Basic Information

Insect: Apotomis capreana
Gene Symbol: -
Assembly: GCA_947623375.1
Location: OX392507.1:1454846-1473713[+]

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 0.013 1.2 10.8 0.5 1 23 605 627 605 627 0.96

2 67 0.013 1.2 10.8 0.5 1 23 640 662 640 662 0.96

3 67 0.013 1.2 10.8 0.5 1 23 675 697 675 697 0.96

4 67 0.013 1.2 10.8 0.5 1 23 710 732 710 732 0.96

5 67 0.013 1.2 10.8 0.5 1 23 745 767 745 767 0.96

6 67 0.013 1.2 10.8 0.5 1 23 780 802 780 802 0.96

7 67 0.013 1.2 10.8 0.5 1 23 815 837 815 837 0.96

8 67 0.013 1.2 10.8 0.5 1 23 850 872 850 872 0.96

9 67 0.013 1.2 10.8 0.5 1 23 885 907 885 907 0.96

10 67 0.013 1.2 10.8 0.5 1 23 920 942 920 942 0.96

11 67 0.013 1.2 10.8 0.5 1 23 955 977 955 977 0.96

12 67 0.013 1.2 10.8 0.5 1 23 990 1012 990 1012 0.96

13 67 0.056 5.1 8.7 0.2 1 20 1025 1044 1025 1046 0.94

14 67 0.013 1.2 10.8 0.5 1 23 1060 1082 1060 1082 0.96

15 67 0.013 1.2 10.8 0.5 1 23 1095 1117 1095 1117 0.96

16 67 0.013 1.2 10.8 0.5 1 23 1130 1152 1130 1152 0.96

17 67 0.013 1.2 10.8 0.5 1 23 1165 1187 1165 1187 0.96

18 67 0.013 1.2 10.8 0.5 1 23 1200 1222 1200 1222 0.96

19 67 0.013 1.2 10.8 0.5 1 23 1235 1257 1235 1257 0.96

20 67 0.013 1.2 10.8 0.5 1 23 1270 1292 1270 1292 0.96

21 67 0.013 1.2 10.8 0.5 1 23 1305 1327 1305 1327 0.96

22 67 0.013 1.2 10.8 0.5 1 23 1340 1362 1340 1362 0.96

23 67 0.056 5.1 8.7 0.2 1 20 1375 1394 1375 1396 0.94

24 67 0.013 1.2 10.8 0.5 1 23 1410 1432 1410 1432 0.96

25 67 0.013 1.2 10.8 0.5 1 23 1445 1467 1445 1467 0.96

26 67 0.013 1.2 10.8 0.5 1 23 1480 1502 1480 1502 0.96

27 67 0.013 1.2 10.8 0.5 1 23 1515 1537 1515 1537 0.96

28 67 0.013 1.2 10.8 0.5 1 23 1550 1572 1550 1572 0.96

29 67 0.013 1.2 10.8 0.5 1 23 1585 1607 1585 1607 0.96

30 67 0.013 1.2 10.8 0.5 1 23 1620 1642 1620 1642 0.96

31 67 0.013 1.2 10.8 0.5 1 23 1655 1677 1655 1677 0.96

32 67 0.013 1.2 10.8 0.5 1 23 1690 1712 1690 1712 0.96

33 67 0.013 1.2 10.8 0.5 1 23 1725 1747 1725 1747 0.96

34 67 0.013 1.2 10.8 0.5 1 23 1760 1782 1760 1782 0.96

35 67 0.056 5.1 8.7 0.2 1 20 1795 1814 1795 1816 0.94

36 67 0.013 1.2 10.8 0.5 1 23 1830 1852 1830 1852 0.96

37 67 0.013 1.2 10.8 0.5 1 23 1865 1887 1865 1887 0.96

38 67 0.013 1.2 10.8 0.5 1 23 1900 1922 1900 1922 0.96

39 67 0.013 1.2 10.8 0.5 1 23 1935 1957 1935 1957 0.96

40 67 0.013 1.2 10.8 0.5 1 23 1970 1992 1970 1992 0.96

41 67 0.013 1.2 10.8 0.5 1 23 2005 2027 2005 2027 0.96

42 67 0.013 1.2 10.8 0.5 1 23 2040 2062 2040 2062 0.96

43 67 0.013 1.2 10.8 0.5 1 23 2075 2097 2075 2097 0.96

44 67 0.013 1.2 10.8 0.5 1 23 2110 2132 2110 2132 0.96

45 67 0.013 1.2 10.8 0.5 1 23 2145 2167 2145 2167 0.96

46 67 0.056 5.1 8.7 0.2 1 20 2180 2199 2180 2201 0.94

47 67 0.013 1.2 10.8 0.5 1 23 2215 2237 2215 2237 0.96

48 67 0.013 1.2 10.8 0.5 1 23 2250 2272 2250 2272 0.96

49 67 0.056 5.1 8.7 0.2 1 20 2285 2304 2285 2306 0.94

50 67 0.013 1.2 10.8 0.5 1 23 2320 2342 2320 2342 0.96

51 67 0.013 1.2 10.8 0.5 1 23 2355 2377 2355 2377 0.96

52 67 0.013 1.2 10.8 0.5 1 23 2390 2412 2390 2412 0.96

53 67 0.013 1.2 10.8 0.5 1 23 2425 2447 2425 2447 0.96

54 67 0.013 1.2 10.8 0.5 1 23 2460 2482 2460 2482 0.96

55 67 0.013 1.2 10.8 0.5 1 23 2495 2517 2495 2517 0.96

56 67 0.056 5.1 8.7 0.2 1 20 2530 2549 2530 2551 0.94

57 67 0.013 1.2 10.8 0.5 1 23 2565 2587 2565 2587 0.96

58 67 0.056 5.1 8.7 0.2 1 20 2600 2619 2600 2621 0.94

59 67 0.013 1.2 10.8 0.5 1 23 2635 2657 2635 2657 0.96

60 67 0.013 1.2 10.8 0.5 1 23 2670 2692 2670 2692 0.96

61 67 0.013 1.2 10.8 0.5 1 23 2705 2727 2705 2727 0.96

62 67 0.056 5.1 8.7 0.2 1 20 2740 2759 2740 2761 0.94

63 67 0.013 1.2 10.8 0.5 1 23 2775 2797 2775 2797 0.96

64 67 0.013 1.2 10.8 0.5 1 23 2810 2832 2810 2832 0.96

65 67 0.00047 0.043 15.3 1.6 1 23 2838 2860 2838 2860 0.97

66 67 0.0045 0.41 12.2 1.2 1 23 2866 2888 2866 2888 0.92

67 67 4.7e-06 0.00043 21.6 5.4 1 23 2894 2916 2894 2916 0.97

#	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	0.013	1.2	10.8	0.5	1	23	605	627	605	627	0.96
2	67	0.013	1.2	10.8	0.5	1	23	640	662	640	662	0.96
3	67	0.013	1.2	10.8	0.5	1	23	675	697	675	697	0.96
4	67	0.013	1.2	10.8	0.5	1	23	710	732	710	732	0.96
5	67	0.013	1.2	10.8	0.5	1	23	745	767	745	767	0.96
6	67	0.013	1.2	10.8	0.5	1	23	780	802	780	802	0.96
7	67	0.013	1.2	10.8	0.5	1	23	815	837	815	837	0.96
8	67	0.013	1.2	10.8	0.5	1	23	850	872	850	872	0.96
9	67	0.013	1.2	10.8	0.5	1	23	885	907	885	907	0.96
10	67	0.013	1.2	10.8	0.5	1	23	920	942	920	942	0.96
11	67	0.013	1.2	10.8	0.5	1	23	955	977	955	977	0.96
12	67	0.013	1.2	10.8	0.5	1	23	990	1012	990	1012	0.96
13	67	0.056	5.1	8.7	0.2	1	20	1025	1044	1025	1046	0.94
14	67	0.013	1.2	10.8	0.5	1	23	1060	1082	1060	1082	0.96
15	67	0.013	1.2	10.8	0.5	1	23	1095	1117	1095	1117	0.96
16	67	0.013	1.2	10.8	0.5	1	23	1130	1152	1130	1152	0.96
17	67	0.013	1.2	10.8	0.5	1	23	1165	1187	1165	1187	0.96
18	67	0.013	1.2	10.8	0.5	1	23	1200	1222	1200	1222	0.96
19	67	0.013	1.2	10.8	0.5	1	23	1235	1257	1235	1257	0.96
20	67	0.013	1.2	10.8	0.5	1	23	1270	1292	1270	1292	0.96
21	67	0.013	1.2	10.8	0.5	1	23	1305	1327	1305	1327	0.96
22	67	0.013	1.2	10.8	0.5	1	23	1340	1362	1340	1362	0.96
23	67	0.056	5.1	8.7	0.2	1	20	1375	1394	1375	1396	0.94
24	67	0.013	1.2	10.8	0.5	1	23	1410	1432	1410	1432	0.96
25	67	0.013	1.2	10.8	0.5	1	23	1445	1467	1445	1467	0.96
26	67	0.013	1.2	10.8	0.5	1	23	1480	1502	1480	1502	0.96
27	67	0.013	1.2	10.8	0.5	1	23	1515	1537	1515	1537	0.96
28	67	0.013	1.2	10.8	0.5	1	23	1550	1572	1550	1572	0.96
29	67	0.013	1.2	10.8	0.5	1	23	1585	1607	1585	1607	0.96
30	67	0.013	1.2	10.8	0.5	1	23	1620	1642	1620	1642	0.96
31	67	0.013	1.2	10.8	0.5	1	23	1655	1677	1655	1677	0.96
32	67	0.013	1.2	10.8	0.5	1	23	1690	1712	1690	1712	0.96
33	67	0.013	1.2	10.8	0.5	1	23	1725	1747	1725	1747	0.96
34	67	0.013	1.2	10.8	0.5	1	23	1760	1782	1760	1782	0.96
35	67	0.056	5.1	8.7	0.2	1	20	1795	1814	1795	1816	0.94
36	67	0.013	1.2	10.8	0.5	1	23	1830	1852	1830	1852	0.96
37	67	0.013	1.2	10.8	0.5	1	23	1865	1887	1865	1887	0.96
38	67	0.013	1.2	10.8	0.5	1	23	1900	1922	1900	1922	0.96
39	67	0.013	1.2	10.8	0.5	1	23	1935	1957	1935	1957	0.96
40	67	0.013	1.2	10.8	0.5	1	23	1970	1992	1970	1992	0.96
41	67	0.013	1.2	10.8	0.5	1	23	2005	2027	2005	2027	0.96
42	67	0.013	1.2	10.8	0.5	1	23	2040	2062	2040	2062	0.96
43	67	0.013	1.2	10.8	0.5	1	23	2075	2097	2075	2097	0.96
44	67	0.013	1.2	10.8	0.5	1	23	2110	2132	2110	2132	0.96
45	67	0.013	1.2	10.8	0.5	1	23	2145	2167	2145	2167	0.96
46	67	0.056	5.1	8.7	0.2	1	20	2180	2199	2180	2201	0.94
47	67	0.013	1.2	10.8	0.5	1	23	2215	2237	2215	2237	0.96
48	67	0.013	1.2	10.8	0.5	1	23	2250	2272	2250	2272	0.96
49	67	0.056	5.1	8.7	0.2	1	20	2285	2304	2285	2306	0.94
50	67	0.013	1.2	10.8	0.5	1	23	2320	2342	2320	2342	0.96
51	67	0.013	1.2	10.8	0.5	1	23	2355	2377	2355	2377	0.96
52	67	0.013	1.2	10.8	0.5	1	23	2390	2412	2390	2412	0.96
53	67	0.013	1.2	10.8	0.5	1	23	2425	2447	2425	2447	0.96
54	67	0.013	1.2	10.8	0.5	1	23	2460	2482	2460	2482	0.96
55	67	0.013	1.2	10.8	0.5	1	23	2495	2517	2495	2517	0.96
56	67	0.056	5.1	8.7	0.2	1	20	2530	2549	2530	2551	0.94
57	67	0.013	1.2	10.8	0.5	1	23	2565	2587	2565	2587	0.96
58	67	0.056	5.1	8.7	0.2	1	20	2600	2619	2600	2621	0.94
59	67	0.013	1.2	10.8	0.5	1	23	2635	2657	2635	2657	0.96
60	67	0.013	1.2	10.8	0.5	1	23	2670	2692	2670	2692	0.96
61	67	0.013	1.2	10.8	0.5	1	23	2705	2727	2705	2727	0.96
62	67	0.056	5.1	8.7	0.2	1	20	2740	2759	2740	2761	0.94
63	67	0.013	1.2	10.8	0.5	1	23	2775	2797	2775	2797	0.96
64	67	0.013	1.2	10.8	0.5	1	23	2810	2832	2810	2832	0.96
65	67	0.00047	0.043	15.3	1.6	1	23	2838	2860	2838	2860	0.97
66	67	0.0045	0.41	12.2	1.2	1	23	2866	2888	2866	2888	0.92
67	67	4.7e-06	0.00043	21.6	5.4	1	23	2894	2916	2894	2916	0.97

Sequence Information

Coding Sequence: ATGAATTTCACCCCGTTCACCGGGCACATCCCGACGGCAGCCGCCATCCCCACCATCCACCAGTTCGCGGCCAAGTTCGGGTACGAGGGCAGCAGCCAGGAGCGCTACCAGGCCGGCAACGTGCAGTTCGTCACGCCCGTGGGGGACGGCAAGTTCCGCCAGGAGGGCGTCGTCGTCGTGAGCAGCGCGCCGCCGGGCTCCGTCACCTTAGCGGGGCTTGCGCCTATACACACCGTGAACAGCGGCGTGAAGTACCAAGCAATATCTTCATCGGTGAACCTGAACAATGTGTCGTACGGGCAGTACGTGCACGAGCCCAAGGAGGGCAAGCGCGAGTTCCGCGAGGAGGACCTCATGGCCACCATGATGACGCAGCAGGACGCCATCACAGTGCCGGGCGCGGCGCTGCAGCCGGGCGCGCAGCAGCTGCTGCTGGTGCTGCACGAGCCCAAGGAGGCGGCGGCGCTCGCGCGCGCCATCAAGCAGGAGGCGCGCGCCGCGCAGGCCGCGCCCGCCGAGTTTATAAGTATCGGCGACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCGTCCTCACCGGTCAGTACGTCAGGTATCGGCACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCGTCCTCACCGGTCAGTACGTCAGGTATCGGCACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCGTCCTCACCGGTCAGTACGTCAGGTATCGGCACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCGTCCTCACCGGTCAGTACGTCAGGTATCGGCACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCGTCCTCACCGGTCAGTACGTCAGGTATCGGCACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCGTCCTCACCGGTCAGTACGTCAGGTATCGGCACGTGTCGGACGCGACGTGGCAGTCGCTGGGCGGCGGCGTGGCGGACTACCTGTCGGCGCTGCCGCTGCCGCTGCACCACCTGCTCAAGTACGACAACAAGCGGGAGGAGGTGGTCGTGCAGCTGCCCGCCTCCTCGCCGCAAATGGTGAGCACGGCGGTTAACACGGTGGTGGTGCAGACGGCGACGGTGCCGGCGCCGACGCCGCCGCCGCCCAAGAAGAAGAAGAAAAAGAAGGCTGCCAAAGAGAAGAAACCGAGGCCCAAGCCCGGGGAGATACGACTCACCACGGCACTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGAAGGTATATAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGAAGGTATATAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTCCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTCCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTCCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACAGACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGGAGGTATGTAGACGGCAGCACGCTGTACTGCTGCCCGGAGTGCCACATGGCGTACCCGGAGCGCGGGCTGCTGGAGCAGCATCTGCTGGGACACACCATGGAGAGAAGGTTCATCTGCGACATCTGCAACGCGGCGCTGAAGCGCAAGGACCACCTGACGCGGCACAAGCAGAGCCACAACCCGGAGCGGCCGCACGCGTGCTCCGTGTGTCTGAAGGCGTTCAAGCGGAAGGAGCAGCTCACGCTGCACTTCGTCATACACTCCGGGGAGAAGAGACACGTGTGCAACGAGTGCGGCAAGGGTTTCTACCGCAAGGACCACCTGCGCAAGCACACGCGCTCGCACATCGCGCGGCGCGTGAAGGCGGAGCTGTCGGCGCGCGGCTCCGCGTCCCCGCCCCTCGCGGCCGCGCCGCGCCCCGCGCCCCGCCCCGCGGCGGCCACGCCCTCCTGA
Protein Sequence: MNFTPFTGHIPTAAAIPTIHQFAAKFGYEGSSQERYQAGNVQFVTPVGDGKFRQEGVVVVSSAPPGSVTLAGLAPIHTVNSGVKYQAISSSVNLNNVSYGQYVHEPKEGKREFREEDLMATMMTQQDAITVPGAALQPGAQQLLLVLHEPKEAAALARAIKQEARAAQAAPAEFISIGDVSDATWQSLGGGVADYLSALPLPLHHLLKYDNKREEVVVQLPASSPVSTSGIGTCRTRRGSRWAAAWRTTCRRCRCRCTTCSSTTTSGRRWSCSCPRPHRSVRQVSARVGRDVAVAGRRRGGLPVGAAAAAAPPAQVRQQAGGGGRAAARVLTGQYVRYRHVSDATWQSLGGGVADYLSALPLPLHHLLKYDNKREEVVVQLPASSPVSTSGIGTCRTRRGSRWAAAWRTTCRRCRCRCTTCSSTTTSGRRWSCSCPRPHRSVRQVSARVGRDVAVAGRRRGGLPVGAAAAAAPPAQVRQQAGGGGRAAARVLTGQYVRYRHVSDATWQSLGGGVADYLSALPLPLHHLLKYDNKREEVVVQLPASSPQMVSTAVNTVVVQTATVPAPTPPPPKKKKKKKAAKEKKPRPKPGEIRLTTALDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYIDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYIDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGQTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRYVDGSTLYCCPECHMAYPERGLLEQHLLGHTMERRFICDICNAALKRKDHLTRHKQSHNPERPHACSVCLKAFKRKEQLTLHFVIHSGEKRHVCNECGKGFYRKDHLRKHTRSHIARRVKAELSARGSASPPLAAAPRPAPRPAAATPS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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