Basic Information

Insect: Dorcus hopei
Gene Symbol: -
Assembly: GCA_033060865.1
Location: CM065425.1:75892421-75924892[+]

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 73 0.0028 0.31 13.0 6.0 2 23 11 32 10 32 0.96

2 73 0.014 1.5 10.9 0.4 1 23 38 60 38 60 0.97

3 73 0.019 2.1 10.4 6.3 1 23 66 89 66 89 0.95

4 73 1.4 1.6e+02 4.5 3.3 1 23 93 115 93 115 0.97

5 73 0.48 53 6.0 8.9 1 23 121 143 121 143 0.98

6 73 2.2 2.4e+02 4.0 5.6 1 23 149 171 149 171 0.97

7 73 0.046 5.1 9.2 2.0 3 23 179 199 177 199 0.97

8 73 0.012 1.3 11.1 2.4 1 23 228 250 228 250 0.98

9 73 0.021 2.3 10.3 0.4 2 23 279 300 278 300 0.97

10 73 0.038 4.2 9.5 6.3 1 23 306 328 306 328 0.98

11 73 0.014 1.5 10.9 0.3 3 23 336 356 334 356 0.98

12 73 0.0024 0.27 13.3 1.8 1 23 362 384 362 384 0.98

13 73 0.0029 0.32 13.0 2.8 1 23 390 412 390 412 0.97

14 73 2.7 3e+02 3.7 3.1 1 23 418 440 418 440 0.96

15 73 0.059 6.5 8.9 7.3 1 23 446 468 446 468 0.98

16 73 0.00017 0.019 16.9 2.9 1 23 474 496 474 496 0.98

17 73 0.43 47 6.2 1.8 1 23 502 524 502 524 0.97

18 73 0.17 18 7.5 1.0 1 23 558 580 558 580 0.97

19 73 0.046 5.1 9.2 2.4 1 21 586 606 586 607 0.94

20 73 0.0012 0.13 14.2 3.0 1 23 633 655 633 655 0.98

21 73 0.55 61 5.9 2.4 2 23 662 683 661 683 0.96

22 73 0.002 0.22 13.5 3.4 1 23 689 711 689 711 0.97

23 73 0.064 7.1 8.8 4.0 1 23 717 739 717 739 0.97

24 73 0.099 11 8.2 2.3 1 23 745 767 745 767 0.97

25 73 0.00029 0.032 16.1 3.6 1 23 773 795 773 795 0.98

26 73 6 6.7e+02 2.6 3.7 1 23 801 823 801 823 0.97

27 73 0.36 40 6.4 2.5 2 23 830 851 829 851 0.96

28 73 0.81 90 5.3 5.3 2 23 858 879 857 879 0.97

29 73 0.0069 0.76 11.8 1.7 1 23 885 907 885 907 0.98

30 73 0.52 57 5.9 4.8 1 21 913 933 913 934 0.93

31 73 0.00021 0.023 16.6 1.4 2 23 969 990 968 990 0.97

32 73 0.00011 0.013 17.4 1.9 2 23 997 1018 996 1018 0.97

33 73 0.00095 0.11 14.5 4.7 1 23 1024 1046 1024 1046 0.99

34 73 0.005 0.56 12.3 7.2 1 23 1052 1074 1052 1074 0.98

35 73 0.00047 0.052 15.5 0.9 3 23 1082 1102 1080 1102 0.98

36 73 0.00086 0.096 14.7 1.2 1 23 1108 1130 1108 1130 0.98

37 73 0.16 18 7.5 1.9 1 23 1136 1158 1136 1158 0.98

38 73 0.002 0.22 13.5 1.7 2 23 1205 1226 1204 1226 0.97

39 73 0.026 2.9 10.0 5.9 1 23 1232 1254 1232 1254 0.97

40 73 0.00017 0.019 16.9 3.1 1 23 1260 1282 1260 1282 0.98

41 73 0.0015 0.16 13.9 5.2 1 23 1288 1310 1288 1310 0.98

42 73 0.097 11 8.2 2.8 1 23 1316 1338 1316 1338 0.96

43 73 0.0077 0.85 11.7 0.9 2 23 1359 1380 1358 1380 0.97

44 73 0.0056 0.62 12.1 6.2 1 23 1386 1408 1386 1408 0.98

45 73 0.0051 0.56 12.2 4.5 1 23 1414 1436 1414 1436 0.97

46 73 0.00046 0.051 15.5 6.8 1 23 1442 1464 1442 1464 0.98

47 73 0.19 21 7.3 3.8 1 23 1470 1492 1470 1492 0.96

48 73 0.0025 0.27 13.2 1.2 1 23 1548 1570 1548 1570 0.98

49 73 2.3e-05 0.0025 19.6 3.7 2 23 1577 1598 1576 1598 0.97

50 73 0.00071 0.078 14.9 3.5 1 23 1604 1626 1604 1626 0.98

51 73 0.0086 0.95 11.5 4.6 1 23 1632 1654 1632 1654 0.97

52 73 0.051 5.6 9.1 0.5 1 21 1660 1680 1660 1681 0.94

53 73 0.002 0.22 13.5 0.5 1 23 1688 1710 1688 1710 0.98

54 73 0.32 35 6.6 1.6 2 23 1717 1738 1716 1738 0.96

55 73 0.0057 0.63 12.1 6.5 1 23 1744 1766 1744 1766 0.98

56 73 0.0014 0.16 14.0 5.9 2 23 1773 1794 1772 1794 0.96

57 73 0.0021 0.23 13.5 5.8 2 23 1801 1822 1800 1822 0.96

58 73 0.33 36 6.6 6.4 2 23 1829 1850 1828 1850 0.96

59 73 1.8 2e+02 4.2 4.0 1 23 1856 1878 1856 1878 0.96

60 73 0.01 1.1 11.3 0.1 2 23 1920 1941 1919 1941 0.97

61 73 7.1e-05 0.0078 18.1 0.5 1 23 1947 1969 1947 1969 0.98

62 73 0.0012 0.13 14.3 7.7 1 23 1975 1997 1975 1997 0.98

63 73 0.0032 0.36 12.9 3.7 1 23 2003 2025 2003 2025 0.98

64 73 0.0072 0.8 11.8 3.4 1 23 2031 2053 2031 2053 0.97

65 73 0.017 1.9 10.6 1.6 1 23 2059 2081 2059 2081 0.97

66 73 0.00021 0.024 16.6 2.9 1 23 2087 2109 2087 2109 0.98

67 73 1.9e-05 0.0021 19.9 1.9 1 23 2115 2137 2115 2137 0.99

68 73 0.0019 0.21 13.6 2.0 1 23 2143 2165 2143 2165 0.97

69 73 7.3e-06 0.00081 21.2 1.4 1 23 2171 2193 2171 2193 0.99

70 73 0.1 11 8.2 2.4 1 23 2199 2221 2199 2221 0.97

71 73 0.0049 0.54 12.3 0.7 1 23 2227 2249 2227 2249 0.97

72 73 0.00024 0.027 16.4 0.5 1 23 2255 2277 2255 2277 0.97

73 73 0.095 10 8.3 1.7 1 23 2283 2305 2283 2305 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	73	0.0028	0.31	13.0	6.0	2	23	11	32	10	32	0.96
2	73	0.014	1.5	10.9	0.4	1	23	38	60	38	60	0.97
3	73	0.019	2.1	10.4	6.3	1	23	66	89	66	89	0.95
4	73	1.4	1.6e+02	4.5	3.3	1	23	93	115	93	115	0.97
5	73	0.48	53	6.0	8.9	1	23	121	143	121	143	0.98
6	73	2.2	2.4e+02	4.0	5.6	1	23	149	171	149	171	0.97
7	73	0.046	5.1	9.2	2.0	3	23	179	199	177	199	0.97
8	73	0.012	1.3	11.1	2.4	1	23	228	250	228	250	0.98
9	73	0.021	2.3	10.3	0.4	2	23	279	300	278	300	0.97
10	73	0.038	4.2	9.5	6.3	1	23	306	328	306	328	0.98
11	73	0.014	1.5	10.9	0.3	3	23	336	356	334	356	0.98
12	73	0.0024	0.27	13.3	1.8	1	23	362	384	362	384	0.98
13	73	0.0029	0.32	13.0	2.8	1	23	390	412	390	412	0.97
14	73	2.7	3e+02	3.7	3.1	1	23	418	440	418	440	0.96
15	73	0.059	6.5	8.9	7.3	1	23	446	468	446	468	0.98
16	73	0.00017	0.019	16.9	2.9	1	23	474	496	474	496	0.98
17	73	0.43	47	6.2	1.8	1	23	502	524	502	524	0.97
18	73	0.17	18	7.5	1.0	1	23	558	580	558	580	0.97
19	73	0.046	5.1	9.2	2.4	1	21	586	606	586	607	0.94
20	73	0.0012	0.13	14.2	3.0	1	23	633	655	633	655	0.98
21	73	0.55	61	5.9	2.4	2	23	662	683	661	683	0.96
22	73	0.002	0.22	13.5	3.4	1	23	689	711	689	711	0.97
23	73	0.064	7.1	8.8	4.0	1	23	717	739	717	739	0.97
24	73	0.099	11	8.2	2.3	1	23	745	767	745	767	0.97
25	73	0.00029	0.032	16.1	3.6	1	23	773	795	773	795	0.98
26	73	6	6.7e+02	2.6	3.7	1	23	801	823	801	823	0.97
27	73	0.36	40	6.4	2.5	2	23	830	851	829	851	0.96
28	73	0.81	90	5.3	5.3	2	23	858	879	857	879	0.97
29	73	0.0069	0.76	11.8	1.7	1	23	885	907	885	907	0.98
30	73	0.52	57	5.9	4.8	1	21	913	933	913	934	0.93
31	73	0.00021	0.023	16.6	1.4	2	23	969	990	968	990	0.97
32	73	0.00011	0.013	17.4	1.9	2	23	997	1018	996	1018	0.97
33	73	0.00095	0.11	14.5	4.7	1	23	1024	1046	1024	1046	0.99
34	73	0.005	0.56	12.3	7.2	1	23	1052	1074	1052	1074	0.98
35	73	0.00047	0.052	15.5	0.9	3	23	1082	1102	1080	1102	0.98
36	73	0.00086	0.096	14.7	1.2	1	23	1108	1130	1108	1130	0.98
37	73	0.16	18	7.5	1.9	1	23	1136	1158	1136	1158	0.98
38	73	0.002	0.22	13.5	1.7	2	23	1205	1226	1204	1226	0.97
39	73	0.026	2.9	10.0	5.9	1	23	1232	1254	1232	1254	0.97
40	73	0.00017	0.019	16.9	3.1	1	23	1260	1282	1260	1282	0.98
41	73	0.0015	0.16	13.9	5.2	1	23	1288	1310	1288	1310	0.98
42	73	0.097	11	8.2	2.8	1	23	1316	1338	1316	1338	0.96
43	73	0.0077	0.85	11.7	0.9	2	23	1359	1380	1358	1380	0.97
44	73	0.0056	0.62	12.1	6.2	1	23	1386	1408	1386	1408	0.98
45	73	0.0051	0.56	12.2	4.5	1	23	1414	1436	1414	1436	0.97
46	73	0.00046	0.051	15.5	6.8	1	23	1442	1464	1442	1464	0.98
47	73	0.19	21	7.3	3.8	1	23	1470	1492	1470	1492	0.96
48	73	0.0025	0.27	13.2	1.2	1	23	1548	1570	1548	1570	0.98
49	73	2.3e-05	0.0025	19.6	3.7	2	23	1577	1598	1576	1598	0.97
50	73	0.00071	0.078	14.9	3.5	1	23	1604	1626	1604	1626	0.98
51	73	0.0086	0.95	11.5	4.6	1	23	1632	1654	1632	1654	0.97
52	73	0.051	5.6	9.1	0.5	1	21	1660	1680	1660	1681	0.94
53	73	0.002	0.22	13.5	0.5	1	23	1688	1710	1688	1710	0.98
54	73	0.32	35	6.6	1.6	2	23	1717	1738	1716	1738	0.96
55	73	0.0057	0.63	12.1	6.5	1	23	1744	1766	1744	1766	0.98
56	73	0.0014	0.16	14.0	5.9	2	23	1773	1794	1772	1794	0.96
57	73	0.0021	0.23	13.5	5.8	2	23	1801	1822	1800	1822	0.96
58	73	0.33	36	6.6	6.4	2	23	1829	1850	1828	1850	0.96
59	73	1.8	2e+02	4.2	4.0	1	23	1856	1878	1856	1878	0.96
60	73	0.01	1.1	11.3	0.1	2	23	1920	1941	1919	1941	0.97
61	73	7.1e-05	0.0078	18.1	0.5	1	23	1947	1969	1947	1969	0.98
62	73	0.0012	0.13	14.3	7.7	1	23	1975	1997	1975	1997	0.98
63	73	0.0032	0.36	12.9	3.7	1	23	2003	2025	2003	2025	0.98
64	73	0.0072	0.8	11.8	3.4	1	23	2031	2053	2031	2053	0.97
65	73	0.017	1.9	10.6	1.6	1	23	2059	2081	2059	2081	0.97
66	73	0.00021	0.024	16.6	2.9	1	23	2087	2109	2087	2109	0.98
67	73	1.9e-05	0.0021	19.9	1.9	1	23	2115	2137	2115	2137	0.99
68	73	0.0019	0.21	13.6	2.0	1	23	2143	2165	2143	2165	0.97
69	73	7.3e-06	0.00081	21.2	1.4	1	23	2171	2193	2171	2193	0.99
70	73	0.1	11	8.2	2.4	1	23	2199	2221	2199	2221	0.97
71	73	0.0049	0.54	12.3	0.7	1	23	2227	2249	2227	2249	0.97
72	73	0.00024	0.027	16.4	0.5	1	23	2255	2277	2255	2277	0.97
73	73	0.095	10	8.3	1.7	1	23	2283	2305	2283	2305	0.95

Sequence Information

Coding Sequence: ATGATcaaacacaccgacgagaagtcGCTCAAGTGCGAGCTCTGCGATTACACGTGTAAACGGCCCCAtaatttgaagcagcacaaattaaaacacaccggcgagaagccgttcagttgcgatatTTGCGGATACAGAAGTGGAAAGAAAGAAGTTTTGAAACGACACACGTTAGTACACCTCCAGGAGATGCCCTTCAGCTGTGAactctgcgattacaaatgccgacgaCTTGAACACCTGAAGCGACACAAGATGTTGAAACACGCACGGCGTTTCAGTTGTGGGTACTGTGGGCACAAATGTCAGGAATTGGGAGATTTCGAGCTGCACAAATTGACGCATCGCGGAGAGAATCCGTTTCAATGTGACGTTTGCAGTTACAAGTGTCGCTTTAAAAAGGACTTCAGGCATCATTTGTATACGCACGCGGGCAAGAAGCTGTTTTGCTGTGAcgtttgcgattacaagtgcctGAGGAACGCGACTTTGAAGTCGCACAAGTTAACACACAgtggcgagaagccgttcggttgtgacctttgcgattacaaatgccgagtTAAACAGTACTTAGTAAGACACATATCCAGGCATAAGGGCCGGAAGCTGTTTTGCTGCGACCTCTGCGATTACAGACGCAAATGGATTTCCGAATCTGAGACTGTGAAGGAAAGAACATTCGAATGTCGTGAATGTGGCTCTAAATGTAACACCCAGCGTCGTTTAGAAGAGCACATGCTGACACATAGCGACGAAAAGCCACTTATCGAATGTAACACCCAAGGGCGTATAGAAGAGCACATACTGACACATCCCGACGAAAAGCCACTTAGATGCGTCGTCTGCGATTATATATGTCGAAACTCCACAGATCTGGAAGGGCACGTGCTAACGCACACCGACGAAAGGCCGTTTCGCTGCACCGTTTGCAATTACAAAAGCCGACTTAAAAAACATCTGAGGCAACACATGTACAGACACAGGGCCGAGAAGCGATTTGGTTGTAAGATTTGCGATCTCAAATTCCTAGACAGTGCGAACCTGAAACAGCACGCGTTaacacacaccggcgagaaaccgttcagttgcgacctttgcgattacaagtgtgGACGAGCCGCCAACTTGAAACAACATAGATTATCACACAGCGACGAGAAGCCCTTTGCCTgcgatctttgtgattataaatgccggcgaGCCGCACACTTGAAAGACCACAGATTGGTACACACCCGCGAGATGCCTTTTGCTTGCGACCTTTGCGACTACAAGTGTCAACAAAGAAGATCTTGGATGCTGCATAAGTTGAAACACGGCGAAGATAAGCCGTTTTGTTGTAAGATTTGCAAGAACAAATACGCACACAAGCGAAGCTTGAAACAGCACTTATTAACGCACACCGGCGAAAAACCGtacagttgcgatctttgcgactaCAAATGCATAACGTCCGGAAATTTGAAGCGACACAGGCTAACGCAtgccggcgagaaaccgttcgcttgcgatctttgtgattacaaaAGCGCAGAGAAAAGATGTTTGGAGTCGCATAAGTTAACACACACCGGCGACAAACCGTTTTGTTGTAGGATTTGCAGTTTCAAATGTCTACACAAAAGAACTCTGAAACAGCACGTAATAAGACACAGTGGCGAGAAACCCTTcgcttgtgatctttgcgactacAAATGCGAACTAGCCGAAAAATTGAAGTCACACAGattaatacacaccgacgagaagcctttTGCTTGCGATTtgtgtgattataaatgccgacgggCCGGAAGCTTGAAAGATCACCTATGCCAACTGTTGTCCAATGCCAAATCAAGAACGTTCGAATGCCCTGAACTCAAAACTCAAGGACTCACTAACGACAAGTTGTTCAGATGCGTCGTTTGCAATTACGAATGTCAACATCCCGCGCAATTACAGCggcacatgttaacgcacaccGAGGAGAAGCGGCTCAAGTGTCGCCTTTGCGATTACCAGTGCGAACAACTCCAACTTTTAAAGCAGCATACGTCAATacataccgacgagaagccgtttgCTTGCAGCCTTTGTAATTACAGGTGTCGACGAGACGAATACTTGAATCggcacatgttaacgcacacgCAAGAAAAGTCGTTCAACTGCGGTCTCTGCAAATACAAGTGCCGACTGCTTGGGAGCTTGAAGCGGCACATGTCGAAACACTccggcgagaagccgtacaGCTGCGCCGCCTGCGATTACAAATCTCGTTGTCCCGCCAACTTGAAGCGCCACATGAAGAAGCACagcgacgagaaaccgttccgTTGCgccctttgcgattacaaatgtaaACGATCTGAGCTGTTGAAGCGACACATGTTATCGCACACCAACAAGAAGCTGTTCGCTTGCGGcttttgcgattacaaatgccagGAACGTGAAACTTTCAAGCTGCACAAATTAACGCACGCTAGCGAGAAGCTGCTTAAGTGTGACACCTGCGAATACAAAAGTCGATTTAAAAACGACCTGAGGGAACATAAGTACACGCACACGGGCGAGAAACCGATTCgctgtgacctttgcgattacaaatgccggcACGGCAAATCACTGAGGCTGCACAGGTTGAAGCACACGGGCGAGTTGCCGTTTAGTTGCGagctttgcgattacaagtgcggCCAAGTCGGACAGTTGAAATCGCacatgttaaagcacaccggcgagaagcctttCGCTTGCGATCTTTGCAGTTTTAAGTGCCGGCAGTCCGGTAACTTGAAGCAACACAGATGCCAACAGGCTTCCAAATTCGAAACCGTAGAAGAAGAAcgtcataaaattaaaactgaaggaTATTTAAAAACGCATCAATTAACACACACCGACGAGGAGCCGGTCAAGTGTACCGTTTGCAATTACAAGTTTCAGCGAGCCGGCTTCCTGAAGCGGCACATGTTAAGACACGCCCGCGAAACCTCGCTCGAGTGTGATCTCTGCGCTTACAAATTTAAAACAGCGCAACACTTGCGGCGGCATATGTTGACGCACACCGATGAGAAGCCGTTCCGCTGCAATTTCTGCGATTACAGGTGCCGACTGTCCGAAAATTTAAAGAGCcacatgttaacgcacaccGACGACAGGCCGTTCTCCTGCgatctctgcgattacaaatgcaagCGGCGGCGTTATTTAAAGCGGCACATGTtcaagcacaccggcgagaaacagTTCGGTTGTACTTTTTGCGATCGCAAGTTTCGCTACGCCGACAGTTTGAGGCTTCACGTGATGACGCACACGGGCGAATTGCTTTTTCGCTGTGCCGTTTGCGACTACAAATGTGGACGATCCGGATTATTGGAGCAGCACATGTCgacacacaccgacgagaagttGTTTCGTTGCGGCTTTTGCGGTCACAGATGTCAGGACGGTGGAGATCTTGAAGCGCACAAATTAACGCACGTCGAGAAGACCTTCACATGCCAATGGACTTCTAAATCAAACGCTGTAAACAACAGAACACTCAAGTTtggttttaaattgaaaactgaAGACCGTTCAGAAGAGCACGAGCTGAAACACACCGACGAGGAGCCACTTAGGTGCGTCGTCTGCGACTACAAATGTCGAACGCCCAAGGATCTGAAAACACACGTGCTAACGCACACCGACGATAAACCCTTTCACTGCGCGACTTGCGATTACAAAGCTCGAAGTAAAAGTCACTTGACGCAACACATGTACAGACACACGGGCGAGAAGCGGTTCCGTTGCAGcatttgcgattacaaatgcatAGACAGTAGGAACTTGAAGCAGCACCTATtaacgcacaccggcgagaaaccgtacagttgtgatctttgcgatcaCAAGTGCACACAAGCCGAAAATTTGAAGCGACACAGGTTGAAACATACCGGTGAGAAGCCCTTCGCTTGCGATCTTTGTGATTACCGGTGTCGGGAGAAGAAAGCTTTGCAGCTGCATAAGTCAAGACACGCTGACGATAAATCGTTTTGCTTTGAGCACGTGCtgatacacaccgacgagaagccgctTAGGTGCGTCGTCTGCGACTATAAATGTCGAATGCCCAAAGATCTGAAAGCACATGTGCTAACGCACACCGACGAGAGGCCCTTTCACTGCGACACTTGCGATTACAAAGCTCGAAGTAAAAGTCACTTGACGCAACATATGTACACGCACACGGGCGAGAAGCGGTTCCGTTGCAGTATTTGCGACTACAAGTGCATATACAGGAAGAACTTGAAGCAGCATCTATttatacacaccggcgagaaaccatACAGTTGTCATCTTTGCGATCACAAGTGCAGACAAGCCGAAAATTTGAAGCGACACATTTTAACACATGGCGCCGGGAAACGTTTTGCTTGCgatctctgcgattacaaatgtcgacaGTACAGATCTCTGAAGCTGCACAGCTTAAAACACGCCGGGGAGTTACCGgcCGGATACTTGAAACAGCACAGGTTAACACACATCGGTGAGAAGCCGTTGgcttgcgatctttgcgattacaaatgctgGAAGCGCAAGGGTTTGAATCGGCACAGATACCGGTGGACTTTTAAAGCCGAAACCGCAGAGGAAAAGCCATTCGAATGTCACGTGTGTGGCTCAAAATATAAAGCCGAAGGATACTTAATAAGGCACATGTCGAAACACGCCCAGAACGTCTTGCTCAAGTGTGAACTCTGCgattacaaatttaaaacgcTGCAGCACCTAAGGCGGCACATGTTgacgcacaccgacgagaagccgttctcCTGCAACctctgcgattacaagtgccgacTGTCCGAGAATTTAAAGAGCCACATGTTGACGCACACCGAGGAGAGGCCGTTCGCCTGCGATCTCTGCGGTTACAAGTGCAAGAGAGAGCGCTacttgaaacggcacaagttgaAGCACGCCGACGGGAAACAGTTCAGTTGTAGTTCCTGCGATGGCAGGTTCCGATACGCCGACAGCTTGAGGCTACATAGGATGAGGGAAGCCTGCGAGCTGCTTTTTCGTTGTGCcgtttgcgattacaaatgtggACGATCCGGACTGTTAGCGCAGCACATGTTGATACACACCGATAAGAAACCGTTAatttgcgatctttgcgattacaagtgccggGACGATGCAGATTTTAAGCTGCACAAATCAACGCATGcgggcgagaagccgtttaaaTGCGAGTATTGCGAGTACAAGTGCCGAACTAGGTTTAACTTGAAGCAACACGTGTACACgcacacgggcgagaagccgCTTTGTTGCAGtatttgcgattacaagtgccgaACTCGAGGtaatttgaagcagcacatgTATACgcacacgggcgagaagccgCTCTGCTGCAgcgtttgcgattataaatgccgaagcaagggtaatttgaaacaacacatgTACACGCACACGGGGGAGAAGCCGCTTTGCTGTGatatttgcgattacaagtgccggACGAACAAGTTTATGAAACTGCACATGTTGAAGCACACGGACCAGATGCAATTTTGCTGTGATCTTTGCAATTACAAGTGCGAGCAGGTCGGACTTTTAAGAGAACACAGGCTGCAACACACCAGCGAGAAGCGCTTTgcttgcgatctttgcgattataagtgccgactTTCCGTGAGGTTGAAGCAACACAGGTGCCATCGAACGTCCAAATCAGAAATTACGGAGAAGAGAAGAGCACTCGAATGTCGCATCTGCGGTTCCGAATTTCAAACTCGAGGAAGCCTGGAAGAACACGTCCTGACACACGctgacgagaagccgtttagaTGCGTCGTCTGCGATTATATATTTCAACAGTCCGACGACCTGAAAACGCACATGCTATCACACACCGGCGAAAACCCCTTTCATTGCGAGATTTGCAACTGCAAATTTCGACTTAAAAGTTATTTGACGCAACACATGCGCAGACACGCGCGCGAGAAACGGTTTAGTTGCAACATTTGCAATCACAAGTGCTCTGACGCGAGAGCCTTGAAGAACCACCTGTTAtcacacaccggcgagaaaccctTCAGTTGTGACCTCTGCGATTACAAATCCCGACAGAAACAATCTCTAACGCGACACAAATACACGCATACGGGCCACAAGCCGTTCtcttgcgatctttgcgattacaaatccACAAACAAGACTATGTTGGACCGCCATGTATTCACGCACACCGGCGAAAAACCATACAGCTGCGacgtttgcgattataaatgccgacagcccGCGTACTTGAAAAAGCACAGGCTGACTCACACCAGCGAGAGGCCCTTCACCTGCGACATTTGTGGTTTTAAATTTCGCTTTGGCACAAACCTGAAGCGCCACATGCTAACGCATACCGACGAAAAGCCCTTCGCTTGCGATCTTTGCGGTTACAAGTGCCGCAATGGCGAAAACCTGAAGCAACACAGGTTAACGCACACGGACGAGAGGCCTTTCACTTGCGACatttgtgattttaaatttcgGCTGGCCACAAACTTGAAGCggcacatgttaacgcacaccgacgagaagccgttcgcgtgcgatctttgcgattacaagtgccgaATTTCCGGAAACATGAAGCAACACAAACTGACGCACACGGGCGAGATGCTTTTCGCCTGCGACCTTTGCGATTTCAAGAGCCGACAGGCCACGAACTTGAAGCAACACAGGTTAATACATACGGGCGAGAAGCCTTTCGCTTGCGATCTTTGCGGTGTTAAATTTCGATTCGCCGGAAACTTGAAGCAACACAGGTTAAGGCACAGCGGCGAGAAGCCTTTCGCTtgcgatctttgcagttacaaGTGTCGAGGATCCGGACAGTTGAAACAACACAGGTTGGGACATACCGGTGAGAAGCACTCTCAATAG
Protein Sequence: MIKHTDEKSLKCELCDYTCKRPHNLKQHKLKHTGEKPFSCDICGYRSGKKEVLKRHTLVHLQEMPFSCELCDYKCRRLEHLKRHKMLKHARRFSCGYCGHKCQELGDFELHKLTHRGENPFQCDVCSYKCRFKKDFRHHLYTHAGKKLFCCDVCDYKCLRNATLKSHKLTHSGEKPFGCDLCDYKCRVKQYLVRHISRHKGRKLFCCDLCDYRRKWISESETVKERTFECRECGSKCNTQRRLEEHMLTHSDEKPLIECNTQGRIEEHILTHPDEKPLRCVVCDYICRNSTDLEGHVLTHTDERPFRCTVCNYKSRLKKHLRQHMYRHRAEKRFGCKICDLKFLDSANLKQHALTHTGEKPFSCDLCDYKCGRAANLKQHRLSHSDEKPFACDLCDYKCRRAAHLKDHRLVHTREMPFACDLCDYKCQQRRSWMLHKLKHGEDKPFCCKICKNKYAHKRSLKQHLLTHTGEKPYSCDLCDYKCITSGNLKRHRLTHAGEKPFACDLCDYKSAEKRCLESHKLTHTGDKPFCCRICSFKCLHKRTLKQHVIRHSGEKPFACDLCDYKCELAEKLKSHRLIHTDEKPFACDLCDYKCRRAGSLKDHLCQLLSNAKSRTFECPELKTQGLTNDKLFRCVVCNYECQHPAQLQRHMLTHTEEKRLKCRLCDYQCEQLQLLKQHTSIHTDEKPFACSLCNYRCRRDEYLNRHMLTHTQEKSFNCGLCKYKCRLLGSLKRHMSKHSGEKPYSCAACDYKSRCPANLKRHMKKHSDEKPFRCALCDYKCKRSELLKRHMLSHTNKKLFACGFCDYKCQERETFKLHKLTHASEKLLKCDTCEYKSRFKNDLREHKYTHTGEKPIRCDLCDYKCRHGKSLRLHRLKHTGELPFSCELCDYKCGQVGQLKSHMLKHTGEKPFACDLCSFKCRQSGNLKQHRCQQASKFETVEEERHKIKTEGYLKTHQLTHTDEEPVKCTVCNYKFQRAGFLKRHMLRHARETSLECDLCAYKFKTAQHLRRHMLTHTDEKPFRCNFCDYRCRLSENLKSHMLTHTDDRPFSCDLCDYKCKRRRYLKRHMFKHTGEKQFGCTFCDRKFRYADSLRLHVMTHTGELLFRCAVCDYKCGRSGLLEQHMSTHTDEKLFRCGFCGHRCQDGGDLEAHKLTHVEKTFTCQWTSKSNAVNNRTLKFGFKLKTEDRSEEHELKHTDEEPLRCVVCDYKCRTPKDLKTHVLTHTDDKPFHCATCDYKARSKSHLTQHMYRHTGEKRFRCSICDYKCIDSRNLKQHLLTHTGEKPYSCDLCDHKCTQAENLKRHRLKHTGEKPFACDLCDYRCREKKALQLHKSRHADDKSFCFEHVLIHTDEKPLRCVVCDYKCRMPKDLKAHVLTHTDERPFHCDTCDYKARSKSHLTQHMYTHTGEKRFRCSICDYKCIYRKNLKQHLFIHTGEKPYSCHLCDHKCRQAENLKRHILTHGAGKRFACDLCDYKCRQYRSLKLHSLKHAGELPAGYLKQHRLTHIGEKPLACDLCDYKCWKRKGLNRHRYRWTFKAETAEEKPFECHVCGSKYKAEGYLIRHMSKHAQNVLLKCELCDYKFKTLQHLRRHMLTHTDEKPFSCNLCDYKCRLSENLKSHMLTHTEERPFACDLCGYKCKRERYLKRHKLKHADGKQFSCSSCDGRFRYADSLRLHRMREACELLFRCAVCDYKCGRSGLLAQHMLIHTDKKPLICDLCDYKCRDDADFKLHKSTHAGEKPFKCEYCEYKCRTRFNLKQHVYTHTGEKPLCCSICDYKCRTRGNLKQHMYTHTGEKPLCCSVCDYKCRSKGNLKQHMYTHTGEKPLCCDICDYKCRTNKFMKLHMLKHTDQMQFCCDLCNYKCEQVGLLREHRLQHTSEKRFACDLCDYKCRLSVRLKQHRCHRTSKSEITEKRRALECRICGSEFQTRGSLEEHVLTHADEKPFRCVVCDYIFQQSDDLKTHMLSHTGENPFHCEICNCKFRLKSYLTQHMRRHAREKRFSCNICNHKCSDARALKNHLLSHTGEKPFSCDLCDYKSRQKQSLTRHKYTHTGHKPFSCDLCDYKSTNKTMLDRHVFTHTGEKPYSCDVCDYKCRQPAYLKKHRLTHTSERPFTCDICGFKFRFGTNLKRHMLTHTDEKPFACDLCGYKCRNGENLKQHRLTHTDERPFTCDICDFKFRLATNLKRHMLTHTDEKPFACDLCDYKCRISGNMKQHKLTHTGEMLFACDLCDFKSRQATNLKQHRLIHTGEKPFACDLCGVKFRFAGNLKQHRLRHSGEKPFACDLCSYKCRGSGQLKQHRLGHTGEKHSQ

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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