Basic Information

Insect: Orchestes rusci
Gene Symbol: -
Assembly: GCA_958502075.1
Location: OY293311.1:28558521-28590640[-]

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 61 0.021 3.4 9.9 0.6 3 23 29 50 27 50 0.97

2 61 0.0019 0.31 13.2 6.2 1 23 53 75 53 76 0.94

3 61 0.0033 0.53 12.4 1.1 2 23 85 107 84 107 0.97

4 61 0.0016 0.26 13.4 3.1 2 23 115 137 114 137 0.95

5 61 0.00011 0.018 17.0 4.2 2 23 146 167 146 168 0.96

6 61 0.00019 0.031 16.3 3.9 3 23 176 197 174 197 0.95

7 61 0.0094 1.5 11.0 1.4 1 23 253 276 253 276 0.95

8 61 0.16 26 7.1 0.9 2 20 285 303 284 305 0.93

9 61 0.00035 0.056 15.5 2.2 2 23 312 334 311 334 0.94

10 61 0.12 19 7.6 2.2 1 23 341 364 341 364 0.92

11 61 2e-05 0.0032 19.4 5.0 1 23 371 393 371 393 0.98

12 61 0.00038 0.061 15.4 2.9 2 23 401 423 400 423 0.96

13 61 6.2 1e+03 2.1 0.4 2 23 431 452 430 452 0.94

14 61 0.00061 0.098 14.7 3.6 1 23 459 482 459 482 0.97

15 61 0.5 80 5.6 1.7 2 23 490 512 489 512 0.96

16 61 0.00019 0.031 16.3 1.4 1 23 557 580 557 580 0.97

17 61 0.014 2.3 10.4 1.5 1 23 606 629 606 629 0.96

18 61 0.00026 0.043 15.9 1.7 1 23 637 659 637 659 0.98

19 61 0.00098 0.16 14.1 0.4 2 23 668 690 667 690 0.94

20 61 2.1 3.4e+02 3.6 0.3 2 23 698 719 697 719 0.93

21 61 0.036 5.8 9.2 1.2 1 23 786 809 786 809 0.98

22 61 0.019 3.1 10.0 1.4 2 17 818 833 817 834 0.92

23 61 0.00013 0.02 16.9 0.6 2 23 851 873 851 873 0.97

24 61 7 1.1e+03 2.0 0.5 2 23 925 946 924 946 0.95

25 61 0.016 2.6 10.3 2.3 2 23 1031 1053 1030 1053 0.93

26 61 0.0011 0.17 14.0 0.4 3 23 1062 1083 1060 1083 0.96

27 61 0.00054 0.087 14.9 1.0 1 23 1090 1112 1090 1112 0.98

28 61 0.27 44 6.4 0.9 2 17 1202 1217 1201 1218 0.92

29 61 0.04 6.4 9.0 0.3 2 20 1235 1253 1235 1257 0.93

30 61 0.26 42 6.5 4.9 2 23 1282 1304 1281 1304 0.95

31 61 7.5 1.2e+03 1.9 0.2 2 23 1312 1333 1311 1333 0.93

32 61 0.44 72 5.7 1.3 1 23 1398 1420 1398 1420 0.93

33 61 0.00055 0.089 14.9 5.4 1 23 1429 1451 1429 1451 0.98

34 61 0.062 10 8.4 5.3 2 23 1457 1479 1456 1479 0.93

35 61 1.1 1.7e+02 4.5 0.5 2 23 1487 1508 1486 1508 0.96

36 61 0.004 0.64 12.2 3.3 2 23 1516 1538 1515 1538 0.94

37 61 0.001 0.17 14.0 0.8 2 23 1546 1568 1545 1568 0.97

38 61 9.6e-05 0.016 17.3 4.9 2 23 1631 1653 1631 1653 0.94

39 61 1.7 2.7e+02 3.9 5.9 2 23 1661 1683 1660 1683 0.96

40 61 0.0018 0.3 13.2 0.6 1 23 1690 1713 1690 1713 0.95

41 61 0.0016 0.25 13.4 3.6 1 23 1720 1743 1720 1743 0.96

42 61 3.8e-05 0.0061 18.5 3.6 2 23 1751 1773 1750 1773 0.96

43 61 0.00075 0.12 14.4 1.5 2 23 1781 1803 1780 1803 0.96

44 61 7.2e-06 0.0012 20.8 2.6 1 23 1810 1833 1810 1833 0.98

45 61 0.0032 0.52 12.5 2.2 3 23 1842 1863 1840 1863 0.95

46 61 8.9e-05 0.014 17.4 2.1 1 23 1897 1920 1897 1920 0.97

47 61 0.00013 0.021 16.8 1.9 2 23 1928 1950 1927 1950 0.95

48 61 0.03 4.8 9.4 7.0 1 23 1955 1977 1955 1978 0.95

49 61 0.00093 0.15 14.2 6.5 1 23 1985 2008 1985 2008 0.97

50 61 0.0056 0.9 11.7 3.7 1 23 2016 2038 2016 2038 0.98

51 61 4.7e-07 7.6e-05 24.5 1.5 1 23 2085 2108 2085 2108 0.97

52 61 0.0075 1.2 11.3 3.6 2 23 2116 2138 2115 2138 0.93

53 61 0.024 3.9 9.7 2.4 2 23 2146 2168 2145 2168 0.96

54 61 8 1.3e+03 1.8 4.0 2 23 2176 2198 2175 2198 0.93

55 61 0.051 8.2 8.7 2.5 2 21 2261 2280 2260 2281 0.93

56 61 3.9e-07 6.2e-05 24.8 1.4 2 23 2285 2307 2284 2307 0.96

57 61 4.2 6.7e+02 2.7 3.1 2 23 2315 2338 2314 2338 0.90

58 61 3.6e-06 0.00059 21.7 0.9 2 23 2346 2368 2345 2368 0.94

59 61 0.32 51 6.2 0.8 2 13 2376 2387 2375 2390 0.86

60 61 0.00037 0.06 15.4 0.9 1 23 2465 2488 2465 2488 0.95

61 61 4.9e-06 0.00079 21.3 1.2 2 23 2496 2518 2495 2518 0.96

#	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	61	0.021	3.4	9.9	0.6	3	23	29	50	27	50	0.97
2	61	0.0019	0.31	13.2	6.2	1	23	53	75	53	76	0.94
3	61	0.0033	0.53	12.4	1.1	2	23	85	107	84	107	0.97
4	61	0.0016	0.26	13.4	3.1	2	23	115	137	114	137	0.95
5	61	0.00011	0.018	17.0	4.2	2	23	146	167	146	168	0.96
6	61	0.00019	0.031	16.3	3.9	3	23	176	197	174	197	0.95
7	61	0.0094	1.5	11.0	1.4	1	23	253	276	253	276	0.95
8	61	0.16	26	7.1	0.9	2	20	285	303	284	305	0.93
9	61	0.00035	0.056	15.5	2.2	2	23	312	334	311	334	0.94
10	61	0.12	19	7.6	2.2	1	23	341	364	341	364	0.92
11	61	2e-05	0.0032	19.4	5.0	1	23	371	393	371	393	0.98
12	61	0.00038	0.061	15.4	2.9	2	23	401	423	400	423	0.96
13	61	6.2	1e+03	2.1	0.4	2	23	431	452	430	452	0.94
14	61	0.00061	0.098	14.7	3.6	1	23	459	482	459	482	0.97
15	61	0.5	80	5.6	1.7	2	23	490	512	489	512	0.96
16	61	0.00019	0.031	16.3	1.4	1	23	557	580	557	580	0.97
17	61	0.014	2.3	10.4	1.5	1	23	606	629	606	629	0.96
18	61	0.00026	0.043	15.9	1.7	1	23	637	659	637	659	0.98
19	61	0.00098	0.16	14.1	0.4	2	23	668	690	667	690	0.94
20	61	2.1	3.4e+02	3.6	0.3	2	23	698	719	697	719	0.93
21	61	0.036	5.8	9.2	1.2	1	23	786	809	786	809	0.98
22	61	0.019	3.1	10.0	1.4	2	17	818	833	817	834	0.92
23	61	0.00013	0.02	16.9	0.6	2	23	851	873	851	873	0.97
24	61	7	1.1e+03	2.0	0.5	2	23	925	946	924	946	0.95
25	61	0.016	2.6	10.3	2.3	2	23	1031	1053	1030	1053	0.93
26	61	0.0011	0.17	14.0	0.4	3	23	1062	1083	1060	1083	0.96
27	61	0.00054	0.087	14.9	1.0	1	23	1090	1112	1090	1112	0.98
28	61	0.27	44	6.4	0.9	2	17	1202	1217	1201	1218	0.92
29	61	0.04	6.4	9.0	0.3	2	20	1235	1253	1235	1257	0.93
30	61	0.26	42	6.5	4.9	2	23	1282	1304	1281	1304	0.95
31	61	7.5	1.2e+03	1.9	0.2	2	23	1312	1333	1311	1333	0.93
32	61	0.44	72	5.7	1.3	1	23	1398	1420	1398	1420	0.93
33	61	0.00055	0.089	14.9	5.4	1	23	1429	1451	1429	1451	0.98
34	61	0.062	10	8.4	5.3	2	23	1457	1479	1456	1479	0.93
35	61	1.1	1.7e+02	4.5	0.5	2	23	1487	1508	1486	1508	0.96
36	61	0.004	0.64	12.2	3.3	2	23	1516	1538	1515	1538	0.94
37	61	0.001	0.17	14.0	0.8	2	23	1546	1568	1545	1568	0.97
38	61	9.6e-05	0.016	17.3	4.9	2	23	1631	1653	1631	1653	0.94
39	61	1.7	2.7e+02	3.9	5.9	2	23	1661	1683	1660	1683	0.96
40	61	0.0018	0.3	13.2	0.6	1	23	1690	1713	1690	1713	0.95
41	61	0.0016	0.25	13.4	3.6	1	23	1720	1743	1720	1743	0.96
42	61	3.8e-05	0.0061	18.5	3.6	2	23	1751	1773	1750	1773	0.96
43	61	0.00075	0.12	14.4	1.5	2	23	1781	1803	1780	1803	0.96
44	61	7.2e-06	0.0012	20.8	2.6	1	23	1810	1833	1810	1833	0.98
45	61	0.0032	0.52	12.5	2.2	3	23	1842	1863	1840	1863	0.95
46	61	8.9e-05	0.014	17.4	2.1	1	23	1897	1920	1897	1920	0.97
47	61	0.00013	0.021	16.8	1.9	2	23	1928	1950	1927	1950	0.95
48	61	0.03	4.8	9.4	7.0	1	23	1955	1977	1955	1978	0.95
49	61	0.00093	0.15	14.2	6.5	1	23	1985	2008	1985	2008	0.97
50	61	0.0056	0.9	11.7	3.7	1	23	2016	2038	2016	2038	0.98
51	61	4.7e-07	7.6e-05	24.5	1.5	1	23	2085	2108	2085	2108	0.97
52	61	0.0075	1.2	11.3	3.6	2	23	2116	2138	2115	2138	0.93
53	61	0.024	3.9	9.7	2.4	2	23	2146	2168	2145	2168	0.96
54	61	8	1.3e+03	1.8	4.0	2	23	2176	2198	2175	2198	0.93
55	61	0.051	8.2	8.7	2.5	2	21	2261	2280	2260	2281	0.93
56	61	3.9e-07	6.2e-05	24.8	1.4	2	23	2285	2307	2284	2307	0.96
57	61	4.2	6.7e+02	2.7	3.1	2	23	2315	2338	2314	2338	0.90
58	61	3.6e-06	0.00059	21.7	0.9	2	23	2346	2368	2345	2368	0.94
59	61	0.32	51	6.2	0.8	2	13	2376	2387	2375	2390	0.86
60	61	0.00037	0.06	15.4	0.9	1	23	2465	2488	2465	2488	0.95
61	61	4.9e-06	0.00079	21.3	1.2	2	23	2496	2518	2495	2518	0.96

Sequence Information

Coding Sequence: ATGACTGAACCAGACCCACATCTGATGTATGTTAAAAAAGAATCGCttgacatcaaagaagaaattgaagaaaataaattCGGATGTAATTTGTGCTCCGATTCTTTCACGTTCAAACAGGATTTATCAGACCACATCCGGACAGAACATAACAAATTTGCCTGCTCCCATTGCGACAAAACTTACAAACATAGAAAAAGCTTAGAAGACCATGTCACAGTACATCATTCGATTGTCAACCGTCAAGTGTCAAAGTGTGAATTCTGTGGAAACATTTTCGAACTTCGTTCAACTTTGCAGAGACATTTGAACAAATACCATTCGGGGGTCAAAAAGTTGGTGACGTGTCACTTCTGTGATAAGGCTTTTAATAGTGAGTTTAAGCTGCGCAGACACGTCACCAAGATGCATGCAAAGGACGTCAACCAAGAAAGAAAGTGTAAATATTGTGACAAATCTTTTTCGATTTACGCATATTTGCGAAAACACTTGAAGAGACACCATTGGCTCAAACCAGTGCTGGCGTGTCACGTATGTAATAAATCTTTCCACGGTAAGTATAATCTGCGCAGACACATCACCATGCAGCATACGGATGTTAAAGAGTTTTTGAAATTTCCTATCGTTTTGTTAAAACAAGAACCCTTATTCACTGAGGCAGAAGAAATTTCAAACCTGAAATTTGAGATCAAAGAAGAACCCCTGGGAGATCTGGATGAAGAATGCGTGTCTTCACTGCAAATAACTGACAAAAATTATCATTGCTCTACTTGTGACAGAAGCTTTTTGCAAAAATGGGGTCTATTGCGGCATATTCAAGCCACACACCCTGAAGTAGTGCACAGAGATTGCAAATGTACTATTTGCGAAAAAACGTCCAAATATGAGGATTACATGCGCGCGCATGTCGATCAGGAAAATGACGAGATGACCAAGTGTGACTTATGTGACAAGTTTTTCACGCACAAGCGTTGGCTGGTCAAGCACATTGAGCTGCAGCATGCGCAGCACAAGGAAGTGTACCAGTGTGACTTATGCCTTGAGTCATTCAACTTTAAATTGCACTATGAAAGGCATGTTTATCTGGAACATAGGGAGCGTGAGGAAGCATTCAAGTGTCACTTGTGCAATAGATCTTTCACGCGAGATTACAATTTGCAAAAGCATCTTCAACTACACAATGAGCCACCTGAGATAACTTATTGCGGTTTTTGCGACAAGCACTTTAAGCAAGAGTCAAAGTTGCAAGTGCACATTCAAAAACAACATATGGACACTGATGGTAAATTGAAATGTATGTTTTGTCTGGCACTTTTCGATGATAAAGACGATTGGGATAAACATTTAAAGCAGCACGAGGAGAACAACGAGATTTTCAAGTGTGATGCTTGTGACAAGAGTTTCAAGCATAAACATGGTCTTGCCATTCATAAAAAAGTCATGCACTCAGGAATTGAGCAAAGAGTGAAATGTGATTATTGTAATGTTACTCTGAAGCATAAGATTTATATGAGGCCGCATATGAAGCGAGTTCATCCGGACAAGATCCCGAAAGTTGAGATCAAAGAAGAAACTCTGGATTTGTCTGAAGACAACCAGAAATACGATGCTTTGTTGCAAGGCACTGAAGAAGATCTGGAAGAGCTTTGTGAGCAGTCTGGCATACACCATCGTTGTAAGACTTGTGGAGGAACTTTTTCGCAAAAATGGGGCCTTTTGCAGCATATCCAGACCATGCACGGTGATGCGAAGCGCAGAGATTGCAAGAAGTGTGACAAACACATTGAGCTGGAGCATCCGCTGCCGATGGGAGTGTACCGGTGCGACTTCTGTCCTGAATCGTTCAAGCTCAGGAACCTCTATCGAAGTCATGTCATACGGAAACATGAAAAGCTGAAGGAATGTTCATTCAAGTGTGACTTGTGCGATATATCTTTTAAATATAAGCAAAGTTTGCAAATGCATAGCAAAGTACACTCTGCGCAGCCTATCAGGTGCGTTTACTGCGTTTTTTGCGACAAGCCTTACAAGAATAAGGAAACTTTGCAAATGCACATCAAAGAACAACATATAGACACTAATGGCAAATTGAAATGCATGTTTTGCAGAGAAGTTTTTAATGCTAAAGATGATTGGGACAAGCATGTTGATCAGCATGAGGAGAACAAGGGAGTATTCAAGTGTGATGCGTGTGACAAATTCACAACCATTTTGATAAAACAAGATCCCTTCAATGAAGTAGACGAAGAGGAGATTGAGGAAGAATTCATCAATGATATGGTTGAGAAAAACAAGGAATGCGATGCTTCGTTACAAATCACTATCCATGATCTGGAAGACCAATCTGTCCAAAAATACCAATGTAAGTATTGTGCCAGAATTTTTCCACTGAGAGAGGACGCATTGAGGCATATACACACCAGGCACGCTAATGTGGAACGCAAAGATTGCAAGTGTACCATTTGCGAAAAGACCTTCAAGTATGAGGATAACTTGCGCATCAAGTGTGTGAAATCCTCCAGCCATTTGTTGAATTCGCAGATCAAAAACGTCTGTGACATGTGCTTAAGGTCGTTCAAGAGTCCTAGATACCTTCAAACGCATATTAGGCGGGTACATCAGTCTGTGAAAGTACTCAAATATGGCTCATGCCAAAAGTCTTTCATCAGGCGTGAGCATAGTTTGCAAAGTCATGTCAAGTTGAAACATGCGCAGCCTGATGAGTGTCGAATACACATTAAAAGACAGCATATGGACTCAGATGGCAAATTGAAATGTATGTTTTGTAAGGAACTTTTCAATGCTAAAGATGCCTGGGACAAGCATGTTAAACAACATTTGGAGAAAAAGGAAGTATTCGAGTGTAATGCTTGTAACAAATTCTCTACCGTTTTCCTAAAACAAGAACCATTATTTATTGAAGAAGGGGAAATCCAGAACCCGGAAATTGAGATCAAAAAAGAAACTTCGGATCTGTCTGAAGGCAAAAAGAAATACGATGCCTCGTTGCAAACCACTGAGGAAGAGCCTTTGTCCAAGTATGAGGATGGCTTGCGCCTACATGTCCAGCAGGAAAGGATTGATATGATACACTGTGACTTATGTGACAAACTCTTCAAGCACAAGCGTTGGTTGGACAAACACATTGAGTTGGAGCATTCGGAGCCTAAGGAAGTGTACTGGTGTGACTTATGCCCCAAATCATTCAAGCTTAAGAACAACTATCAAAGTCACATCATGCTGGATCATGAAGATGTCGAGAAAAAATTTAAGTGTGACTTGTGCGATAAGTCTGCCAAAAGTAAGCAAGGTTTGCAAATGCATAGGAAAATACATTATGCGCAGCCTTATAGATTCACAACCATTTTGATAAAACAAGATCCCTTCACTGAAGTAGGTGAAGGAGAGATTGAGGAAGAATTCATCAATGATATGGTTGAGGAAAACAAGAAATGCGATGCATCGTTACAAATCACCATACAAGATCTGGAAGACCTCTATCATCAATCTGGCCAAAGATATTCTTGTAAGTTTTGTGCCAGAATTTTCTTACTAAAAGAGGACGAATTGAGGCATATCCACACCAAGCACCCTAATGATTGCAAGTGTACCATTTGCGAAAAGACCTCCAAGTATGCGGATAACTTGCGCATCAAGTGTGTCAAATCCATCAACCATTTGTTGAATTCGCAGATCAACAACGTCTGTGACATATGCTTCAGGTCGTACAAGAATCCCAGATTCCTTCAAATGCATATTTGGCGGGTACATCAGGTGAAAGTACTCAAATGTGGCTCGCAAAGTCATGTCAAGTTGCATCATGCGCAGCCTAATGAGGTAACCAAGTGCAGTTTTTGCAGCAAATCTTTCAAAACTGAGTTCAATTGTCGAATACACATTGAAAGACAGCATATGGACAAAGATGGCAAATTAAAATGTATGTTTTGTGATGAACTTTTCAATGCTAAAGGTGACTGGGACAAGCATGTTGAACAGCATTTGGAGAAAAAAGAGATATTTGAGTGTAATGCTTGTAACAAGTATTTGATGTCTAGAAAAGAACTTTTCACTGAAGAAATAATCGAAATCCCGGAACTGATAATCAAAGATCAGGAAATTCATCAGGAATACGGTGCTTCGTTGCAAACCACTGACATAGATCTGGAACCCTGCGAGCAGTCTGGCAAAAAATACCAATGTAAATTCTGTAGCAGCAGTTTTCCTCTCAAAGGTCTATTGAAGCATATGCAGTACATCCACGGTACTGTGGCCCATGATCAAGTATTTAAGTGTGTTTTTTGCCATAAATCTTATGATCGTGAACATCTTTTGCAAAGGCATATCAAGATACACTATATACATCCTACCAAGTGTGTTTTTTGCAACAACTCTTTCAAAACTAAGTTCAAGTTGCAAAAACACATTCATGAAAAGCATATGGACACTAATGGCAGATTGAAATGTTTTGTTTGTGAGCAGTTTTTCAATGCTAAAGTTGATTGGGACAAGCACGTCAAACAGCATGAGGAGAACAACGAGATACTGAAGTGTAATGTTTGTGACAAGTATTATAAGTATAGAGACCATCTGAATTACCATAAAAAAGAAGAACACTCAGGAAAAAAGCGAGGAGTGaaatgtgattattgtgaagtgACTTTGAAGTACAAATCTTCTTTGAAAGATCATATAAAGCGAATGCACCCGGACGAAAATGTCAATCGGCATGAGGAGAACAACGGAAAATTCAAGTGTAATTTTTGTGACAAACCAACACCCGCTTCAATGAGACAGGAATCCGACAGCGAATTCGAAGACCCACAAATGTTTCTCAAACAGGACATCAAAGTAGGTGCCCTCATCCTGCCAACCATGGAAACAGGATCTCCAGAATGCACTTTTTGCCATAAATCCTTCTCCTTCAAGTCGAACCTTCGCAGACACGTCCAACAACAACATTCGGAAATAGATGAGTCCCTCAAGTGCCAGTTCTGTGACAAACCTTTCCTCTACAAACATTGTCTGGACAGACACGTCAAACGTCAACACTTGAAAGGCAACGAACGTTTCGAGTGTGTTCTATGCGCATCATCATTCACGCGCAAGGAGAGCCTGCGCAAGCACATTGACTCGCAACATCTGGACTTGAGCGAGAGGTTTAAGTGTGACTTTTGCGACATGTCGTATACGCAGAAGCATACTTTGCGCATGCACGTGGAGCGGCAGCATTTGGACGTAAACGAAGTATTGAAGTGTGAGTTTTGCGAGAAGACGTTTACGCATAAGATGAACCTGCGCGCGCATGTTAGGCGGCAGCATTTGGATAATAGTGGACAAGTCAAGTGTAGCTTTTGTGATAAGATGTTGAAGAATAAGGATGGGTTGTTCAAGCATATCAAGCAGCAACATTTGGAAAGTAATGAGATTTTTAAGTGTGATGTTTGTGAtaagtttttcaagtataaggAGAATTTGATTACTCATAAGAGGATGCAGCACTCGGGGAATAATGAGAGGGTTAATTGTGGGTTCTGCGACATGACATTTAAGCATGAGGTTTATTTGCGGAAACATGTCAGGCAGAAGCATTCAGAATTGGAGCTGAAACAAGAACCAATTGACATTGACGAACCTGATTTAATCCCTATTGACAAACTTGAAGCCCTCTTCAAGAAAAATGATCGGCGATACAAATGTGACTCTTGTGATAAAGAATTCGTGCGTCGATACCATCTGAGTGTACACTGGAAGATTCAACATTCAGCAGAACATGAAAAATTATCCTGCTATTTGTGCAAAAAAACCTTCAACCGTAAAAGCGACTTAAACTTGCACGTTAAATCGCAGCATTTGCAACAGAGATTCCACTGTGAGTTTTGTGGAAAGTCTTTCAAGTACAAACATGTCATGATTTCGCATGTTAAAATACATCACTCGAGTCAGTATGAGAGATTCAAGTGTGACTTTTGTGATAAGGCTTTTGCGCATAAGCATCATTTGAGCTTGCATGTGAGGGAGAAGCATTTTAAAGATGAGTTTGAGAATTTCAAGTGTGAGTTTTGTGATAAGTCGTTTGTTGCGAGGCATCGGTTGAATGCCCATAAAAAGCAGCATGTAACGAGTAAGTTTAAGTGTGAGTTTTGTGAAAGAACgctCTCCATTAACTGTATCAAAGAAGAAGTCATCTTGAACGCTGAAGAAATTGATGATTTAATAGGAGAAGAATTCAAGGACTATGAAGATTTCACCAGGTTTAAATGTGAATTATGTAAAAAGTCTTTCGCGCGCAAAACCAATTTACAAAGACACATCGACACGGTGCATAATGAAAATCCCGATATTTGCATGTGTGTGTTTTGTGATAAGCCCTTCAAACATGAAATCTATTTAACCAAGCATATCAAGGCGCGACATCCAGAAAATGAAATGATCATCAAGTGTTCAACTTGTGGTGAATGTTTCAAGGCTAGGAAAGTTTTCCTTAAACATGTTAGATCATTGCATTCAGATTATCACGAAAAACTTAAATGTGACTATTGTGACTCATATCACAAAACCAAGCATAGCTTGAAAGTCCATGTCAAGGATGAACATGCAGAAATGACCAGAATGTTCaaGCTACTCATTAACTGGATCAAAGAAGAACTAACGATCAAAGATGAAGATATTGAAGAATTGATCCTGGAAGATATCAAGGAAGACGAACCAAGCTACAACGAAATCAACACAAACCTGGCGTTTCACATCAAGATGCAGCATTCGAGTGAAGAAAAAACCTTGAAGTGTGACTTCTGTGACAAGGCTTCCAGCCACAAGTACAACGTGCACAAACACGTCAAAAATCAACAACTCACGTGCAAATGGTGTGATAAACCATTTAAGCGCAAAAGCAACCTGAAGCAACACATCAAAGTGCAGCATTCTGACAACTTCAAAAAAGTAGAATGTCCTCATTTTTGTGACAAAACGTTCaagtgtgaactttacgtgCGCAGGCATATCAAGGCGcaacatttggaaaataatttgaCATTGAATTGTGAGTTTTGTGATAAGGCTTTCACGCGCAAGGATAATTTGCGCACTCACATTAAAGAGCTGCATTCGGAAAATCACGTCAAATTGAAATGTGACTTCTGCGATAAATCGTTCAATCGTAGCCTCTACAAGCTTGAACTCGATTTTCCCGACTTCATCAAGCAAGAGCCATTGGAAATCAAGGAAGAATCCCTGGATAATCAAGGACAGGAATTTTCCATACCATGTCCATTTTGTGGAAAGTTAAATATGAAGCATCACATCACGCTCGATCATTCGAAAACTGATCCTGAAACGTTCAAGTGTGATTTCTGCTATGAAACTTTCATgCAGCAGCAGAATCAACCAAATATTTATAAGTGTGACTTCTGTGATAAGTCTTACTCGCGCAAAGACATTTTGCGCAAACACGTTGATATTGAACATTCGAATAATTTCGTCAGATTAAAATGTGACTTTTGTAACAAAACGTTCACGCGCAAAGGAAATTTGGACGCACACATTAAAAGACTGCATTCGAGTGAACGCCAAATTCAAGTGTGA
Protein Sequence: MTEPDPHLMYVKKESLDIKEEIEENKFGCNLCSDSFTFKQDLSDHIRTEHNKFACSHCDKTYKHRKSLEDHVTVHHSIVNRQVSKCEFCGNIFELRSTLQRHLNKYHSGVKKLVTCHFCDKAFNSEFKLRRHVTKMHAKDVNQERKCKYCDKSFSIYAYLRKHLKRHHWLKPVLACHVCNKSFHGKYNLRRHITMQHTDVKEFLKFPIVLLKQEPLFTEAEEISNLKFEIKEEPLGDLDEECVSSLQITDKNYHCSTCDRSFLQKWGLLRHIQATHPEVVHRDCKCTICEKTSKYEDYMRAHVDQENDEMTKCDLCDKFFTHKRWLVKHIELQHAQHKEVYQCDLCLESFNFKLHYERHVYLEHREREEAFKCHLCNRSFTRDYNLQKHLQLHNEPPEITYCGFCDKHFKQESKLQVHIQKQHMDTDGKLKCMFCLALFDDKDDWDKHLKQHEENNEIFKCDACDKSFKHKHGLAIHKKVMHSGIEQRVKCDYCNVTLKHKIYMRPHMKRVHPDKIPKVEIKEETLDLSEDNQKYDALLQGTEEDLEELCEQSGIHHRCKTCGGTFSQKWGLLQHIQTMHGDAKRRDCKKCDKHIELEHPLPMGVYRCDFCPESFKLRNLYRSHVIRKHEKLKECSFKCDLCDISFKYKQSLQMHSKVHSAQPIRCVYCVFCDKPYKNKETLQMHIKEQHIDTNGKLKCMFCREVFNAKDDWDKHVDQHEENKGVFKCDACDKFTTILIKQDPFNEVDEEEIEEEFINDMVEKNKECDASLQITIHDLEDQSVQKYQCKYCARIFPLREDALRHIHTRHANVERKDCKCTICEKTFKYEDNLRIKCVKSSSHLLNSQIKNVCDMCLRSFKSPRYLQTHIRRVHQSVKVLKYGSCQKSFIRREHSLQSHVKLKHAQPDECRIHIKRQHMDSDGKLKCMFCKELFNAKDAWDKHVKQHLEKKEVFECNACNKFSTVFLKQEPLFIEEGEIQNPEIEIKKETSDLSEGKKKYDASLQTTEEEPLSKYEDGLRLHVQQERIDMIHCDLCDKLFKHKRWLDKHIELEHSEPKEVYWCDLCPKSFKLKNNYQSHIMLDHEDVEKKFKCDLCDKSAKSKQGLQMHRKIHYAQPYRFTTILIKQDPFTEVGEGEIEEEFINDMVEENKKCDASLQITIQDLEDLYHQSGQRYSCKFCARIFLLKEDELRHIHTKHPNDCKCTICEKTSKYADNLRIKCVKSINHLLNSQINNVCDICFRSYKNPRFLQMHIWRVHQVKVLKCGSQSHVKLHHAQPNEVTKCSFCSKSFKTEFNCRIHIERQHMDKDGKLKCMFCDELFNAKGDWDKHVEQHLEKKEIFECNACNKYLMSRKELFTEEIIEIPELIIKDQEIHQEYGASLQTTDIDLEPCEQSGKKYQCKFCSSSFPLKGLLKHMQYIHGTVAHDQVFKCVFCHKSYDREHLLQRHIKIHYIHPTKCVFCNNSFKTKFKLQKHIHEKHMDTNGRLKCFVCEQFFNAKVDWDKHVKQHEENNEILKCNVCDKYYKYRDHLNYHKKEEHSGKKRGVKCDYCEVTLKYKSSLKDHIKRMHPDENVNRHEENNGKFKCNFCDKPTPASMRQESDSEFEDPQMFLKQDIKVGALILPTMETGSPECTFCHKSFSFKSNLRRHVQQQHSEIDESLKCQFCDKPFLYKHCLDRHVKRQHLKGNERFECVLCASSFTRKESLRKHIDSQHLDLSERFKCDFCDMSYTQKHTLRMHVERQHLDVNEVLKCEFCEKTFTHKMNLRAHVRRQHLDNSGQVKCSFCDKMLKNKDGLFKHIKQQHLESNEIFKCDVCDKFFKYKENLITHKRMQHSGNNERVNCGFCDMTFKHEVYLRKHVRQKHSELELKQEPIDIDEPDLIPIDKLEALFKKNDRRYKCDSCDKEFVRRYHLSVHWKIQHSAEHEKLSCYLCKKTFNRKSDLNLHVKSQHLQQRFHCEFCGKSFKYKHVMISHVKIHHSSQYERFKCDFCDKAFAHKHHLSLHVREKHFKDEFENFKCEFCDKSFVARHRLNAHKKQHVTSKFKCEFCERTLSINCIKEEVILNAEEIDDLIGEEFKDYEDFTRFKCELCKKSFARKTNLQRHIDTVHNENPDICMCVFCDKPFKHEIYLTKHIKARHPENEMIIKCSTCGECFKARKVFLKHVRSLHSDYHEKLKCDYCDSYHKTKHSLKVHVKDEHAEMTRMFKLLINWIKEELTIKDEDIEELILEDIKEDEPSYNEINTNLAFHIKMQHSSEEKTLKCDFCDKASSHKYNVHKHVKNQQLTCKWCDKPFKRKSNLKQHIKVQHSDNFKKVECPHFCDKTFKCELYVRRHIKAQHLENNLTLNCEFCDKAFTRKDNLRTHIKELHSENHVKLKCDFCDKSFNRSLYKLELDFPDFIKQEPLEIKEESLDNQGQEFSIPCPFCGKLNMKHHITLDHSKTDPETFKCDFCYETFMQQQNQPNIYKCDFCDKSYSRKDILRKHVDIEHSNNFVRLKCDFCNKTFTRKGNLDAHIKRLHSSERQIQV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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