Basic Information

Insect: Geotrupes spiniger
Gene Symbol: -
Assembly: GCA_959613385.1
Location: OY390740.1:4381730-4395006[+]

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 67 0.00022 0.015 16.7 4.6 1 23 14 36 14 36 0.99

2 67 4.9e-06 0.00034 21.9 3.2 1 23 42 65 42 65 0.98

3 67 0.00017 0.012 17.0 4.0 1 23 71 93 71 93 0.98

4 67 0.0017 0.12 13.9 1.2 1 23 99 121 99 121 0.98

5 67 6.7e-06 0.00047 21.5 4.6 1 23 127 149 127 149 0.99

6 67 1e-05 0.00072 20.9 2.9 1 23 155 177 155 177 0.98

7 67 0.00017 0.012 17.1 0.6 1 23 183 205 183 205 0.99

8 67 0.018 1.3 10.7 6.0 1 23 211 233 211 233 0.97

9 67 4.3e-06 0.00031 22.1 3.4 1 23 239 261 239 261 0.99

10 67 0.18 13 7.5 0.7 1 15 267 281 267 284 0.88

11 67 0.0026 0.18 13.3 4.8 1 23 399 421 399 421 0.98

12 67 1.5e-05 0.001 20.4 1.5 1 23 427 449 427 449 0.98

13 67 0.0043 0.3 12.6 0.5 1 23 455 477 455 477 0.99

14 67 0.00018 0.012 17.0 0.6 1 23 483 505 483 505 0.98

15 67 0.0013 0.09 14.3 3.8 1 23 511 533 511 533 0.98

16 67 5.9e-05 0.0042 18.5 3.9 1 23 539 561 539 561 0.99

17 67 0.0052 0.37 12.4 3.8 1 23 567 589 567 589 0.96

18 67 0.0016 0.12 14.0 4.9 1 23 760 782 760 782 0.97

19 67 0.00014 0.0099 17.3 0.4 1 21 788 808 788 809 0.95

20 67 2.8e-05 0.002 19.5 3.5 1 23 816 838 816 838 0.99

21 67 0.00032 0.023 16.2 2.7 1 23 844 866 844 866 0.95

22 67 0.00012 0.0085 17.5 3.9 1 23 872 894 872 894 0.99

23 67 7.3e-06 0.00051 21.4 0.2 1 23 900 922 900 922 0.96

24 67 0.00052 0.037 15.5 5.4 1 23 928 950 928 950 0.98

25 67 1.6e-06 0.00012 23.4 3.6 1 23 956 978 956 978 0.97

26 67 7.9e-05 0.0056 18.1 1.1 1 23 984 1006 984 1006 0.99

27 67 0.00039 0.027 15.9 1.6 1 23 1012 1034 1012 1034 0.98

28 67 1.1e-05 0.00076 20.8 2.7 1 23 1040 1062 1040 1062 0.99

29 67 0.0024 0.17 13.4 4.1 1 23 1068 1090 1068 1090 0.97

30 67 3.9e-05 0.0028 19.1 4.4 1 23 1096 1118 1096 1118 0.98

31 67 0.0012 0.083 14.4 1.7 1 23 1124 1146 1124 1146 0.99

32 67 0.001 0.072 14.6 2.0 1 23 1152 1174 1152 1174 0.98

33 67 0.0052 0.36 12.4 3.7 1 23 1180 1202 1180 1202 0.97

34 67 3e-05 0.0022 19.4 0.6 1 23 1208 1230 1208 1230 0.98

35 67 1.1e-06 7.9e-05 23.9 0.4 1 23 1236 1258 1236 1258 0.99

36 67 0.00045 0.032 15.7 2.0 1 23 1263 1285 1263 1285 0.98

37 67 0.0037 0.26 12.8 2.7 1 23 1291 1313 1291 1313 0.96

38 67 2.2e-05 0.0015 19.9 3.3 2 23 1320 1341 1319 1341 0.97

39 67 0.0014 0.1 14.1 3.8 1 23 1347 1369 1347 1369 0.99

40 67 0.016 1.1 10.9 9.1 1 23 1568 1590 1568 1590 0.98

41 67 0.00049 0.035 15.6 3.3 1 23 1602 1624 1602 1624 0.97

42 67 0.00011 0.0076 17.7 5.4 1 23 1630 1652 1630 1652 0.99

43 67 0.0012 0.087 14.3 0.6 1 23 1658 1680 1658 1680 0.98

44 67 3.7e-06 0.00026 22.3 7.0 1 23 1686 1708 1686 1708 0.98

45 67 0.00013 0.0093 17.4 6.4 1 23 1714 1736 1714 1736 0.98

46 67 0.00018 0.013 17.0 1.6 1 23 1742 1764 1742 1764 0.98

47 67 0.004 0.28 12.7 2.4 1 23 1770 1792 1770 1792 0.98

48 67 6e-06 0.00042 21.6 3.8 1 23 1798 1820 1798 1820 0.98

49 67 0.00033 0.023 16.2 1.9 1 23 1826 1848 1826 1848 0.98

50 67 0.0029 0.2 13.2 1.1 1 23 1854 1876 1854 1876 0.98

51 67 0.00022 0.015 16.7 2.1 1 23 1883 1905 1883 1905 0.97

52 67 0.0017 0.12 13.9 2.9 1 23 1911 1933 1911 1933 0.98

53 67 0.00062 0.043 15.3 0.6 1 23 1939 1961 1939 1961 0.98

54 67 2.2e-05 0.0015 19.8 1.0 1 23 1967 1989 1967 1989 0.99

55 67 9.8e-05 0.0069 17.8 3.3 1 23 1995 2017 1995 2017 0.97

56 67 6.4e-05 0.0045 18.4 3.3 1 23 2158 2180 2158 2180 0.97

57 67 7.6e-05 0.0054 18.1 5.2 1 23 2186 2208 2186 2208 0.98

58 67 0.00022 0.015 16.7 3.7 1 23 2214 2236 2214 2236 0.98

59 67 0.0089 0.63 11.6 4.0 1 23 2249 2271 2249 2271 0.97

60 67 0.00014 0.01 17.3 6.2 1 23 2277 2299 2277 2299 0.98

61 67 0.021 1.5 10.5 9.5 1 23 2305 2327 2305 2327 0.98

62 67 2e-06 0.00014 23.1 1.5 1 23 2333 2355 2333 2355 0.99

63 67 0.00032 0.023 16.2 2.5 1 23 2361 2383 2361 2383 0.98

64 67 3.4e-05 0.0024 19.3 2.8 1 23 2389 2411 2389 2411 0.98

65 67 3.6e-06 0.00025 22.3 1.2 1 23 2417 2439 2417 2439 0.99

66 67 0.0016 0.12 13.9 7.6 1 23 2445 2467 2445 2467 0.99

67 67 5.8e-06 0.00041 21.7 2.0 1 23 2473 2495 2473 2495 0.99

#	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	67	0.00022	0.015	16.7	4.6	1	23	14	36	14	36	0.99
2	67	4.9e-06	0.00034	21.9	3.2	1	23	42	65	42	65	0.98
3	67	0.00017	0.012	17.0	4.0	1	23	71	93	71	93	0.98
4	67	0.0017	0.12	13.9	1.2	1	23	99	121	99	121	0.98
5	67	6.7e-06	0.00047	21.5	4.6	1	23	127	149	127	149	0.99
6	67	1e-05	0.00072	20.9	2.9	1	23	155	177	155	177	0.98
7	67	0.00017	0.012	17.1	0.6	1	23	183	205	183	205	0.99
8	67	0.018	1.3	10.7	6.0	1	23	211	233	211	233	0.97
9	67	4.3e-06	0.00031	22.1	3.4	1	23	239	261	239	261	0.99
10	67	0.18	13	7.5	0.7	1	15	267	281	267	284	0.88
11	67	0.0026	0.18	13.3	4.8	1	23	399	421	399	421	0.98
12	67	1.5e-05	0.001	20.4	1.5	1	23	427	449	427	449	0.98
13	67	0.0043	0.3	12.6	0.5	1	23	455	477	455	477	0.99
14	67	0.00018	0.012	17.0	0.6	1	23	483	505	483	505	0.98
15	67	0.0013	0.09	14.3	3.8	1	23	511	533	511	533	0.98
16	67	5.9e-05	0.0042	18.5	3.9	1	23	539	561	539	561	0.99
17	67	0.0052	0.37	12.4	3.8	1	23	567	589	567	589	0.96
18	67	0.0016	0.12	14.0	4.9	1	23	760	782	760	782	0.97
19	67	0.00014	0.0099	17.3	0.4	1	21	788	808	788	809	0.95
20	67	2.8e-05	0.002	19.5	3.5	1	23	816	838	816	838	0.99
21	67	0.00032	0.023	16.2	2.7	1	23	844	866	844	866	0.95
22	67	0.00012	0.0085	17.5	3.9	1	23	872	894	872	894	0.99
23	67	7.3e-06	0.00051	21.4	0.2	1	23	900	922	900	922	0.96
24	67	0.00052	0.037	15.5	5.4	1	23	928	950	928	950	0.98
25	67	1.6e-06	0.00012	23.4	3.6	1	23	956	978	956	978	0.97
26	67	7.9e-05	0.0056	18.1	1.1	1	23	984	1006	984	1006	0.99
27	67	0.00039	0.027	15.9	1.6	1	23	1012	1034	1012	1034	0.98
28	67	1.1e-05	0.00076	20.8	2.7	1	23	1040	1062	1040	1062	0.99
29	67	0.0024	0.17	13.4	4.1	1	23	1068	1090	1068	1090	0.97
30	67	3.9e-05	0.0028	19.1	4.4	1	23	1096	1118	1096	1118	0.98
31	67	0.0012	0.083	14.4	1.7	1	23	1124	1146	1124	1146	0.99
32	67	0.001	0.072	14.6	2.0	1	23	1152	1174	1152	1174	0.98
33	67	0.0052	0.36	12.4	3.7	1	23	1180	1202	1180	1202	0.97
34	67	3e-05	0.0022	19.4	0.6	1	23	1208	1230	1208	1230	0.98
35	67	1.1e-06	7.9e-05	23.9	0.4	1	23	1236	1258	1236	1258	0.99
36	67	0.00045	0.032	15.7	2.0	1	23	1263	1285	1263	1285	0.98
37	67	0.0037	0.26	12.8	2.7	1	23	1291	1313	1291	1313	0.96
38	67	2.2e-05	0.0015	19.9	3.3	2	23	1320	1341	1319	1341	0.97
39	67	0.0014	0.1	14.1	3.8	1	23	1347	1369	1347	1369	0.99
40	67	0.016	1.1	10.9	9.1	1	23	1568	1590	1568	1590	0.98
41	67	0.00049	0.035	15.6	3.3	1	23	1602	1624	1602	1624	0.97
42	67	0.00011	0.0076	17.7	5.4	1	23	1630	1652	1630	1652	0.99
43	67	0.0012	0.087	14.3	0.6	1	23	1658	1680	1658	1680	0.98
44	67	3.7e-06	0.00026	22.3	7.0	1	23	1686	1708	1686	1708	0.98
45	67	0.00013	0.0093	17.4	6.4	1	23	1714	1736	1714	1736	0.98
46	67	0.00018	0.013	17.0	1.6	1	23	1742	1764	1742	1764	0.98
47	67	0.004	0.28	12.7	2.4	1	23	1770	1792	1770	1792	0.98
48	67	6e-06	0.00042	21.6	3.8	1	23	1798	1820	1798	1820	0.98
49	67	0.00033	0.023	16.2	1.9	1	23	1826	1848	1826	1848	0.98
50	67	0.0029	0.2	13.2	1.1	1	23	1854	1876	1854	1876	0.98
51	67	0.00022	0.015	16.7	2.1	1	23	1883	1905	1883	1905	0.97
52	67	0.0017	0.12	13.9	2.9	1	23	1911	1933	1911	1933	0.98
53	67	0.00062	0.043	15.3	0.6	1	23	1939	1961	1939	1961	0.98
54	67	2.2e-05	0.0015	19.8	1.0	1	23	1967	1989	1967	1989	0.99
55	67	9.8e-05	0.0069	17.8	3.3	1	23	1995	2017	1995	2017	0.97
56	67	6.4e-05	0.0045	18.4	3.3	1	23	2158	2180	2158	2180	0.97
57	67	7.6e-05	0.0054	18.1	5.2	1	23	2186	2208	2186	2208	0.98
58	67	0.00022	0.015	16.7	3.7	1	23	2214	2236	2214	2236	0.98
59	67	0.0089	0.63	11.6	4.0	1	23	2249	2271	2249	2271	0.97
60	67	0.00014	0.01	17.3	6.2	1	23	2277	2299	2277	2299	0.98
61	67	0.021	1.5	10.5	9.5	1	23	2305	2327	2305	2327	0.98
62	67	2e-06	0.00014	23.1	1.5	1	23	2333	2355	2333	2355	0.99
63	67	0.00032	0.023	16.2	2.5	1	23	2361	2383	2361	2383	0.98
64	67	3.4e-05	0.0024	19.3	2.8	1	23	2389	2411	2389	2411	0.98
65	67	3.6e-06	0.00025	22.3	1.2	1	23	2417	2439	2417	2439	0.99
66	67	0.0016	0.12	13.9	7.6	1	23	2445	2467	2445	2467	0.99
67	67	5.8e-06	0.00041	21.7	2.0	1	23	2473	2495	2473	2495	0.99

Sequence Information

Coding Sequence: ATGTTACAGCATGTGGAGCTACACTCGAACGATCAAAAGTACACatgtgaaatttgcaccaaGTGCTTCGCGATGAAACAACACCTATCGCAACACATCAAAATCCACACCAGccaaagaaatttcaaatgtgaaatttgcggcaAGCGCTTTACGACGAAACACTACATGTTGGATCACATGCGAGTGCAACACGCCGGCGAAACAAatcacaaatgcgaaatttgcaacaagtCCTTCAAAACGAAGAGGACGTACGGCGGGCACATGAGGATGCACACCGCCCAACGAAACtacaaatgcgaagtttgcaCTAAATTCTTCCTAACGAAAGGCAATCTATCGAAACACGTCGTGACGCACTCCGGCGAACGAAactacaaatgcgacgtttgcgacaaatgcttcacGACGAAACAAAACATGCTTCGGCACGTCAAAAcacacaccggcgaaagaaactATCAGTGTaaaatttgcgacaaatgcttcacGACGAACCAAAATATGCTGCAACACATTCAGGcgcacaccggagaaagaaattataaatgtgacaTCTGCGCGAAATTATTCATGTCGAAGGGTAACCTGTCGAAGCACATCTCGACGCATACCGGcgcgaaaaatttcaaatgtgaactttgcaacaaatgcttcacgacTAAACATCGGATGTTGGAACACGTGAAAGCACATGGCGgggtgaaaaattataaatgtgaaatttgcgacaaatcGTTCATAACGAAGCATTACATGTTGAAACACATGAAGGTGCACACAGGAAAGACGAATTACCAATGTGATATTTGCGATAAATACTTCACGGTGAAACAGAaTAAAATGAAAACCAATGTAAGTGATTTCAAATTGAGGATCACCGAAGTGAAATCCGAACCAACGGAATTTACATCCTTCATTTCAAAACCACAGTCGCCCTGTGGACAATCTTGTATCACCGAAATTGgccataaaaatgcaaaaaactgtTTGATAAAGGATGAGCCGTTTGCAGAAGAATTTGTAACTACGTCTGAAATAAAACTGGACAATGGTGCGacacaaattatttcaaacatagGAATTGCCCGTAACGATATCAAAATAGAATTGGATCTCGGCGATTCACTCGAAGAAAATTGTGATATTTCCGACGAGTCCTCCGAAGAGAGAGTTATTCGCACACAACCAcacaaatgcgaagtttgcTCGAAATGCTTCGTAACGAATCAAGTTCTGTTGAGACATAAGAGGATACACACCggggaaaaaaatcacaaatgtgaaatttgcgccAAGAGCTTCACGCAAAGTGTAAGTCTGTCGAGACACATGAGCGTGCACGACACACCAAAAAAATATACGTGCGGAATTTGCGCCATGCACTACACGGCGAAGGCGAGTCTATCGAGACACATGAACGTTCACAGTgccgagaaaaaatataaatgtgaaatatgtgCCGCGTCCTTCACGATAAAACAAAATCTTTCGAGGCACATGAAGTTACACTCGGGTGAGAGCAactacaaatgcgacgtttgcaaGAAGTGCTTCACGATGAAGCCTTACATCAGAAGACACGTGAAAATACATTTGggcgaaaaaaattttaaatgtgacaTTTGCACCAAGCGGTTCGTAATGAAGACGCACCTATTgaaacacataaaaatgcaCGCCAACGAAAAATATCATCATTGTGAGGTTTGCCCGCAgcgtttcaaaaataaaagcgTGTTGTTGAAACACGCGAAATCACATCGTGGAGGTGGTAAAAAAGGGGTGAAAAAAAGTCGGTTTATAAAAGAAGAAGGTAATAAGATTGAAGAACAATCGATTGAGGCAGAGATTGACAATGAGAAAATGGAGGCTGACCTAAATGATTCCAAGTGCTCAATCTTTGAAGTAGAACCTGATGAATCAACTTTATTCCCGAAGCCAGAGGAATGCCACAGATATTCTCATGTTGAATGTGATATTACGATAAAGGAAGAAAACTATGAAGATGCTTCTGTACCACCTTTAACGACATTAAATGTTTCAGACTGTTTAATGTCACCCAGCGATGTCAAAATTAAGTTGGATGTCTGCGACGAGAATGATTTGTTGAAGTCTTGCAGGAAGAAAGAGCCAGGTGACGAAGAAGCAATCGACACGgaaggaaaaagaaattacgaatgTAAACGCGTGGAACCACATACTGGAAAAACAAATTACGATTGCAAATCAAATCTATCGATGTACATGAAAATACACACCAGCGAAAAAAATCACAAGTGCGACATATGCACCAAATCCTTCGTTACGAAACACCGTCTCTCAAAACACGTCTCGATACACACCAgcgaaagaaactacaaatgtgaaatttgcgacaaacgcTTCGCAACTAAATACGACACGACGCGGCACGTGAACGGACAGGCCAGCGAACGAAACttcaagtgtgaaatttgcagcaaatgctTCGCGACGAAAACATACCTAACGGTGCACGCCAAGACGCACACCagagaaagaaatttcaaatgcgaaatttgcgacaaacgcTTCACCTCGAAACAGTACATGCTGCACCACTTGGAGGCGCATTCGGGCGAGCGAAAGtacaaatgcgaaatctgcGGCAAACGCTCCACGACGAAGAAATGCCTGTCGGTGCACCTGAAaacgcacaccggcgagagaaatttcaagtgcgaaatttgcgacaagCGCTTCGCAAGGAAAACGAACCTAGCCGTCCACGTGATAGCGCACACCGgcgtaaaaaatcacaaatgtgaaatttgcacgaaatccTTCGTCACGAAACATCGTCTAACAAAGCATGCCTTAACGCACAACGACGAACGAAaccataaatgtgaaatttgcgacaaatcCTTCACGACGAAGTACGAGCTGACGCGACACACGAAAGCTCACACTGACGAACGGAACtttaaatgcgaaatttgcagcAAACGCTTCGTATCAAAAACAAATCTAGATGGCCACGTTAAAACGCACACCgccgaaaaaaattacaaatgcgaaatttgcagcAAGCGCTTCGTGACGAAACAATACATGCTGCAACATCTGAAAGCGCACAACGACGAGCGAgactacaaatgtgaaatttgtaacaaaCGATACACGACGAGAAAATATCTAACGGTGCACGTGAAAACGCACACCGGCGAGCGAAACcacaaatgcgaagtttgcgCCAAGTGCTTCGCGACGAAGCGATACTTGCTGCAACACCTGAAGGCGCACACCGACGAACGAAaccataaatgcaaaatttgcgaCAAACGCTTCAAGAAAAAGACGAATCTCGCGTTGCACGCGAAAACGCACACCGCCGAAAGGaactacaaatgcgaaatttgcgccaAGCGTTTCAAGACGAAACTGTACATGCTGCAGCACTTGAAAGTGCACACCGACGAGCGCaactttaaatgcaaaatttgcgaCAAACGCTTCACGAAGAAAACTATTCTGGGCGTGCACTTGAAGACGCACACCGGCGAGCGAAATTTCAAGTGCAAAATTTGCGACAAGTTCTTCACGACGAAACACATCATGCTGCAGCACTTGAACGTGCACACCGGCGAACGAAACTACGAATGTCAAATTTGCAAGAAATCCTTCGCGAAGAAACCCAATTTAGCGCTGCACGTCAAACGGCACATGGACGAGAGAACTTACGAATGCGACGTTTGCGGCAAACGCTTCGCGACGAAAGAAAACCTCGGGAAACACGTTAAAACGCACGGAGGAAGAAACTACAAGTGCGACGTTTGCAATCGCCGCTTCTCGACGAGACAATATATGTTGAAGCACGTGAAAGCTCACACGGGGAAACCGAATTACGCGTGCgaagtttgcaagaaatgcttcaCGTCGAGGCAATACATGCTGCAACATGTTAAAGCACACGCCGGCGAAAAAAGCTGTAAATGTGACGTTTGCGACAAATACTTCGTCACAAAATCTACTTTAATGGTGCACATGAAAAGACACACAGGAGAAGAAAAGtataagtgtgaaatttgcgacCAACACTTcaggaaaagaaaattgtttttgggGCATATTAAAACTCATCGGGAGGAACGCAGCGAGGTAAAGTCTCATCAGAATTTTCCATGTATTGTACCAACAATTGCAAAAGAAGAGATTGATGATACGCTGATTAAGGAAGAACCTGGTACATTCTTGAAGAAAGACGATGAAATGAAGACCGATCTAATCGATACCAACTGCTCGATCGTCGAAGTAAAACGTGAACCGATAGAATTTCCAACTTTAATCTTAAAACCGCAGTCCTGCCATACACATTCTCCAATTGAAATCGACGAGGAAATTTTACCAAACTTGGGAAATATAAAAGAAGAGGAACTTCCTGCGTTGGGGACCGAAATAAAACACGACACCGTTGGAATCGCACCAAAcgacatcaaaattaaattggatcTCGGCGACGATGAAGATTGGTTGCACGCGTCACGTTCCAACGAAGAACCAAGTCTCCGAAGGTACGAAATAAATCGCCCAATTAAAAGCTGCAAGAGATCATTTTCCACGcaaatcgaattaattaaacgtGCGAAGAAGCGCGACGATCGAAAAAAATCCCGTTCTGCTTATAAAAGCACAGCCGGTCTTTCAAAATATATGACGATAAACGACGACGGAAGACACGAGTGCAAAATTTGCTGCAAGCATTTCAAAAcgagaaataatttattgaaacatatGAAAGTGCACACCGGAGAAAATCGTAGCAAAGgtgagaaaatttacaaatgtgaaacttgCGCGAAGTGCTTCAGGACGAGATATGAACTATCGAAGCACGAAGAAATTCACACCGGCGAGACAAATTACAAGTGCGAaacttgcaacaaatgcttcaaaatGCAACTGTATTTGTTGCGGCACATGAACACCCATAGcggcgaaagaaattacaagtgcgaaatttgcggcaGAGGCTTCTTACAAAGACAAAATATGCTGAACCACATGACGATGCACACCGGCGAAAAAaactacaagtgcgaaatttgcacgaaatgcTTCACCAGAAAAGAACACCTGAACAATCACATGAAACTGCACACCGGCGACAGTAaatacaaatgcgaaatttgcaccAAGTGCTTCACCAGAAAACAACACCTGGCGGACCACGAGAAACGGCACAACGGCGAAAGGAACCACCGATGCGAAACCTGCGACAAATCTTTCGCGACCGAACTGAATTTATCGTGGCACAGGAAAATTCACACCGGCGAAAAAAAGTACAAATGCGAAACCTGCAACAAGTGCTTCCTGAGAAGACAACAGCTGTCGGCGCACGTCATCGTGCACACCGGCGAAAGCAAGTACAACtgcgaaatttgcacgaaatgcTTCACGACGAAACGAAACCTGACAAATCACTTGATGATACACTCCGGCGAGAAAAAACAcgagtgcgaaatttgcgccaGACGTTTCACAAGAAAGGAATACCTATCGGAGCACGTGAAAACTCACCGCAtcgaaaaaaactacaaatgtgaaatttgcgacgAACGCTTCAAAACGAAGCAAGTACAACTGAAACACGTCAAAATACACGCTGGCGGCGACGCGAACCACGAATGCGCGGTCTGTTCGAAATCGTTCGCGAGGAAACAATATCTGTCGTATCACATGAAGATACACGCCGGCGAAAGAAAgcacaagtgcgaaatttgcgcgaGATGCTTCGGCACAAAGTCGGCGCTGTCGAATCACGAGAAAATTCACGCCGGCGTTCGGAACTTCGTGTGCGACATCTGCAAGAAAACCTTCATCCTGAAGCAGAGTCTGGTGTATCACTTAGAAACTCACAacagagaaagaaattacaaatgtgaaacttgCGCGAAAGCCTTCATCACGAAACAGACTCTGACTAatcacatgaaaatacacaccgACGAAAAGAAGCAcgagtgcgaaatttgcaaaaaacgcTTCACAACAAAGGGATATTTGACGAATCACAGCAAGATTCATTACAAACGTGCGACGAAACGTGAGGAAACGCGTACTgaagaagaaattggaaaagGATCGATTAAGGAAGAGGCTACGGTCGTTAAGGAAGAAAAGTTCGAAATCGACGATGATACAATGAAGACCGACGAAATTTATTCCAACTGCAAGAtcgaaataaaacctgaaccgATAGAGTTTCAAATCGAAACCCCAAAAGCGGAGCCTCGCCACAGATATTCATTTGATGAAATTGATGATAACTTTGCAGAACAAGCTTCTACTGTAACGGAAGATAAACATGTTCCTGTTCTTAGCACCGAAGTAAAACTCGACACCGACACTGGAATTCCACCCAATGACATCAAAGTTGAGTTGGATGAAATAATTCAAGGCGACATTTGCGCAAGGACGTCGCAAAGAAACGACActgaaaaaatttataactgtAACGTTTGCACTAAACGCTTCCGAAGAAAAGACGATTTGTCAAGACACGTGCACatacacaccggcgaaagaaatCACCAGTGTAAAATTTGCTCGAAACGCTTCATCAGAAAAGACCACCTAGCGAATCACACGAAAatacacaccggcgaaagaaattataaatgtgacaCTTGTACCAAAAGCTTCAGGAAAAAAGTCGATTTATCGAGACACGTGCACGTTCACACCGAAAGAATAAATTCACACGCCGGTGAACGGAACCACGAATGCGAAATTTGCCGCAAACGCTTCGCGACGAAGCAACACATGCTGGGACACCTGAAATCGCACACCGGCGAACGAAACCACACGTGTGAAATTTGCACCAAACGTTTCAAGAGGAAAGAACACCTTTCGAACCACGTGAAAATGCACGTCGGCGAAAGAAACCACAAATGCGAAACGTGCCACAAACGcttcacaacaaaacaacatttgCTGGGACACTCGAAGACGCACACGGGCGAGAAaaactacaaatgcgaaatttgcacgaaacGGTTCATAAGAAAAGGCCAGCTGTCGAACCATTTAAGGATGCACGTCGGCGAAAGGAACTACGAATGCGAGATGTGCCGCAAGTGCTTCACGACGAACCAGCAACTGGTGGGACATGCGAagacgcacaccggcgaaagaagccacgaatgcgaaatttgcgccaAGCGCTTCACGAGAAAAACGAATTTGTCGGCTCACACGAAGACACACACCGGCGAGAGAAACTACAGGTGCGGGTTTTGCGATAAGCGCTTCGCGCGAAAAGACCAGCTGTCGAATCACATAAAAGTGCACGTCGGCGAAAGAGACTACGAGTGCGAGGTTTGCCACAAATGCTTCACGACGAAGCAACACATGTTGGGGCACTTGAaaacgcacaccggcgaaagaaactacaaatgtggAATTTGCACGAAACGGTTCATAAGAAAAGAGCAGCTATCGAAGCATTTAAAAATGCACGTCGTTGAGATAAATGATGGTAAGAGCTACTCTTTCTTTCTCACTTTCATTTAG
Protein Sequence: MLQHVELHSNDQKYTCEICTKCFAMKQHLSQHIKIHTSQRNFKCEICGKRFTTKHYMLDHMRVQHAGETNHKCEICNKSFKTKRTYGGHMRMHTAQRNYKCEVCTKFFLTKGNLSKHVVTHSGERNYKCDVCDKCFTTKQNMLRHVKTHTGERNYQCKICDKCFTTNQNMLQHIQAHTGERNYKCDICAKLFMSKGNLSKHISTHTGAKNFKCELCNKCFTTKHRMLEHVKAHGGVKNYKCEICDKSFITKHYMLKHMKVHTGKTNYQCDICDKYFTVKQNKMKTNVSDFKLRITEVKSEPTEFTSFISKPQSPCGQSCITEIGHKNAKNCLIKDEPFAEEFVTTSEIKLDNGATQIISNIGIARNDIKIELDLGDSLEENCDISDESSEERVIRTQPHKCEVCSKCFVTNQVLLRHKRIHTGEKNHKCEICAKSFTQSVSLSRHMSVHDTPKKYTCGICAMHYTAKASLSRHMNVHSAEKKYKCEICAASFTIKQNLSRHMKLHSGESNYKCDVCKKCFTMKPYIRRHVKIHLGEKNFKCDICTKRFVMKTHLLKHIKMHANEKYHHCEVCPQRFKNKSVLLKHAKSHRGGGKKGVKKSRFIKEEGNKIEEQSIEAEIDNEKMEADLNDSKCSIFEVEPDESTLFPKPEECHRYSHVECDITIKEENYEDASVPPLTTLNVSDCLMSPSDVKIKLDVCDENDLLKSCRKKEPGDEEAIDTEGKRNYECKRVEPHTGKTNYDCKSNLSMYMKIHTSEKNHKCDICTKSFVTKHRLSKHVSIHTSERNYKCEICDKRFATKYDTTRHVNGQASERNFKCEICSKCFATKTYLTVHAKTHTRERNFKCEICDKRFTSKQYMLHHLEAHSGERKYKCEICGKRSTTKKCLSVHLKTHTGERNFKCEICDKRFARKTNLAVHVIAHTGVKNHKCEICTKSFVTKHRLTKHALTHNDERNHKCEICDKSFTTKYELTRHTKAHTDERNFKCEICSKRFVSKTNLDGHVKTHTAEKNYKCEICSKRFVTKQYMLQHLKAHNDERDYKCEICNKRYTTRKYLTVHVKTHTGERNHKCEVCAKCFATKRYLLQHLKAHTDERNHKCKICDKRFKKKTNLALHAKTHTAERNYKCEICAKRFKTKLYMLQHLKVHTDERNFKCKICDKRFTKKTILGVHLKTHTGERNFKCKICDKFFTTKHIMLQHLNVHTGERNYECQICKKSFAKKPNLALHVKRHMDERTYECDVCGKRFATKENLGKHVKTHGGRNYKCDVCNRRFSTRQYMLKHVKAHTGKPNYACEVCKKCFTSRQYMLQHVKAHAGEKSCKCDVCDKYFVTKSTLMVHMKRHTGEEKYKCEICDQHFRKRKLFLGHIKTHREERSEVKSHQNFPCIVPTIAKEEIDDTLIKEEPGTFLKKDDEMKTDLIDTNCSIVEVKREPIEFPTLILKPQSCHTHSPIEIDEEILPNLGNIKEEELPALGTEIKHDTVGIAPNDIKIKLDLGDDEDWLHASRSNEEPSLRRYEINRPIKSCKRSFSTQIELIKRAKKRDDRKKSRSAYKSTAGLSKYMTINDDGRHECKICCKHFKTRNNLLKHMKVHTGENRSKGEKIYKCETCAKCFRTRYELSKHEEIHTGETNYKCETCNKCFKMQLYLLRHMNTHSGERNYKCEICGRGFLQRQNMLNHMTMHTGEKNYKCEICTKCFTRKEHLNNHMKLHTGDSKYKCEICTKCFTRKQHLADHEKRHNGERNHRCETCDKSFATELNLSWHRKIHTGEKKYKCETCNKCFLRRQQLSAHVIVHTGESKYNCEICTKCFTTKRNLTNHLMIHSGEKKHECEICARRFTRKEYLSEHVKTHRIEKNYKCEICDERFKTKQVQLKHVKIHAGGDANHECAVCSKSFARKQYLSYHMKIHAGERKHKCEICARCFGTKSALSNHEKIHAGVRNFVCDICKKTFILKQSLVYHLETHNRERNYKCETCAKAFITKQTLTNHMKIHTDEKKHECEICKKRFTTKGYLTNHSKIHYKRATKREETRTEEEIGKGSIKEEATVVKEEKFEIDDDTMKTDEIYSNCKIEIKPEPIEFQIETPKAEPRHRYSFDEIDDNFAEQASTVTEDKHVPVLSTEVKLDTDTGIPPNDIKVELDEIIQGDICARTSQRNDTEKIYNCNVCTKRFRRKDDLSRHVHIHTGERNHQCKICSKRFIRKDHLANHTKIHTGERNYKCDTCTKSFRKKVDLSRHVHVHTERINSHAGERNHECEICRKRFATKQHMLGHLKSHTGERNHTCEICTKRFKRKEHLSNHVKMHVGERNHKCETCHKRFTTKQHLLGHSKTHTGEKNYKCEICTKRFIRKGQLSNHLRMHVGERNYECEMCRKCFTTNQQLVGHAKTHTGERSHECEICAKRFTRKTNLSAHTKTHTGERNYRCGFCDKRFARKDQLSNHIKVHVGERDYECEVCHKCFTTKQHMLGHLKTHTGERNYKCGICTKRFIRKEQLSKHLKMHVVEINDGKSYSFFLTFI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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