 13.3 5.9 1 23 197 219 197 219 0.99

6 76 0.00031 0.011 16.6 0.2 1 23 222 244 222 244 0.97

7 76 0.00039 0.014 16.3 2.1 2 23 251 272 250 272 0.97

8 76 7.9e-07 2.9e-05 24.8 0.7 1 23 278 300 278 300 0.98

9 76 0.0095 0.35 11.9 1.2 2 23 364 385 363 385 0.96

10 76 0.00061 0.023 15.7 4.5 1 23 391 413 391 413 0.99

11 76 5 1.9e+02 3.4 0.3 1 13 420 432 420 437 0.84

12 76 0.0045 0.17 13.0 5.0 1 23 448 471 448 471 0.96

13 76 4.8e-05 0.0018 19.2 0.1 2 23 477 498 476 498 0.97

14 76 0.00015 0.0057 17.6 4.1 1 23 507 529 507 529 0.99

15 76 0.00045 0.017 16.1 0.2 1 23 532 554 532 554 0.98

16 76 0.00019 0.0072 17.3 0.2 2 23 561 582 560 582 0.97

17 76 3.5e-07 1.3e-05 25.9 0.4 1 23 588 610 588 610 0.99

18 76 0.034 1.3 10.2 2.0 1 23 686 709 686 709 0.92

19 76 0.013 0.48 11.5 2.1 1 23 719 741 719 741 0.98

20 76 0.0002 0.0073 17.2 0.7 1 23 746 768 746 768 0.98

21 76 0.0069 0.26 12.4 0.2 2 23 774 796 774 796 0.96

22 76 0.00012 0.0044 17.9 3.1 1 23 804 826 804 826 0.97

23 76 0.00015 0.0055 17.6 2.0 2 23 830 851 829 851 0.97

24 76 0.00046 0.017 16.1 3.9 1 23 857 879 857 879 0.98

25 76 3.5e-06 0.00013 22.8 0.3 1 23 885 907 885 907 0.98

26 76 0.0013 0.047 14.7 1.7 1 23 975 998 975 998 0.92

27 76 2.1e-05 0.00077 20.3 2.9 1 23 1008 1030 1008 1030 0.98

28 76 8e-05 0.003 18.5 1.1 1 23 1035 1058 1035 1058 0.98

29 76 0.001 0.037 15.0 1.5 3 23 1062 1083 1061 1083 0.97

30 76 0.0021 0.078 14.0 1.9 1 23 1092 1114 1092 1114 0.98

31 76 4.6e-05 0.0017 19.2 3.0 1 23 1120 1142 1120 1142 0.98

32 76 2.8e-06 0.0001 23.1 0.5 1 23 1148 1170 1148 1170 0.98

33 76 0.0036 0.14 13.3 1.2 3 23 1243 1264 1242 1264 0.94

34 76 1.9e-05 0.00071 20.4 1.6 1 23 1274 1297 1274 1297 0.96

35 76 0.06 2.2 9.4 2.1 1 23 1303 1326 1303 1326 0.91

36 76 0.0024 0.088 13.8 1.5 1 23 1336 1358 1336 1358 0.98

37 76 0.00016 0.0059 17.5 1.3 1 23 1363 1386 1363 1386 0.98

38 76 0.0015 0.055 14.5 1.1 3 23 1390 1411 1389 1411 0.97

39 76 0.00014 0.0052 17.7 1.5 1 23 1420 1442 1420 1442 0.98

40 76 1.6e-05 0.00061 20.6 1.8 3 23 1447 1467 1445 1467 0.96

41 76 0.0003 0.011 16.7 4.6 1 23 1473 1495 1473 1495 0.98

42 76 2.8e-06 0.0001 23.1 0.5 1 23 1501 1523 1501 1523 0.98

43 76 0.0013 0.047 14.7 1.7 1 23 1594 1617 1594 1617 0.92

44 76 0.015 0.55 11.3 3.2 1 23 1627 1649 1627 1649 0.98

45 76 0.00018 0.0066 17.4 1.4 1 23 1654 1677 1654 1677 0.98

46 76 0.00068 0.025 15.6 0.6 3 23 1681 1702 1680 1702 0.97

47 76 0.041 1.5 9.9 3.0 1 23 1711 1733 1711 1733 0.96

48 76 3.6e-05 0.0013 19.6 2.5 1 23 1736 1758 1736 1758 0.97

49 76 0.00031 0.012 16.6 4.9 1 23 1764 1786 1764 1786 0.98

50 76 9.1e-06 0.00034 21.4 1.3 1 23 1792 1814 1792 1814 0.98

51 76 0.00028 0.01 16.8 1.1 1 23 1820 1843 1820 1843 0.98

52 76 0.0026 0.096 13.7 0.6 2 23 1899 1921 1899 1921 0.93

53 76 0.0096 0.36 11.9 2.3 1 23 1931 1953 1931 1953 0.98

54 76 0.0056 0.21 12.7 1.1 1 23 1958 1981 1958 1981 0.92

55 76 3.5e-05 0.0013 19.6 1.0 2 23 1987 2009 1987 2009 0.96

56 76 0.014 0.51 11.5 7.0 1 23 2018 2040 2018 2040 0.98

57 76 0.00014 0.0052 17.7 2.8 1 23 2043 2065 2043 2065 0.98

58 76 0.00092 0.034 15.1 4.4 1 23 2071 2093 2071 2093 0.98

59 76 4.2e-05 0.0016 19.3 0.9 1 23 2099 2121 2099 2121 0.98

60 76 3.9 1.4e+02 3.7 1.5 1 18 2127 2144 2127 2149 0.91

61 76 0.0004 0.015 16.3 3.0 1 23 2166 2188 2166 2188 0.98

62 76 0.018 0.67 11.1 0.6 1 23 2193 2216 2193 2216 0.97

63 76 0.028 1 10.5 3.4 3 23 2223 2244 2221 2244 0.92

64 76 0.00022 0.0083 17.1 4.4 1 23 2253 2275 2253 2275 0.96

65 76 0.00019 0.0072 17.3 2.0 1 23 2278 2300 2278 2300 0.97

66 76 0.00046 0.017 16.1 4.6 1 23 2306 2328 2306 2328 0.98

67 76 0.22 8.2 7.7 5.9 1 23 2414 2437 2414 2437 0.91

68 76 0.44 16 6.7 0.5 1 23 2447 2470 2447 2470 0.91

69 76 0.00037 0.014 16.4 3.0 1 23 2484 2506 2484 2506 0.98

70 76 0.0095 0.35 12.0 0.5 1 23 2511 2534 2511 2534 0.97

71 76 0.00021 0.0077 17.2 1.3 3 23 2541 2562 2540 2562 0.97

72 76 0.045 1.7 9.8 5.4 1 23 2571 2593 2571 2593 0.98

73 76 0.00032 0.012 16.6 3.5 1 23 2596 2618 2596 2618 0.98

74 76 0.00041 0.015 16.3 3.8 1 23 2624 2646 2624 2646 0.98

75 76 1e-06 3.7e-05 24.5 0.4 1 23 2652 2674 2652 2674 0.98

76 76 0.023 0.87 10.7 4.9 1 23 2680 2703 2680 2703 0.98

#	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	76	0.1	3.8	8.7	4.5	1	23	52	74	52	74	0.98
2	76	1.8e-05	0.00066	20.5	1.7	1	23	80	102	80	102	0.98
3	76	0.0058	0.21	12.6	1.6	1	23	137	160	137	160	0.96
4	76	0.0019	0.07	14.2	4.2	2	23	166	188	165	188	0.96
5	76	0.0034	0.13	13.3	5.9	1	23	197	219	197	219	0.99
6	76	0.00031	0.011	16.6	0.2	1	23	222	244	222	244	0.97
7	76	0.00039	0.014	16.3	2.1	2	23	251	272	250	272	0.97
8	76	7.9e-07	2.9e-05	24.8	0.7	1	23	278	300	278	300	0.98
9	76	0.0095	0.35	11.9	1.2	2	23	364	385	363	385	0.96
10	76	0.00061	0.023	15.7	4.5	1	23	391	413	391	413	0.99
11	76	5	1.9e+02	3.4	0.3	1	13	420	432	420	437	0.84
12	76	0.0045	0.17	13.0	5.0	1	23	448	471	448	471	0.96
13	76	4.8e-05	0.0018	19.2	0.1	2	23	477	498	476	498	0.97
14	76	0.00015	0.0057	17.6	4.1	1	23	507	529	507	529	0.99
15	76	0.00045	0.017	16.1	0.2	1	23	532	554	532	554	0.98
16	76	0.00019	0.0072	17.3	0.2	2	23	561	582	560	582	0.97
17	76	3.5e-07	1.3e-05	25.9	0.4	1	23	588	610	588	610	0.99
18	76	0.034	1.3	10.2	2.0	1	23	686	709	686	709	0.92
19	76	0.013	0.48	11.5	2.1	1	23	719	741	719	741	0.98
20	76	0.0002	0.0073	17.2	0.7	1	23	746	768	746	768	0.98
21	76	0.0069	0.26	12.4	0.2	2	23	774	796	774	796	0.96
22	76	0.00012	0.0044	17.9	3.1	1	23	804	826	804	826	0.97
23	76	0.00015	0.0055	17.6	2.0	2	23	830	851	829	851	0.97
24	76	0.00046	0.017	16.1	3.9	1	23	857	879	857	879	0.98
25	76	3.5e-06	0.00013	22.8	0.3	1	23	885	907	885	907	0.98
26	76	0.0013	0.047	14.7	1.7	1	23	975	998	975	998	0.92
27	76	2.1e-05	0.00077	20.3	2.9	1	23	1008	1030	1008	1030	0.98
28	76	8e-05	0.003	18.5	1.1	1	23	1035	1058	1035	1058	0.98
29	76	0.001	0.037	15.0	1.5	3	23	1062	1083	1061	1083	0.97
30	76	0.0021	0.078	14.0	1.9	1	23	1092	1114	1092	1114	0.98
31	76	4.6e-05	0.0017	19.2	3.0	1	23	1120	1142	1120	1142	0.98
32	76	2.8e-06	0.0001	23.1	0.5	1	23	1148	1170	1148	1170	0.98
33	76	0.0036	0.14	13.3	1.2	3	23	1243	1264	1242	1264	0.94
34	76	1.9e-05	0.00071	20.4	1.6	1	23	1274	1297	1274	1297	0.96
35	76	0.06	2.2	9.4	2.1	1	23	1303	1326	1303	1326	0.91
36	76	0.0024	0.088	13.8	1.5	1	23	1336	1358	1336	1358	0.98
37	76	0.00016	0.0059	17.5	1.3	1	23	1363	1386	1363	1386	0.98
38	76	0.0015	0.055	14.5	1.1	3	23	1390	1411	1389	1411	0.97
39	76	0.00014	0.0052	17.7	1.5	1	23	1420	1442	1420	1442	0.98
40	76	1.6e-05	0.00061	20.6	1.8	3	23	1447	1467	1445	1467	0.96
41	76	0.0003	0.011	16.7	4.6	1	23	1473	1495	1473	1495	0.98
42	76	2.8e-06	0.0001	23.1	0.5	1	23	1501	1523	1501	1523	0.98
43	76	0.0013	0.047	14.7	1.7	1	23	1594	1617	1594	1617	0.92
44	76	0.015	0.55	11.3	3.2	1	23	1627	1649	1627	1649	0.98
45	76	0.00018	0.0066	17.4	1.4	1	23	1654	1677	1654	1677	0.98
46	76	0.00068	0.025	15.6	0.6	3	23	1681	1702	1680	1702	0.97
47	76	0.041	1.5	9.9	3.0	1	23	1711	1733	1711	1733	0.96
48	76	3.6e-05	0.0013	19.6	2.5	1	23	1736	1758	1736	1758	0.97
49	76	0.00031	0.012	16.6	4.9	1	23	1764	1786	1764	1786	0.98
50	76	9.1e-06	0.00034	21.4	1.3	1	23	1792	1814	1792	1814	0.98
51	76	0.00028	0.01	16.8	1.1	1	23	1820	1843	1820	1843	0.98
52	76	0.0026	0.096	13.7	0.6	2	23	1899	1921	1899	1921	0.93
53	76	0.0096	0.36	11.9	2.3	1	23	1931	1953	1931	1953	0.98
54	76	0.0056	0.21	12.7	1.1	1	23	1958	1981	1958	1981	0.92
55	76	3.5e-05	0.0013	19.6	1.0	2	23	1987	2009	1987	2009	0.96
56	76	0.014	0.51	11.5	7.0	1	23	2018	2040	2018	2040	0.98
57	76	0.00014	0.0052	17.7	2.8	1	23	2043	2065	2043	2065	0.98
58	76	0.00092	0.034	15.1	4.4	1	23	2071	2093	2071	2093	0.98
59	76	4.2e-05	0.0016	19.3	0.9	1	23	2099	2121	2099	2121	0.98
60	76	3.9	1.4e+02	3.7	1.5	1	18	2127	2144	2127	2149	0.91
61	76	0.0004	0.015	16.3	3.0	1	23	2166	2188	2166	2188	0.98
62	76	0.018	0.67	11.1	0.6	1	23	2193	2216	2193	2216	0.97
63	76	0.028	1	10.5	3.4	3	23	2223	2244	2221	2244	0.92
64	76	0.00022	0.0083	17.1	4.4	1	23	2253	2275	2253	2275	0.96
65	76	0.00019	0.0072	17.3	2.0	1	23	2278	2300	2278	2300	0.97
66	76	0.00046	0.017	16.1	4.6	1	23	2306	2328	2306	2328	0.98
67	76	0.22	8.2	7.7	5.9	1	23	2414	2437	2414	2437	0.91
68	76	0.44	16	6.7	0.5	1	23	2447	2470	2447	2470	0.91
69	76	0.00037	0.014	16.4	3.0	1	23	2484	2506	2484	2506	0.98
70	76	0.0095	0.35	12.0	0.5	1	23	2511	2534	2511	2534	0.97
71	76	0.00021	0.0077	17.2	1.3	3	23	2541	2562	2540	2562	0.97
72	76	0.045	1.7	9.8	5.4	1	23	2571	2593	2571	2593	0.98
73	76	0.00032	0.012	16.6	3.5	1	23	2596	2618	2596	2618	0.98
74	76	0.00041	0.015	16.3	3.8	1	23	2624	2646	2624	2646	0.98
75	76	1e-06	3.7e-05	24.5	0.4	1	23	2652	2674	2652	2674	0.98
76	76	0.023	0.87	10.7	4.9	1	23	2680	2703	2680	2703	0.98

Sequence Information

Coding Sequence: ATGGCTCCGTCACTGGAAGTGACTTGGATAAAACAAGAACCTATCTTTGAGGAGATTCAAGCGTTTACTGATGATGCATCGTTCAATGAACAATTACTACTAACAGATATAAAGTTTGAAGAAGATCAGGAAtacataaaaatcaataataaatatagttgTTCGTTATGTAAGAAAATGTTTGTAAACAAGGGCAAATGTAAAGATCACTATCGTATCCACTTAGATGTTCGTCCATTCCCATGCGCACATTGTGATAAAGCATTTAAGCTAAAGAGTGCATTAACAACACATCTGAAAACACACGACACCTCTCGCATTAAATATGAATGTATTGTGTGTAGCAAATCGTATTCATCGTTAAATTATGCACGACGCTGTGAGAAAAGTCATACCGGTGTATTTGCATATATGTGTACCCAATGTGACAAAGGATTCCATTATAAAAGTCTATTAGATATACATGTACAGATTAAACATAATGCTACAAAACAACAATGTCATATATGTAGTAAAATCTTTTCGAatagtattaattttaaaaatcattttcgtaATTTTCATAATCCAAATCAAATAATCAATGATTATAAATGTGAACAATGTGGGAAAGTATATCATTCACGGAAATTCTATAAACGTCATTTGAAATCACATGAAGGTTttgcatgtgatatttgtggcAAGATATTTGGCTATGAGCATGGTTTAAAGAATCATATATTAATTCATAAAGGGGAAAGGCCATGGAGTTGTAATGTGtgtggtaaaacatttaataaaaaacatatattaacTGTACATTTACGAACCCACACAAATGAGAAACCGTACGAGTGTAAGGACTGTGGAAAACGTTTTACGCAACGTAGTCCGTTAGTGATACACATGCGCTATCATACAGGTGAGCGTCCGTATCCATGTCGTTTATGTGCTGATGCATttataaGATGTGGAAGGGAgaaGATAACAAATGACGATGAATGGATCATAAAACAAGAACCAGATGAAACATCTGATacaaaagacaaaataaaaattgaagatGATGATAATGTGATTGGATATACAAGAAATAACGGATTAATTGAATGCAACGTGTGTAATAAGTCGTTTACAAATGAACGTCGTTGGAAAATGCATAACAATACACACATGAATGTTCGACCATATTCATGTAAGTTATGTAACAAACGTTTCAAACTGAAAACACATTTATCAGCACACGGACGTACACATGTTAAAAATcgtgaaaaatataattgtaacgTATGTCATAAAGAATACGCAACATTTAATTCTGTAATACGGTGTCAGAAAGAACATTCATTAGACTATGCATTCAAATGTTCAAATTGTGGCAAAGGATTTCATCATCGTAGTAAATTGTTTATACATTATGAGGTCAATCATAACGCAGTCAAACAACAGTGTccaatatgtaacaaaatatttgcaaataaaattaatttagctGCGCATGCTCGACAACATGATCCAAATTATGTAACACCTGAATATAAATGTGAACAATGTGGTAAATCATataattcacgaaaattttatagtcgACATATGAAATCACATGTTGGATTCCCGTGTGATGTGTGCGGTAAAGTGATAAGCTATGAGCATGGATTAAAGAATCATATGTTGATACATAAAGGAGAAAAACCATGGAGTTGTGATATATGcggcaaaaattttaatcaaaaagcaATATTAACTGTTCATCTACGAACACATACCAACGAAAAACCGTATGAGTGTAACGATTGCGGAAAACGATTTACGCAACGTAGTCCGTTAGTGATACACATGCGATCACATACTGGGGAACGACCATACAAGTGTCGAATTTGTGATCATGGAtttgttaTGCTTAACAAATTCATCTCAAATTCCAGGGAATATTCATCTGTTAAGAAAGAGGAAATATCAGATcacgatgatgatgattatggtttaaaaataaaagaagaagATATTGATATTGAACATAATCTAATCGGAGGCACTTATTTGGTTAAAATTGAACAGAAAGATAATATAATTCATAATtgtgatatttgtaatgaaatatttcaaaataatcgtGAATTGCATAACCATCAATCGGATGtacataataaagaaataaaagaaagtTTGAACTTTACGTGTGATATTTGTGGTAATCGTTATAAAAACAAAGTTTCCGCCTATCGACATAGAAAGAAACATACAACAAGTGGATATAAATGTAAACAATGTCCCAAAGGATTCTCAAcattaaatgatttaatatcACATAATGAAACACATCCCCCGCCATCTGCatattgtaatatttgtaataaacaatatgCGAATATGGCTACTTATAAAGCACATTATCGTATAGTACATGATACAAAGAATAGTTCGATGCATATGTGTAAAATATGTGGTAAAGGTTTTGAAACACGTTCACAATATTATCGACATGTGAAATCACATGAAGGTGTTGTATGCCATCTTtgtggaaaaatatttaaccatCCTGAACCACTCAAACATCATATGctcatacatacaggtgaaaaaCCGTTCAGTTGTACATTTTGCGATAAAAAATTTcgaaagaaaattttcttaaatgaaCATTTGCGTACGCATACTAAAGAACGGCCATTTATTTGTTCGGTGTGTGGTAAAGGATTCACCCAACGTAGTCCACTTAATTTACATATGCGGTCACATACTGGGGAGCGACCCTTTAAATGTTCCATATTGCTTAACAAATACATCTCAAATTCCAGGGAATATACATCTGTTAAAAAAGAGGAAATATCAGATCACgaagattattataatttaaaaataaaagaagaaattgATAATGAAGATTATTATACTGGAGGCAGCAATTTGGTAAAAATTGAACAGAAAGATAATACAATTCATAATTGTGATATTTGTAAcgaaacatttcaaaataatcgTGAATTACGTAAACATCAATCGGATGTACATAATaaagaaacaaaagaaagtttgatttttacGTGCGATATCTGTGGTAAAGTATATACTACGAAGAAAGCATTTAATAAACATAAGAAGAAGCATGCAACAAATGGATTTAAATGTAAAGAATGTTCCGAAGGATTTTCAACTTTAGATGATTTACGTTCACATACCAACACAACTCATTctccattttgtaatatttgtaataagcAATTTTCGAGTTTTTCTACTTATAAAGATCATTATCGTGTAGTACACGATACAGAGAAAAGTTATCCGATGCATACATGTCAAATATGTGGTAAAGGTCTTGAAACACGTCCACAATATTATCGACATATGAAATCACATGAAGATGAAAAACCGTTCAGTTGTTCATTTTGCGATAAAAAATTTCGAAAGAAAAATGCCTTAAATGAACATTTGCGTACGCATACTAAAGAACGGCCATTTATTTGTTCGGTGTGTGGTAAAGGATTTACCCAACGTAGTCCACTTAAATTACATATGCGATCACATACTGGGGAGCGACCTTTTAAATGTTCCATATGTAATCAAgTGCTTAACAAATACATCTCAAATTCCAGGGAATATTCATCTGTTAAAAAGGAGGAAATATCAGATCACgaagattattataatttaaaaataaaagcagAAATTGATAATGAAGATTATTATACTGGACGCAGCAATTTGGTAAAAATTGAACAGAAAGATAATACAATTCgtaattgttatatttgtaacgaaacatttcaaaataatcgTGAATTGCGTAAACATCAATCGAATATAcattataaagaaataaaagaaagtttgatttttacGTGTGATGTCTGTGGTAAAGTATATACTTCGAAGAAAGCATTTAAGAAACATATTAAGGAGAAACAtggaatatttacaattcataATTGTGATTTTTGTAAcgaaacatttcaaaatattcgtgAATTACGTAAACATCAAACGGATGTACAtgataaagaaataaaagaaagtttgatttttacGTGTGATGTCTGTGGCAATGTATATACTACGAAGAAAGGATTTAACATACATAAGAAGAAACATACAACAAATGGATATAAATGTAAAGAATGTTCCGAAGGATTTTCAACTTTAAATGATTTACGTTCACATACCAACACAACACATTctccattttgtaatatttgtaataagcAATTTGCTACTTTTTCTACTTATAAAGATCATTATCGTGTAATACACGATACAGAGAAAAGTTATCCGATGCATACATGTGAAATATGTGGTAAAGGTCTTGAAACACGTGCACAATATTTTCGACATATGAGATCACATGAAGGTGTTATATGTCATCTTTGTGGAAAAGTATTTAGTTTTCCTGACGAACTTAAACATCATATGTACTCACATACAGGTGAAAAACCATTCAGTTGTACATTTTGCgagaaaaaatttcgaaaaaatacttatttaaaagAACATTTACGTACACATACTAAAGAACGGCCGTTTATTTGTTCGGTTTGTGGTAAAGGATTCACCCAACGTAGTCCACTTAAATTACATATGCGATCACATACTGGGGAACGACCTTTTAAATGTTCCATATGTAATCAAGTGCTTAACAAATACATCTCAAATTCCAGGGAATATTCATCTGTTAAGAAAGAGGAAATATCAGATCACGATGatgattataatttaaaaataaaagaagaaattgATAGTGAAGATTATTATACCGGAAGCAGTAATTTGGTAAAAATTGAACAGAAAGATAATACAATTCATAATTGTGATATTTGTAAcgaaacatttcaaaataatcgTGAATTACGTAAACATCAATCGGATGTACATAATaaagaaacaaaagaaagtttgatttttacatGCGATGTCTGTGGTAATCGTTATACAACAAAAGCTTACTTCTATCAACATAAAAAGAAACATACAACAAATGGATTCAAATGTAAACAATGTTCCGAAGGATTTTCAACATTAGATGATTTACGTTCACATACCAACACAACACATTctccattttgtaatatttgtaataagcAATTTGCGAATATGTCTACTTATAAAGCACATTATCGTGTAGCACACGACACAGAGAATAGTTATCCGATGCATATATGTCAAATATGTGGTAAAGGTCTTGAAACACGTGCGAAATATTGTCGACATGTGAAATCACATGAAGGTTTTATATGTCATCTTTGTGGAAAAGTATTTAGTTATCCTGACCCACTTAAACATCATATGTACTCACATACAGGTGAAAAACCATTCAGTTGTACATTTTGCGAGAAAAAATTTCGAaagaagaattatttaaaagaacatTTACGTACACATACTAAAGAACGGCCGTTTATTTGTTCGGTTTGTGGTAAAGGATTCACACAACATAGTCCACTTAAATTACATATGCGATCACATACTGGGGAGCGACCTTTTAAATGTTCCATATGTAATCAAGGttatattagtaaaaattatCTGAAAATTCATATGCAAAGTTCACATAATACTACTGATGTTCAAATATCTAAAGAGGAAATATCAGATcacgatgatgatgattataaattacaaatcacTAAAGAGGATATCGAAGCCATAGATACTGTagataatataatcgaaagctGTAATaaggaaaaaattgaaaagaaagatAGTAAAATTCGtaaatgtgatatttgtaatgaaatatttcaaaataatcgtGAATTACGTAAACATCAATCGGATGTACATAATaaagaaacaaaagaaagtCTGAATTTTACGTGTGATGAATGTGGTAATCGTTATACATCAATTCGTTACTTAAATCAACATAAGAAGAAACATACAACAAATGgatttaaatgtcaaaaatgtTCCGAAGGATTCTCAACATTAAACGATTTACGTTCACATACAACTGCAACACATCCCCCACCATCAGCatattgtaatatttgtaataaacaatttgCGAATAGTTCTAATTATAAAGTACATTATCGTGTAACACACGATACAGAGAATAGTTATCCGGTGCACACGTGTCAAATATGTGGTAAATGGTATAAAACACGTTCAAAATATTGTCGACATATTAAGACACATGAAGGTTTCTCGTGTCATCAATGTGGACAAGCATTTCGTTATGCTGATAAATTAAAAGAACATATGTATAAACATACGGGAGAAAAACCGTATAATTGTACATTTTGTGAGAAAAAATTTCGTACACGAATTTACTTAAAAGAACATAAACGCACACATACGAAAGAAAGGCCATTTATTTGTACTGTGTGTAATAAAGGTTTTACACAACGTAATCCACTAAAATTACATATGCGGTCACATACTGGGGAACGCCCTTATAAATGTCCAATATGTAGTCAAGGATGTATTaACACATTTCAATTACGACGTAAATTACGTAAACATAAAATTGATGTACATAATTTGAAGGAGAAAGTCaaacaaaaaactgattttacttGTGATGAATGTGGCAATCGTTATACTtcgaataattcattaaaaagacATAAAAAGAAACATGCAACAAATGGATTCAAATGTAAAACATGTTTTGAGGGATTCCCAACGTTAAATGATTTAGAAATGCATACAGACACAAGTCACCCAGGTCCAGCattgttttgtaatatttgtaataaattattcgcAAACAAATCAAATTACAAAGAACATTGTCGCGTATTTCATGACACTGATGTGAGTGCAAACACACATGCATGCACAGTATGTGGTAAATGTTATAAAACACGTTCTGCAtggaataaacatttaaaatcacATGATGGGTTTTCATGTCATGAATGTGGGCAAATATTTCGTTATGCTGACAAATTAAAAGAGCACATATACAAACATACGGGTGAAAAAccatttaattgtacattttgTGAGAAAAAATTCCGAAAGAAAAACTACTTAACTGAACATTTACGAACCCATACTAAAGAACGGCCGTTTGTCTGTTCGTACTTAAACAAATACATCTCAAATTCCAGGGAATATTCATCTGTTAAGAAAGAGGAAATATCAGAtcttgatgatgatgattatggtataaaattaaaagaagaaGATATTGATATTGAACATAATCTAAAACAGGACATTGAAGATAATTTGACAAACAATGAAAATTGGGAACaaggaaaattattatttgatagcaCAAACGATGAATACATAGAAAAGGGTACTTTTAAATGTAATCGATGTAAATTAGGATTCAAGACAAAAAGTGAATATCAACAACATTGTAATAAACTGCATAAGAATcgtaaacaaaataatagtacatttcaatgtgatatttgtgaagACACATTTCAATTACGACGTGAATTACGTAAACATAAAATTGATGTACATAATTTAAAGGAGAAAGTCAAACAACAAACTGATCAAGATTTTACTTGTGATGAATGTGGCAATCGTTATACTTCGAATAAATCATTAAACAGACATAAAAAGAAACATGCAACAAATGGATTTAAATGTCAAACATGTTCTGAAGGATTTCCGACATTAAATGATTTACAAATGCATACAGATACAAATCACCCAGGTCCAGCAgctttttgtaatatttgtaataaattattcgcAAACAAATCAAATTACAAAGTACATTATCGTGTATTTCATGACACTGATGTTAGCGCACCTATACACACATGTGAATTATGTGGAAAATGGTATAAAACACGTTCAGAATATTGTAGGCATGTAAAATCACACGAAGGTTTTTCATGTCATCAATGTGGACAAATATTTCGTTATgctgataaattaaaatatcatatgTACACACATACAGGTGAAAAACCATTTAGTTGTACATTTTGTGAGAAAAAATTCCGAAAGAAAATCTATTTAACTGAACATTTACGAACCCATACTAAAGAACGACCGTTTGTCTGTTCGGTGTGTGGTAAAGGATTCACGCAACGTAGCCCACTGAAAATTCACATGCGCTCACATACCGGTGAACGTCCATACAAGTGTCGAATTTGTAACCATGGGTGTATTAGTAAAAATTATCTGAAAATTCATATGCAGAGTTCACATAACTCAACTGATGTCTAA
Protein Sequence: MAPSLEVTWIKQEPIFEEIQAFTDDASFNEQLLLTDIKFEEDQEYIKINNKYSCSLCKKMFVNKGKCKDHYRIHLDVRPFPCAHCDKAFKLKSALTTHLKTHDTSRIKYECIVCSKSYSSLNYARRCEKSHTGVFAYMCTQCDKGFHYKSLLDIHVQIKHNATKQQCHICSKIFSNSINFKNHFRNFHNPNQIINDYKCEQCGKVYHSRKFYKRHLKSHEGFACDICGKIFGYEHGLKNHILIHKGERPWSCNVCGKTFNKKHILTVHLRTHTNEKPYECKDCGKRFTQRSPLVIHMRYHTGERPYPCRLCADAFIRCGREKITNDDEWIIKQEPDETSDTKDKIKIEDDDNVIGYTRNNGLIECNVCNKSFTNERRWKMHNNTHMNVRPYSCKLCNKRFKLKTHLSAHGRTHVKNREKYNCNVCHKEYATFNSVIRCQKEHSLDYAFKCSNCGKGFHHRSKLFIHYEVNHNAVKQQCPICNKIFANKINLAAHARQHDPNYVTPEYKCEQCGKSYNSRKFYSRHMKSHVGFPCDVCGKVISYEHGLKNHMLIHKGEKPWSCDICGKNFNQKAILTVHLRTHTNEKPYECNDCGKRFTQRSPLVIHMRSHTGERPYKCRICDHGFVMLNKFISNSREYSSVKKEEISDHDDDDYGLKIKEEDIDIEHNLIGGTYLVKIEQKDNIIHNCDICNEIFQNNRELHNHQSDVHNKEIKESLNFTCDICGNRYKNKVSAYRHRKKHTTSGYKCKQCPKGFSTLNDLISHNETHPPPSAYCNICNKQYANMATYKAHYRIVHDTKNSSMHMCKICGKGFETRSQYYRHVKSHEGVVCHLCGKIFNHPEPLKHHMLIHTGEKPFSCTFCDKKFRKKIFLNEHLRTHTKERPFICSVCGKGFTQRSPLNLHMRSHTGERPFKCSILLNKYISNSREYTSVKKEEISDHEDYYNLKIKEEIDNEDYYTGGSNLVKIEQKDNTIHNCDICNETFQNNRELRKHQSDVHNKETKESLIFTCDICGKVYTTKKAFNKHKKKHATNGFKCKECSEGFSTLDDLRSHTNTTHSPFCNICNKQFSSFSTYKDHYRVVHDTEKSYPMHTCQICGKGLETRPQYYRHMKSHEDEKPFSCSFCDKKFRKKNALNEHLRTHTKERPFICSVCGKGFTQRSPLKLHMRSHTGERPFKCSICNQVLNKYISNSREYSSVKKEEISDHEDYYNLKIKAEIDNEDYYTGRSNLVKIEQKDNTIRNCYICNETFQNNRELRKHQSNIHYKEIKESLIFTCDVCGKVYTSKKAFKKHIKEKHGIFTIHNCDFCNETFQNIRELRKHQTDVHDKEIKESLIFTCDVCGNVYTTKKGFNIHKKKHTTNGYKCKECSEGFSTLNDLRSHTNTTHSPFCNICNKQFATFSTYKDHYRVIHDTEKSYPMHTCEICGKGLETRAQYFRHMRSHEGVICHLCGKVFSFPDELKHHMYSHTGEKPFSCTFCEKKFRKNTYLKEHLRTHTKERPFICSVCGKGFTQRSPLKLHMRSHTGERPFKCSICNQVLNKYISNSREYSSVKKEEISDHDDDYNLKIKEEIDSEDYYTGSSNLVKIEQKDNTIHNCDICNETFQNNRELRKHQSDVHNKETKESLIFTCDVCGNRYTTKAYFYQHKKKHTTNGFKCKQCSEGFSTLDDLRSHTNTTHSPFCNICNKQFANMSTYKAHYRVAHDTENSYPMHICQICGKGLETRAKYCRHVKSHEGFICHLCGKVFSYPDPLKHHMYSHTGEKPFSCTFCEKKFRKKNYLKEHLRTHTKERPFICSVCGKGFTQHSPLKLHMRSHTGERPFKCSICNQGYISKNYLKIHMQSSHNTTDVQISKEEISDHDDDDYKLQITKEDIEAIDTVDNIIESCNKEKIEKKDSKIRKCDICNEIFQNNRELRKHQSDVHNKETKESLNFTCDECGNRYTSIRYLNQHKKKHTTNGFKCQKCSEGFSTLNDLRSHTTATHPPPSAYCNICNKQFANSSNYKVHYRVTHDTENSYPVHTCQICGKWYKTRSKYCRHIKTHEGFSCHQCGQAFRYADKLKEHMYKHTGEKPYNCTFCEKKFRTRIYLKEHKRTHTKERPFICTVCNKGFTQRNPLKLHMRSHTGERPYKCPICSQGCINTFQLRRKLRKHKIDVHNLKEKVKQKTDFTCDECGNRYTSNNSLKRHKKKHATNGFKCKTCFEGFPTLNDLEMHTDTSHPGPALFCNICNKLFANKSNYKEHCRVFHDTDVSANTHACTVCGKCYKTRSAWNKHLKSHDGFSCHECGQIFRYADKLKEHIYKHTGEKPFNCTFCEKKFRKKNYLTEHLRTHTKERPFVCSYLNKYISNSREYSSVKKEEISDLDDDDYGIKLKEEDIDIEHNLKQDIEDNLTNNENWEQGKLLFDSTNDEYIEKGTFKCNRCKLGFKTKSEYQQHCNKLHKNRKQNNSTFQCDICEDTFQLRRELRKHKIDVHNLKEKVKQQTDQDFTCDECGNRYTSNKSLNRHKKKHATNGFKCQTCSEGFPTLNDLQMHTDTNHPGPAAFCNICNKLFANKSNYKVHYRVFHDTDVSAPIHTCELCGKWYKTRSEYCRHVKSHEGFSCHQCGQIFRYADKLKYHMYTHTGEKPFSCTFCEKKFRKKIYLTEHLRTHTKERPFVCSVCGKGFTQRSPLKIHMRSHTGERPYKCRICNHGCISKNYLKIHMQSSHNSTDV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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