Basic Information

Insect: Timema shepardi
Gene Symbol: -
Assembly: GCA_902151425.1
Location: CABFVX010000162.1:64311-88402[+]

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 70 0.00025 0.069 16.0 1.2 2 23 45 67 44 67 0.94

2 70 0.0023 0.62 13.0 7.5 3 23 71 91 70 91 0.98

3 70 0.11 30 7.7 0.6 2 23 98 119 97 119 0.96

4 70 0.11 29 7.8 0.3 1 23 125 147 125 147 0.97

5 70 2.6e-06 0.00072 22.3 3.1 1 23 153 175 153 175 0.99

6 70 1e-05 0.0028 20.4 0.3 1 23 180 202 180 202 0.99

7 70 0.00025 0.068 16.0 4.4 1 23 208 230 208 230 0.97

8 70 7.2e-06 0.002 20.9 2.4 1 23 236 258 236 258 0.96

9 70 2.6e-05 0.0072 19.1 6.5 1 23 264 286 264 286 0.98

10 70 0.15 42 7.3 5.0 1 23 359 382 359 382 0.93

11 70 0.011 3.1 10.8 2.7 1 23 386 408 386 408 0.93

12 70 2.3 6.2e+02 3.6 0.8 2 23 415 436 415 436 0.95

13 70 0.0088 2.4 11.2 0.3 1 23 442 464 442 464 0.95

14 70 0.00056 0.15 14.9 4.7 1 23 470 492 470 492 0.99

15 70 0.0085 2.3 11.2 1.4 1 23 503 525 503 525 0.98

16 70 0.00082 0.22 14.4 1.2 1 23 532 554 532 554 0.97

17 70 4.1e-06 0.0011 21.7 0.3 2 23 561 582 561 582 0.97

18 70 2.7e-07 7.3e-05 25.4 1.5 1 23 588 610 588 610 0.98

19 70 0.00016 0.043 16.7 2.6 1 23 616 638 616 638 0.99

20 70 0.062 17 8.5 3.2 2 23 686 706 685 706 0.88

21 70 0.00013 0.035 17.0 0.0 1 23 712 734 712 734 0.97

22 70 0.00023 0.063 16.1 3.0 1 23 740 762 740 762 0.97

23 70 0.00029 0.08 15.8 3.5 1 23 768 790 768 790 0.97

24 70 0.00045 0.12 15.2 0.5 2 23 797 818 796 818 0.95

25 70 0.0022 0.59 13.1 2.7 1 23 824 846 824 846 0.98

26 70 1.9e-05 0.0052 19.5 1.6 1 23 857 879 857 879 0.99

27 70 3e-05 0.008 19.0 0.5 2 23 886 907 885 907 0.96

28 70 1.3e-05 0.0036 20.0 0.5 2 23 914 935 914 935 0.97

29 70 0.00024 0.066 16.1 3.5 1 23 1004 1026 1004 1026 0.98

30 70 0.00014 0.039 16.8 2.9 1 23 1032 1054 1032 1054 0.97

31 70 0.0069 1.9 11.5 3.0 1 23 1061 1084 1061 1084 0.94

32 70 0.0027 0.73 12.8 3.4 1 22 1090 1111 1090 1114 0.90

33 70 2.2e-05 0.006 19.4 1.4 2 23 1121 1142 1120 1142 0.96

34 70 6e-07 0.00016 24.3 0.3 2 23 1149 1170 1148 1170 0.97

35 70 2.9e-05 0.008 19.0 2.0 1 23 1257 1279 1257 1279 0.97

36 70 0.0004 0.11 15.4 3.1 1 23 1285 1307 1285 1307 0.97

37 70 0.0025 0.67 12.9 1.6 1 23 1313 1335 1313 1335 0.98

38 70 0.029 7.9 9.5 5.1 1 23 1341 1363 1341 1363 0.96

39 70 0.0079 2.1 11.3 0.4 1 23 1369 1391 1369 1391 0.95

40 70 0.0024 0.64 13.0 6.1 1 23 1400 1423 1400 1423 0.98

41 70 0.00016 0.044 16.6 0.9 2 23 1432 1453 1431 1453 0.96

42 70 6.4e-07 0.00017 24.2 0.4 2 23 1460 1481 1459 1481 0.97

43 70 9.8e-07 0.00027 23.6 1.8 1 23 1487 1510 1487 1510 0.97

44 70 0.01 2.8 10.9 3.3 2 23 1582 1603 1581 1603 0.97

45 70 5.8e-05 0.016 18.0 2.2 1 23 1609 1631 1609 1631 0.98

46 70 9.3e-05 0.025 17.4 2.2 1 23 1637 1659 1637 1659 0.98

47 70 0.0001 0.027 17.3 2.0 1 23 1665 1687 1665 1687 0.96

48 70 0.0043 1.2 12.1 0.4 1 23 1693 1715 1693 1715 0.95

49 70 0.0013 0.35 13.8 3.9 1 23 1725 1747 1725 1747 0.98

50 70 3.1e-05 0.0084 18.9 0.2 1 23 1755 1777 1755 1777 0.98

51 70 9.7e-05 0.026 17.3 1.4 2 23 1784 1805 1783 1805 0.97

52 70 7.7e-05 0.021 17.6 1.0 1 21 1811 1831 1811 1832 0.95

53 70 5.5e-05 0.015 18.1 1.6 1 23 1898 1920 1898 1920 0.98

54 70 0.0061 1.7 11.7 5.6 1 23 1926 1948 1926 1948 0.98

55 70 0.014 3.8 10.5 3.0 1 23 1954 1976 1954 1976 0.98

56 70 0.00025 0.067 16.1 1.5 2 23 1983 2004 1982 2005 0.94

57 70 0.0087 2.4 11.2 0.7 1 23 2011 2033 2011 2033 0.95

58 70 1e-05 0.0027 20.4 0.2 1 23 2043 2065 2043 2065 0.98

59 70 2e-05 0.0053 19.5 1.9 1 23 2072 2094 2072 2094 0.98

60 70 5.6e-05 0.015 18.1 1.3 1 23 2100 2122 2100 2122 0.98

61 70 0.44 1.2e+02 5.8 0.1 1 16 2128 2143 2128 2145 0.88

62 70 0.024 6.4 9.8 2.0 2 23 2172 2193 2171 2193 0.97

63 70 0.0041 1.1 12.2 2.5 1 23 2199 2221 2199 2221 0.95

64 70 0.0049 1.3 12.0 1.6 1 23 2227 2249 2227 2249 0.98

65 70 0.051 14 8.8 2.9 1 23 2255 2277 2255 2277 0.95

66 70 0.092 25 8.0 0.6 1 23 2283 2305 2283 2305 0.94

67 70 0.00018 0.049 16.5 0.4 2 23 2316 2337 2316 2337 0.96

68 70 7.9e-06 0.0021 20.8 0.3 1 23 2344 2366 2344 2366 0.98

69 70 1.7e-05 0.0047 19.7 2.3 1 23 2372 2394 2372 2394 0.98

70 70 5e-06 0.0014 21.4 1.3 1 23 2400 2422 2400 2422 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	70	0.00025	0.069	16.0	1.2	2	23	45	67	44	67	0.94
2	70	0.0023	0.62	13.0	7.5	3	23	71	91	70	91	0.98
3	70	0.11	30	7.7	0.6	2	23	98	119	97	119	0.96
4	70	0.11	29	7.8	0.3	1	23	125	147	125	147	0.97
5	70	2.6e-06	0.00072	22.3	3.1	1	23	153	175	153	175	0.99
6	70	1e-05	0.0028	20.4	0.3	1	23	180	202	180	202	0.99
7	70	0.00025	0.068	16.0	4.4	1	23	208	230	208	230	0.97
8	70	7.2e-06	0.002	20.9	2.4	1	23	236	258	236	258	0.96
9	70	2.6e-05	0.0072	19.1	6.5	1	23	264	286	264	286	0.98
10	70	0.15	42	7.3	5.0	1	23	359	382	359	382	0.93
11	70	0.011	3.1	10.8	2.7	1	23	386	408	386	408	0.93
12	70	2.3	6.2e+02	3.6	0.8	2	23	415	436	415	436	0.95
13	70	0.0088	2.4	11.2	0.3	1	23	442	464	442	464	0.95
14	70	0.00056	0.15	14.9	4.7	1	23	470	492	470	492	0.99
15	70	0.0085	2.3	11.2	1.4	1	23	503	525	503	525	0.98
16	70	0.00082	0.22	14.4	1.2	1	23	532	554	532	554	0.97
17	70	4.1e-06	0.0011	21.7	0.3	2	23	561	582	561	582	0.97
18	70	2.7e-07	7.3e-05	25.4	1.5	1	23	588	610	588	610	0.98
19	70	0.00016	0.043	16.7	2.6	1	23	616	638	616	638	0.99
20	70	0.062	17	8.5	3.2	2	23	686	706	685	706	0.88
21	70	0.00013	0.035	17.0	0.0	1	23	712	734	712	734	0.97
22	70	0.00023	0.063	16.1	3.0	1	23	740	762	740	762	0.97
23	70	0.00029	0.08	15.8	3.5	1	23	768	790	768	790	0.97
24	70	0.00045	0.12	15.2	0.5	2	23	797	818	796	818	0.95
25	70	0.0022	0.59	13.1	2.7	1	23	824	846	824	846	0.98
26	70	1.9e-05	0.0052	19.5	1.6	1	23	857	879	857	879	0.99
27	70	3e-05	0.008	19.0	0.5	2	23	886	907	885	907	0.96
28	70	1.3e-05	0.0036	20.0	0.5	2	23	914	935	914	935	0.97
29	70	0.00024	0.066	16.1	3.5	1	23	1004	1026	1004	1026	0.98
30	70	0.00014	0.039	16.8	2.9	1	23	1032	1054	1032	1054	0.97
31	70	0.0069	1.9	11.5	3.0	1	23	1061	1084	1061	1084	0.94
32	70	0.0027	0.73	12.8	3.4	1	22	1090	1111	1090	1114	0.90
33	70	2.2e-05	0.006	19.4	1.4	2	23	1121	1142	1120	1142	0.96
34	70	6e-07	0.00016	24.3	0.3	2	23	1149	1170	1148	1170	0.97
35	70	2.9e-05	0.008	19.0	2.0	1	23	1257	1279	1257	1279	0.97
36	70	0.0004	0.11	15.4	3.1	1	23	1285	1307	1285	1307	0.97
37	70	0.0025	0.67	12.9	1.6	1	23	1313	1335	1313	1335	0.98
38	70	0.029	7.9	9.5	5.1	1	23	1341	1363	1341	1363	0.96
39	70	0.0079	2.1	11.3	0.4	1	23	1369	1391	1369	1391	0.95
40	70	0.0024	0.64	13.0	6.1	1	23	1400	1423	1400	1423	0.98
41	70	0.00016	0.044	16.6	0.9	2	23	1432	1453	1431	1453	0.96
42	70	6.4e-07	0.00017	24.2	0.4	2	23	1460	1481	1459	1481	0.97
43	70	9.8e-07	0.00027	23.6	1.8	1	23	1487	1510	1487	1510	0.97
44	70	0.01	2.8	10.9	3.3	2	23	1582	1603	1581	1603	0.97
45	70	5.8e-05	0.016	18.0	2.2	1	23	1609	1631	1609	1631	0.98
46	70	9.3e-05	0.025	17.4	2.2	1	23	1637	1659	1637	1659	0.98
47	70	0.0001	0.027	17.3	2.0	1	23	1665	1687	1665	1687	0.96
48	70	0.0043	1.2	12.1	0.4	1	23	1693	1715	1693	1715	0.95
49	70	0.0013	0.35	13.8	3.9	1	23	1725	1747	1725	1747	0.98
50	70	3.1e-05	0.0084	18.9	0.2	1	23	1755	1777	1755	1777	0.98
51	70	9.7e-05	0.026	17.3	1.4	2	23	1784	1805	1783	1805	0.97
52	70	7.7e-05	0.021	17.6	1.0	1	21	1811	1831	1811	1832	0.95
53	70	5.5e-05	0.015	18.1	1.6	1	23	1898	1920	1898	1920	0.98
54	70	0.0061	1.7	11.7	5.6	1	23	1926	1948	1926	1948	0.98
55	70	0.014	3.8	10.5	3.0	1	23	1954	1976	1954	1976	0.98
56	70	0.00025	0.067	16.1	1.5	2	23	1983	2004	1982	2005	0.94
57	70	0.0087	2.4	11.2	0.7	1	23	2011	2033	2011	2033	0.95
58	70	1e-05	0.0027	20.4	0.2	1	23	2043	2065	2043	2065	0.98
59	70	2e-05	0.0053	19.5	1.9	1	23	2072	2094	2072	2094	0.98
60	70	5.6e-05	0.015	18.1	1.3	1	23	2100	2122	2100	2122	0.98
61	70	0.44	1.2e+02	5.8	0.1	1	16	2128	2143	2128	2145	0.88
62	70	0.024	6.4	9.8	2.0	2	23	2172	2193	2171	2193	0.97
63	70	0.0041	1.1	12.2	2.5	1	23	2199	2221	2199	2221	0.95
64	70	0.0049	1.3	12.0	1.6	1	23	2227	2249	2227	2249	0.98
65	70	0.051	14	8.8	2.9	1	23	2255	2277	2255	2277	0.95
66	70	0.092	25	8.0	0.6	1	23	2283	2305	2283	2305	0.94
67	70	0.00018	0.049	16.5	0.4	2	23	2316	2337	2316	2337	0.96
68	70	7.9e-06	0.0021	20.8	0.3	1	23	2344	2366	2344	2366	0.98
69	70	1.7e-05	0.0047	19.7	2.3	1	23	2372	2394	2372	2394	0.98
70	70	5e-06	0.0014	21.4	1.3	1	23	2400	2422	2400	2422	0.98

Sequence Information

Coding Sequence: ATGAAGCAGAACTCTAAATCTGCTAAGGTGCCCAAAGGGGACCTTAAATCTCTTTCTGGAAGTTTAGCAGTAGAGTTTGGACATTGCGATAAGAATGAGAAACAGTCGTCACCTGGTAGTGATAAAATATCGACATGTTCCATGTGCAAAGAAAGATTCACACGCCCAAGACAGCTGCAGCTGCACATGGGTAAGATGCATAAAAATGCCTGCGAAGTGTGCCACAAAGTGTTTAGTCGGAAACATCAGCTCCACTACCATAGGaagtcacattttaaaaacaagagtTTGATTTGCGATATTTGTGGCTACGCGACTTATCTAAAGCGTTTCTTCGAGTCTCATAGGAGAAGACATTTTGGCGACTACACATTCAAATGTGACCAGTGTACCTCCGGGTTCTTCTCGAATGCGGAACTCTTAGAACACAAGGCGGTCCACACCGGCGTGCGGCCATACCAGTGCGAGTTATGCGGCAAGACCTTCAGTAAGCGCCGTTATCTCTCTACCCACATGCGTTACCACGATAGTAACACATACGTGTGCGACATTTGCGGAAAGTCCATCACTCAGAAGAACTATCTAATAATCCATCTGCGAAGACACATGGGAGACAAACGACACATCTGTGACTTCTGCGGGAAGGCGTTCTGCTCGTCAAACTACCTCAGACTCCACCGCCGCGTTCATACGGGGGAGAAGCCTCACAATTGCTCTTACTGCGGCAAGGGCTTCGCCCAGCGCTCGGCGCTCAACGTTCACATCAGGCACCACACAGGAGAGAGGCCCCACAAGTGCGATACCTGCGGCAAGTGTTTCTCGCAGCGCTCTGCGCTCAATGTCCACGTGAGGCATCACACGGGGGAGAAGCCCTTTGTTTGTGCTCTGTGCAGCCAGAGAGCCTTTCTAGACGATTATACGCGCCTCGGTAGAAATAATAGCATCACAAAGGAAGAGAAGCTAAAAGGGTCAGTGAAAGTGATAAATCTCGCCTCCgaatcaaactttggcaggaaGATTCCTTCAAAGCGAGTCGCCTTGGTAACTTCCAAGTCACGGAAGCAGGAAAGGACGTTCTCATGCACAGGCTGCAGCAAGAAGTTTGTACGGGAACACAAATTGCGCTGCCACATGGACAATGTGCACAACAAGGTTCACAAGTGTACGGTTTGTGGACAGACGTTCGAGAAAGCGCACCAACTGAGCTATCACAGTGTGGTGCACAAAAAATCTAAAACGGAAGTATGTGACATATGTGGCTATACCGCGTATTACAGGTGTGTGATAGAGAATCATAAGAGGACACATTTCTGGGGGAATGAGTTCAGTTGCGACTTGTGCCAGAGAAGCTTTCAGGGCGCGTACGCCCTTATGAAACATAAAGTGGTTCACACCGACGTGAAGCAATACCAGTGTGACCTGTGCGGCCGACTATACGTTCACAAGTGTAACCTGACTGCGCACAGAAAGACCCACGTCTCGGGATACAAACGCCCCACGGACGGTCACCAGTGCGAGGTCTGCGGGAGGAAGTTCTTGGCGAAGAACTCGCTGGTGAAGCACGTGAGGTCTCACGTCGGCCAGAAACGTTGGTACAAGTGCGACGTATGTGGCAAGGACCTGTCGACGCGAGAGTCGCTCCAGGTCCACTGCAGGATCCACACCGGCGAGAAGCCGGAGGTCTGCAACTACTGCGGGAAGACGTTCAGTTCCCGCGTGGGGTTGAAGCTTCACGTTCGCGTTCATACCGGGGAGAAACCGTTCACTTGTAAGGAGTGCGGGAAGAGCTTCACCCAACAGTCGACTCTTATTGTCCACAAGAGACTCCATACGGGACAGCGTCCGTACGAGTGTCTGAAATGTGAAAAGAGGTTCATAACCAAGACAATGATGAACAATCACATGAAGCGTCACACATGTGCAGATTTAATCCAAACAGATTCTGCAAATAAGTTGAAACGCAAGTCAGCTCACAACAGTAAAgagaaaagagtgaaaagtatAGAGAAAATAATCAGAAACAAAAAAAGACTGAGGAGCGATCTTAGCTCCAACAAATGCGACTTTTGTGGTAAAGAGTTCACCCGTCATAAGATGTTGATTCACCGCAGGATCCATACCGGTGAGCGTCCGTTTGTCTGCTCATCGTGCGGGGAGGCGTTTGTGTCGAAAGGTGCCCTGACCGTTCACATGGTGATACACAGCGACAAGCGCCCCTTTTCCTGCAAGATCTGCCACCGAGCTTTCAAGCGGGCGTTCGAGTTGAAAGACCACAACAAAATACACACTGGGGAGAAGAACCACATCTGCGACATCTGCGGCTATTCGTGCATTCAGAGGACTAACCTCGTAAACCACCGCAGGAGACATCTGTTTGAGTACAAGCTGAGTTGTGACATATGCAGCAAAGGGTTCTACACAAAGACAGAACTTCAGGAGCATAGGAACGGCCATACAGGAGAGAAACCATTTCAATGCGACACGTGCGGTGTCTCGTATCGCTATCGGTACCGGCTGACTGTCCACAAGAAGAAACACGAGGCGGGCTACATCCCTCCGGAGAAGGCGTACAAATGTGAGATATGTAACAAGACGTATTCTCGTAAGCAGGTGCTGCTCCTGCACATGAAGTCGCACACCGGGGAAAGTCAGTGCATTTGCGACATCTGCGGCAAGGCGGTTTCAAGCCGGGACTACCTTAAGATACACGTCCGGACGCACACCGGCGAGAAACCCAATGTTTGCGATGTCTGTGGTAAAGCGTTCATTTCGAAAAAGTATCTCAAGATCCATTTCCGCACTCACACGGGTGAGCGCCCGTGTCCGAAAGAAATAGCTCTAAATAATATCGACTCCTCCGACGCCAGCTTTGTTCTTCCCAAAGAGATAAGCGATAAGACAGTCCCGTGTTCTAGTAAAGCTAAGTCTGTGAAAACATTGAAGATTGTTGTAAAGAAAGGACAGTTAGTATATAACCGTGCGACGAAACTATCTTCTTGCGAGCACGTTCATAAATGTAACACATGTGGACGAGGGTTCAAACGTAAAACCACGTTAGACTATCACATAATGTCTCACAGCGACGACCGCAATTTCGACTGTTCCATTTGTAAGAAGAAGTTCAAGCGAGACAAGGACTTGAGGAATCACCTGACGACTCACAACAGGGAACACATGAGGTATTTCTGCGACTCTTGCGACTACGTGTGCAACCGCAAATCCAACCTGGAACTCCACCGCGTTCGAAGACACTCGAAGGAGTTCAGTTTTTTCTGCGACATTTGCGGCAAAGGTTTCTGTTCCGACTCTCAGCTGCGATACCACCGTAATAACAAGTCTCACACGGGTGAGAGTCGGTGCGTGTGCTCGGTGTGCGGCAAGTCGATCTCTAACAAGTACAATCTCAAAGTGCATGTTCAGACACACACACCTGACAAGCAGATCGTGTGTGATGTGTGCGGCAAGACGTTCACACAGATGAGCAATCTCAAGATCCACTATCGCATCCATACAGGTGAACGCCCGTACTCGTGTGAGTCTTCAACTGTAGAGAATATTCTACTACCCCAATCGCCAAAAGAAGAAGATATGTCGGTACAGCAGTTGTcagaagaagaagaggaggaggaggaggaagaagaaaGAGATGAAAATATGATCTTACCACACATGCTCGAGGGCGATAGGGATATGTACTGTGTTGAGTCAATTTTCACTTCCATTGCTAGTCCTAAAGAAAAGAGCGCAACGTCTCGCAAACCCGTGATTCATAAGTGCACAATTTGCGGTAGAGAGTTCAACAGGAAAAATGGTCTAACGAGACACAAGGCAGTGCACAGCGCTATTCGTCCTTACGAGTGCCCTACCTGTGACAAACGGTTCAAGAGAAAATGTGAGCTAGACCTCCACAAAGTGACGCACACCGACGCTAAACAGTATGCCTGTGACATATGCAGCCTGGTGTGCAACCGGAAAGGTAATCTTGACTCGCATCGTAAGAGACATTTCAACGCGTTCACTCATTTCTGTAGCGTGTGCACCAAGGGGTTCTACGACAGTTTCACCATGAAGAGCCACAAGAGGACACACAACAAACTGAAACCCTTCCTTTGTGATCTATGCGGCTGGAAATTCACGACCGGCGCTCAGATGGCGAAACACAAGCTTAAACACGCCCCCGGTTACAAGTCCGAGCTGTTCAGGTGCGACGACTGTGATAAATGTTGTCTGACAAAGTCAAATTTGATGTCGCACGTCAGACGGAGACACGCCGCCGAGGTGGTGCCTCAGTGTATTTGCGACATTTGCGGTAAATCGTTATCCTCTAAGGAGTACCTCGTACTTCACAGACGCATACATACAGGAGAAAAACCACTGTCTTGCGATGTGTGCGGAAAGGCGTTCACTCAAGCCAAGTATCTGAAAGTTCATCAGCGCACCCATACGGGAGAGAGACCATTCTCTTGTAACGTCTGTGAGAAACGTTTTACCCAGCGAAGCAGTTTAAATGCACACATGAAATCATACCATAAGTGCACTAAACTGCTTAACCTAAATTACCGTGCCTTCCACGACGACTGTTTTGTCCCTTCCAAAGAGATAACACCAAAAACAGCCAAGTCTTCCATTGATCATATAAGTTTGGCTCATGTCAAAGAAGAGACCGTTGAGGAACTCACCATAGTTTCACCGTTAAAGTGTGAAACTTATCCGTTGGACCTGTCGCATCCGATTCCCACAAATAAATGTGACATTTGTAACAAAACATATCACAAGAAATCCGATCTCGACTatcataaaataacacacagCGATGTTCGGCCATTCGAGTGCTCCGTTTGTAACAAAAGATTCAAGAGGAAATATGAGGTGACTGTTCACAAGTTAACGCACACCGGTGACCTGAAATACTCCTGCGATATCTGCAACTTTGTGTGTAACCGGAAAGGGAATCTTGAGGCTCATCGCAAGAGACACATGAATGAGTTTGACCATTTCTGTGATATATGCGGTAAAGGATTCTACAACAATTTCAACTTGCAAGGACACAAAAGAGTGCATATCGGGTTGAAACCTTTCCTCTGTGATCTGTGCGGTTTGGGGTTTTCGTACAAAGCGGCCatgaaaaaacataaacttaGTCACAATCCCGGGTACAAGCCTAAACCAAAACACGAGTGCGACATTTGCGGCAAATGTTTCCTGTCAAAGTCGAGGCTATCGGTGCACATTAAGCGGCACTACGGGGAGGAGTCGCCCGGGTTTATTTGCGACTTCTGCGGCAAAGCGGTGTCGTCGAAAGACTCGTTGGTGACCCATCAGCGCATACATACCGGGGAGAAGCCTCTGTCTTGTGATATTTGCGGGAAGGCGTTCAGCCACGTTAAGTATGTTAAAGTTCATCGCAGAACTCATACGGGGGAGCGGCCATATTCTTGCGACGTTTGCCAGAAAACTTTCACCCAACGAAATAGCCTCACTGCACATAAGAAGTCGTTGAaagatatttatcttaattGTGTGAGAAGCTCGGCTGGCTGCTCCCAAGACACAGGGGCTTCTAAATTATCAGTTTCGCAAGAAACAGAGGATGTCGAGGACGTTGTCAAATTTGTATTGATTCCGAGTAAAAGGGGCTCCTCTAAGTTAATATCTATAGATAATGTTGTTTCTGTCAATTCTTGCCAACCTTTCATCTGCGATGTGTGTCATAAAGAGTATGTTTCAATCGACTCTTTACGCAGACACATGAAGAGGCACAGAGAGGAGCGACCCTTCACGTGCAACATATGTAGGAAATGTTTCAAATGCAAGAGTGAGCTGGTCGCCCACCAGACGGTGCACAACGGAAACTTCAAGTTTCGCTGCGAGTTCTGCCGGTACGTGTCGAACCGCAAGACTAACCTAGTGTTACACCGGAAAAGGCATCTGAAGCAGTATTCCCTCAGCTGCGACATATGTAGAAAAGAGTTCTATTCGAAAGGGGATCTGAGGGAACATATCAGCAGACACCACTCTGGTATCAAGCCTTTCCTGTGCGATATCTGCGGTTGGGGGTTCATCAGCCACTACGCCATGTCGCAGCACAAAATGAAACATGCCCCGGACTATAAACCGGCGCACAGGTTCGTGTGCGACTCGTGCGGCAAAGGTTTCATCTCCAGAGGGAACCTGAAGGTGCACATAAAGCAGCACACCGGGGGCTCTCCGGAATACATCTGCGACTTTTGCGGCAAGGTCCTGTCGACTCGGGACTCGCTGAAGCATCACCGGCGAGTGCACACCGGAGAGAAACCTTTTGTTTGTTCGGTGTGCGGCAAAGCTTTCAGCGCTAAGAAATATCTGGACGTTCACCACAGGACACACACGGGGGAGCGACCGTACTCGTGTGAGCTCTGTGGTAAGAGGTCCTCAAATCCCGCTTTTCTGTTAAAATATGCCGATGTCTCTTACCCTGGACTGTCTCAAGAAATACAACTAAAGGACCCGATATTTAGACACACACATTTTTGGAAATGTGATGTGTGCGATAAAGAGTACAGTTGTGAAAGTGCTCTCCAGCAACACAAGAAGCGACACACAGAAGACAGACCGTTTGTGTGCGCAAAGTGTGACAAAAGGTTTAAACGTCGGTGCGAACTCGACGTCCACAACTCTGTTCACAGCGGTGTTTTCAAATACTTTTGTGATCTTTGCAACTATGTTTCAAACCGCAAGGGGAATCTGGATTCTCACCGCAAACGGCATTTCAACAAGTTTACGCACACTTGCGATACTTGTCTGAAAGGGTTTCACTCTAAATCAGCGTTGCAAGAACACAGCGCCAGTCACACCGGCGTGAAACCGTTTCTTTGCGATGTCTGTGGGTGGGGTTTCTTAAACAGATACTCGATGACAAAACACAATATGAAGCACAATCCTTCTTACAAACCAGACTACAAAAACAAATGCGCCGCCTGCGGGAAGGGGTTTGTGTCTCGAGAGAACTTGTCCATGCACATGAAGCGGCACGCGGGCGAATCGCCGGACTACGTGTGCGACATTTGTGGTAAGGTCGTGACGACTCGCCAATCTCTCAAATTGCACCGGCGAATACACACGGGAGAAAAGCCTTATGCTTGTTCGGTGTGTAGTAAGACGTTCAGTGACATTAGCTATCTGAAGGTTCATCACCGGACTCACACGGGCGAGCGGCCGTTCGTTTGTGACTTGTGCGGGAAACGTTTCACCCAGAGGTCCTCTCTTCTTATTCACAAGAAATCTCACCGACTTCACCATTAA
Protein Sequence: MKQNSKSAKVPKGDLKSLSGSLAVEFGHCDKNEKQSSPGSDKISTCSMCKERFTRPRQLQLHMGKMHKNACEVCHKVFSRKHQLHYHRKSHFKNKSLICDICGYATYLKRFFESHRRRHFGDYTFKCDQCTSGFFSNAELLEHKAVHTGVRPYQCELCGKTFSKRRYLSTHMRYHDSNTYVCDICGKSITQKNYLIIHLRRHMGDKRHICDFCGKAFCSSNYLRLHRRVHTGEKPHNCSYCGKGFAQRSALNVHIRHHTGERPHKCDTCGKCFSQRSALNVHVRHHTGEKPFVCALCSQRAFLDDYTRLGRNNSITKEEKLKGSVKVINLASESNFGRKIPSKRVALVTSKSRKQERTFSCTGCSKKFVREHKLRCHMDNVHNKVHKCTVCGQTFEKAHQLSYHSVVHKKSKTEVCDICGYTAYYRCVIENHKRTHFWGNEFSCDLCQRSFQGAYALMKHKVVHTDVKQYQCDLCGRLYVHKCNLTAHRKTHVSGYKRPTDGHQCEVCGRKFLAKNSLVKHVRSHVGQKRWYKCDVCGKDLSTRESLQVHCRIHTGEKPEVCNYCGKTFSSRVGLKLHVRVHTGEKPFTCKECGKSFTQQSTLIVHKRLHTGQRPYECLKCEKRFITKTMMNNHMKRHTCADLIQTDSANKLKRKSAHNSKEKRVKSIEKIIRNKKRLRSDLSSNKCDFCGKEFTRHKMLIHRRIHTGERPFVCSSCGEAFVSKGALTVHMVIHSDKRPFSCKICHRAFKRAFELKDHNKIHTGEKNHICDICGYSCIQRTNLVNHRRRHLFEYKLSCDICSKGFYTKTELQEHRNGHTGEKPFQCDTCGVSYRYRYRLTVHKKKHEAGYIPPEKAYKCEICNKTYSRKQVLLLHMKSHTGESQCICDICGKAVSSRDYLKIHVRTHTGEKPNVCDVCGKAFISKKYLKIHFRTHTGERPCPKEIALNNIDSSDASFVLPKEISDKTVPCSSKAKSVKTLKIVVKKGQLVYNRATKLSSCEHVHKCNTCGRGFKRKTTLDYHIMSHSDDRNFDCSICKKKFKRDKDLRNHLTTHNREHMRYFCDSCDYVCNRKSNLELHRVRRHSKEFSFFCDICGKGFCSDSQLRYHRNNKSHTGESRCVCSVCGKSISNKYNLKVHVQTHTPDKQIVCDVCGKTFTQMSNLKIHYRIHTGERPYSCESSTVENILLPQSPKEEDMSVQQLSEEEEEEEEEEERDENMILPHMLEGDRDMYCVESIFTSIASPKEKSATSRKPVIHKCTICGREFNRKNGLTRHKAVHSAIRPYECPTCDKRFKRKCELDLHKVTHTDAKQYACDICSLVCNRKGNLDSHRKRHFNAFTHFCSVCTKGFYDSFTMKSHKRTHNKLKPFLCDLCGWKFTTGAQMAKHKLKHAPGYKSELFRCDDCDKCCLTKSNLMSHVRRRHAAEVVPQCICDICGKSLSSKEYLVLHRRIHTGEKPLSCDVCGKAFTQAKYLKVHQRTHTGERPFSCNVCEKRFTQRSSLNAHMKSYHKCTKLLNLNYRAFHDDCFVPSKEITPKTAKSSIDHISLAHVKEETVEELTIVSPLKCETYPLDLSHPIPTNKCDICNKTYHKKSDLDYHKITHSDVRPFECSVCNKRFKRKYEVTVHKLTHTGDLKYSCDICNFVCNRKGNLEAHRKRHMNEFDHFCDICGKGFYNNFNLQGHKRVHIGLKPFLCDLCGLGFSYKAAMKKHKLSHNPGYKPKPKHECDICGKCFLSKSRLSVHIKRHYGEESPGFICDFCGKAVSSKDSLVTHQRIHTGEKPLSCDICGKAFSHVKYVKVHRRTHTGERPYSCDVCQKTFTQRNSLTAHKKSLKDIYLNCVRSSAGCSQDTGASKLSVSQETEDVEDVVKFVLIPSKRGSSKLISIDNVVSVNSCQPFICDVCHKEYVSIDSLRRHMKRHREERPFTCNICRKCFKCKSELVAHQTVHNGNFKFRCEFCRYVSNRKTNLVLHRKRHLKQYSLSCDICRKEFYSKGDLREHISRHHSGIKPFLCDICGWGFISHYAMSQHKMKHAPDYKPAHRFVCDSCGKGFISRGNLKVHIKQHTGGSPEYICDFCGKVLSTRDSLKHHRRVHTGEKPFVCSVCGKAFSAKKYLDVHHRTHTGERPYSCELCGKRSSNPAFLLKYADVSYPGLSQEIQLKDPIFRHTHFWKCDVCDKEYSCESALQQHKKRHTEDRPFVCAKCDKRFKRRCELDVHNSVHSGVFKYFCDLCNYVSNRKGNLDSHRKRHFNKFTHTCDTCLKGFHSKSALQEHSASHTGVKPFLCDVCGWGFLNRYSMTKHNMKHNPSYKPDYKNKCAACGKGFVSRENLSMHMKRHAGESPDYVCDICGKVVTTRQSLKLHRRIHTGEKPYACSVCSKTFSDISYLKVHHRTHTGERPFVCDLCGKRFTQRSSLLIHKKSHRLHH*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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