Basic Information

Insect: Schrankia costaestrigalis
Gene Symbol: RTase
Assembly: GCA_905475405.1
Location: FR997850.1:425908-447270[-]

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 0.0074 0.91 11.4 0.9 1 23 234 256 234 256 0.98

2 73 0.63 77 5.3 1.4 1 23 288 311 288 311 0.96

3 73 0.17 21 7.1 0.5 1 15 317 331 317 334 0.89

4 73 0.17 21 7.1 0.5 1 15 361 375 361 378 0.89

5 73 0.17 21 7.1 0.5 1 15 405 419 405 422 0.89

6 73 0.17 21 7.1 0.5 1 15 449 463 449 466 0.89

7 73 0.17 21 7.1 0.5 1 15 493 507 493 510 0.89

8 73 0.73 90 5.1 0.4 1 12 537 548 537 553 0.87

9 73 0.17 21 7.1 0.5 1 15 581 595 581 598 0.89

10 73 0.17 21 7.1 0.5 1 15 625 639 625 642 0.89

11 73 0.17 21 7.1 0.5 1 15 669 683 669 686 0.89

12 73 0.17 21 7.1 0.5 1 15 713 727 713 730 0.89

13 73 0.17 21 7.1 0.5 1 15 757 771 757 774 0.89

14 73 0.17 21 7.1 0.5 1 15 801 815 801 818 0.89

15 73 0.17 21 7.1 0.5 1 15 845 859 845 862 0.89

16 73 0.17 21 7.1 0.5 1 15 889 903 889 906 0.89

17 73 0.17 21 7.1 0.5 1 15 933 947 933 950 0.89

18 73 0.17 21 7.1 0.5 1 15 977 991 977 994 0.89

19 73 0.17 21 7.1 0.5 1 15 1021 1035 1021 1038 0.89

20 73 0.17 21 7.1 0.5 1 15 1065 1079 1065 1082 0.89

21 73 0.17 21 7.1 0.5 1 15 1109 1123 1109 1126 0.89

22 73 0.17 21 7.1 0.5 1 15 1153 1167 1153 1170 0.89

23 73 0.17 21 7.1 0.5 1 15 1197 1211 1197 1214 0.89

24 73 0.17 21 7.1 0.5 1 15 1241 1255 1241 1258 0.89

25 73 0.17 21 7.1 0.5 1 15 1285 1299 1285 1302 0.89

26 73 0.73 90 5.1 0.4 1 12 1329 1340 1329 1345 0.87

27 73 0.17 21 7.1 0.5 1 15 1373 1387 1373 1390 0.89

28 73 0.17 21 7.1 0.5 1 15 1417 1431 1417 1434 0.89

29 73 0.17 21 7.1 0.5 1 15 1461 1475 1461 1478 0.89

30 73 0.17 21 7.1 0.5 1 15 1505 1519 1505 1522 0.89

31 73 0.17 21 7.1 0.5 1 15 1549 1563 1549 1566 0.89

32 73 0.17 21 7.1 0.5 1 15 1593 1607 1593 1610 0.89

33 73 0.17 21 7.1 0.5 1 15 1637 1651 1637 1654 0.89

34 73 0.17 21 7.1 0.5 1 15 1681 1695 1681 1698 0.89

35 73 0.17 21 7.1 0.5 1 15 1725 1739 1725 1742 0.89

36 73 0.17 21 7.1 0.5 1 15 1769 1783 1769 1786 0.89

37 73 0.17 21 7.1 0.5 1 15 1813 1827 1813 1830 0.89

38 73 0.17 21 7.1 0.5 1 15 1857 1871 1857 1874 0.89

39 73 0.17 21 7.1 0.5 1 15 1901 1915 1901 1918 0.89

40 73 0.17 21 7.1 0.5 1 15 1945 1959 1945 1962 0.89

41 73 0.17 21 7.1 0.5 1 15 1989 2003 1989 2006 0.89

42 73 0.17 21 7.1 0.5 1 15 2033 2047 2033 2050 0.89

43 73 0.17 21 7.1 0.5 1 15 2077 2091 2077 2094 0.89

44 73 0.17 21 7.1 0.5 1 15 2121 2135 2121 2138 0.89

45 73 0.17 21 7.1 0.5 1 15 2165 2179 2165 2182 0.89

46 73 0.17 21 7.1 0.5 1 15 2209 2223 2209 2226 0.89

47 73 0.17 21 7.1 0.5 1 15 2253 2267 2253 2270 0.89

48 73 0.17 21 7.1 0.5 1 15 2297 2311 2297 2314 0.89

49 73 0.17 21 7.1 0.5 1 15 2341 2355 2341 2358 0.89

50 73 0.17 21 7.1 0.5 1 15 2385 2399 2385 2402 0.89

51 73 0.17 21 7.1 0.5 1 15 2429 2443 2429 2446 0.89

52 73 0.17 21 7.1 0.5 1 15 2473 2487 2473 2490 0.89

53 73 0.17 21 7.1 0.5 1 15 2517 2531 2517 2534 0.89

54 73 0.17 21 7.1 0.5 1 15 2561 2575 2561 2578 0.89

55 73 0.17 21 7.1 0.5 1 15 2605 2619 2605 2622 0.89

56 73 0.17 21 7.1 0.5 1 15 2649 2663 2649 2666 0.89

57 73 0.17 21 7.1 0.5 1 15 2693 2707 2693 2710 0.89

58 73 0.17 21 7.1 0.5 1 15 2737 2751 2737 2754 0.89

59 73 0.17 21 7.1 0.5 1 15 2781 2795 2781 2798 0.89

60 73 0.17 21 7.1 0.5 1 15 2825 2839 2825 2842 0.89

61 73 0.17 21 7.1 0.5 1 15 2869 2883 2869 2886 0.89

62 73 0.17 21 7.1 0.5 1 15 2913 2927 2913 2930 0.89

63 73 0.17 21 7.1 0.5 1 15 2957 2971 2957 2974 0.89

64 73 0.17 21 7.1 0.5 1 15 3001 3015 3001 3018 0.89

65 73 0.17 21 7.1 0.5 1 15 3045 3059 3045 3062 0.89

66 73 0.17 21 7.1 0.5 1 15 3089 3103 3089 3106 0.89

67 73 0.17 21 7.1 0.5 1 15 3133 3147 3133 3150 0.89

68 73 0.17 21 7.1 0.5 1 15 3177 3191 3177 3194 0.89

69 73 0.17 21 7.1 0.5 1 15 3221 3235 3221 3238 0.89

70 73 0.17 21 7.1 0.5 1 15 3265 3279 3265 3282 0.89

71 73 0.17 21 7.1 0.5 1 15 3309 3323 3309 3326 0.89

72 73 0.57 71 5.4 2.0 1 15 3353 3367 3353 3370 0.89

73 73 0.27 34 6.5 0.6 1 14 3397 3410 3397 3413 0.91

#	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	0.0074	0.91	11.4	0.9	1	23	234	256	234	256	0.98
2	73	0.63	77	5.3	1.4	1	23	288	311	288	311	0.96
3	73	0.17	21	7.1	0.5	1	15	317	331	317	334	0.89
4	73	0.17	21	7.1	0.5	1	15	361	375	361	378	0.89
5	73	0.17	21	7.1	0.5	1	15	405	419	405	422	0.89
6	73	0.17	21	7.1	0.5	1	15	449	463	449	466	0.89
7	73	0.17	21	7.1	0.5	1	15	493	507	493	510	0.89
8	73	0.73	90	5.1	0.4	1	12	537	548	537	553	0.87
9	73	0.17	21	7.1	0.5	1	15	581	595	581	598	0.89
10	73	0.17	21	7.1	0.5	1	15	625	639	625	642	0.89
11	73	0.17	21	7.1	0.5	1	15	669	683	669	686	0.89
12	73	0.17	21	7.1	0.5	1	15	713	727	713	730	0.89
13	73	0.17	21	7.1	0.5	1	15	757	771	757	774	0.89
14	73	0.17	21	7.1	0.5	1	15	801	815	801	818	0.89
15	73	0.17	21	7.1	0.5	1	15	845	859	845	862	0.89
16	73	0.17	21	7.1	0.5	1	15	889	903	889	906	0.89
17	73	0.17	21	7.1	0.5	1	15	933	947	933	950	0.89
18	73	0.17	21	7.1	0.5	1	15	977	991	977	994	0.89
19	73	0.17	21	7.1	0.5	1	15	1021	1035	1021	1038	0.89
20	73	0.17	21	7.1	0.5	1	15	1065	1079	1065	1082	0.89
21	73	0.17	21	7.1	0.5	1	15	1109	1123	1109	1126	0.89
22	73	0.17	21	7.1	0.5	1	15	1153	1167	1153	1170	0.89
23	73	0.17	21	7.1	0.5	1	15	1197	1211	1197	1214	0.89
24	73	0.17	21	7.1	0.5	1	15	1241	1255	1241	1258	0.89
25	73	0.17	21	7.1	0.5	1	15	1285	1299	1285	1302	0.89
26	73	0.73	90	5.1	0.4	1	12	1329	1340	1329	1345	0.87
27	73	0.17	21	7.1	0.5	1	15	1373	1387	1373	1390	0.89
28	73	0.17	21	7.1	0.5	1	15	1417	1431	1417	1434	0.89
29	73	0.17	21	7.1	0.5	1	15	1461	1475	1461	1478	0.89
30	73	0.17	21	7.1	0.5	1	15	1505	1519	1505	1522	0.89
31	73	0.17	21	7.1	0.5	1	15	1549	1563	1549	1566	0.89
32	73	0.17	21	7.1	0.5	1	15	1593	1607	1593	1610	0.89
33	73	0.17	21	7.1	0.5	1	15	1637	1651	1637	1654	0.89
34	73	0.17	21	7.1	0.5	1	15	1681	1695	1681	1698	0.89
35	73	0.17	21	7.1	0.5	1	15	1725	1739	1725	1742	0.89
36	73	0.17	21	7.1	0.5	1	15	1769	1783	1769	1786	0.89
37	73	0.17	21	7.1	0.5	1	15	1813	1827	1813	1830	0.89
38	73	0.17	21	7.1	0.5	1	15	1857	1871	1857	1874	0.89
39	73	0.17	21	7.1	0.5	1	15	1901	1915	1901	1918	0.89
40	73	0.17	21	7.1	0.5	1	15	1945	1959	1945	1962	0.89
41	73	0.17	21	7.1	0.5	1	15	1989	2003	1989	2006	0.89
42	73	0.17	21	7.1	0.5	1	15	2033	2047	2033	2050	0.89
43	73	0.17	21	7.1	0.5	1	15	2077	2091	2077	2094	0.89
44	73	0.17	21	7.1	0.5	1	15	2121	2135	2121	2138	0.89
45	73	0.17	21	7.1	0.5	1	15	2165	2179	2165	2182	0.89
46	73	0.17	21	7.1	0.5	1	15	2209	2223	2209	2226	0.89
47	73	0.17	21	7.1	0.5	1	15	2253	2267	2253	2270	0.89
48	73	0.17	21	7.1	0.5	1	15	2297	2311	2297	2314	0.89
49	73	0.17	21	7.1	0.5	1	15	2341	2355	2341	2358	0.89
50	73	0.17	21	7.1	0.5	1	15	2385	2399	2385	2402	0.89
51	73	0.17	21	7.1	0.5	1	15	2429	2443	2429	2446	0.89
52	73	0.17	21	7.1	0.5	1	15	2473	2487	2473	2490	0.89
53	73	0.17	21	7.1	0.5	1	15	2517	2531	2517	2534	0.89
54	73	0.17	21	7.1	0.5	1	15	2561	2575	2561	2578	0.89
55	73	0.17	21	7.1	0.5	1	15	2605	2619	2605	2622	0.89
56	73	0.17	21	7.1	0.5	1	15	2649	2663	2649	2666	0.89
57	73	0.17	21	7.1	0.5	1	15	2693	2707	2693	2710	0.89
58	73	0.17	21	7.1	0.5	1	15	2737	2751	2737	2754	0.89
59	73	0.17	21	7.1	0.5	1	15	2781	2795	2781	2798	0.89
60	73	0.17	21	7.1	0.5	1	15	2825	2839	2825	2842	0.89
61	73	0.17	21	7.1	0.5	1	15	2869	2883	2869	2886	0.89
62	73	0.17	21	7.1	0.5	1	15	2913	2927	2913	2930	0.89
63	73	0.17	21	7.1	0.5	1	15	2957	2971	2957	2974	0.89
64	73	0.17	21	7.1	0.5	1	15	3001	3015	3001	3018	0.89
65	73	0.17	21	7.1	0.5	1	15	3045	3059	3045	3062	0.89
66	73	0.17	21	7.1	0.5	1	15	3089	3103	3089	3106	0.89
67	73	0.17	21	7.1	0.5	1	15	3133	3147	3133	3150	0.89
68	73	0.17	21	7.1	0.5	1	15	3177	3191	3177	3194	0.89
69	73	0.17	21	7.1	0.5	1	15	3221	3235	3221	3238	0.89
70	73	0.17	21	7.1	0.5	1	15	3265	3279	3265	3282	0.89
71	73	0.17	21	7.1	0.5	1	15	3309	3323	3309	3326	0.89
72	73	0.57	71	5.4	2.0	1	15	3353	3367	3353	3370	0.89
73	73	0.27	34	6.5	0.6	1	14	3397	3410	3397	3413	0.91

Sequence Information

Coding Sequence: ATGGatgaaataaaatgtgaaaGTACAGTACGTTATTGTTACGGATGTCTTAGTGATAATAATGAGAAACAAATACAGGACTATGCCTTCGTCTGCAACTCTCTCAAGGAAATAATACAGATGCAGTCAGTGCCATTATGTTATCTGTGCAAAAGGATAGCTCAACACACAGAGTTGTTCATACAGAATGTTCTCAGCAATCAGATATTATTGAACAATTTTAGTAATGAAAGGGATGAAGCATTAAAATCTGTGAAACTGCAAACTCAACCTTTAGTTAATTTAAAGTATGAGGCATATGAAGTACTGGAGCTGTGTGATGAAGACAGCACGAATGTTGAGGAGTCTTACTCTGTGGTGAGTGTGAGGAGAGAGGATGTCAAGGTTAAGCTTGAGGTGAAGGAGGAGCTCGTGGGCAACTTGGAGGCTGACTCTGTTAATGGTGATGATGAGGTTCCAGACTTGTATGTAAAAGAGGAGGATGACTTGCCCCTCACCTTTTTGTTAAAAGATGAGTCAGAGAGTgacataaacaataaaaaactgaCGGAAATTagtaaaaagaaacaaaaagttaaaatagaCACAACTAATTTAAGCGcagAGAAGCATAGCGTAAAAAAGGTGTATATAAGTAAACAACAATGTATGGAGGAGCGAGCCCTCACACTACAAGAAGACAAGTTTCTAGAGCTCACCTACAAGTGTATGGACTGTGTCAAAGGGTTTATATACAAGGAGAGCTACGACAAACACATGGAGCAACATAATAAAAGTGCGGGAAAGTTTAAGTGCGACATATGTAAGCAGAGGATGGGCTACCATAGACTAGTAGCGCACAGGAAACAACATCTAGTTCGCTTCAAGTGTCGGGAGTGCGGCGCAGTATACAAGTGGcgcaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatattgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaggcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaggcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaggcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatattgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaggcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacacttgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagttcacctataaacgcagaattaattttaaaggataatgtaccgattttcaacaatgattttgaatttgaacatgttactccttttgatataattaaagcttttaataccattaatgtcaaaaagacatcagatttatgggataattctgtagttgttactaaacatattatttactcagttgcaacgcatttagctcttatatttaatcattcgatagatagtggtgtgtttcctgatttaatgaaatccagcaaaattgttcctttgtataaatctggctgtacatcagacccaactaattttagaccgatttcagtactgccaactttcagtaaaatatttgaaaaacttattgcaaaccaactgcaaacatatttaagtagatacaaaattttacatattaaacaatttggttttacaaggggtcgctccacaaccgatgctggtgtggagcttgtaaaacatatatatgatgcctgggagaagtcttacgatgctttaggtattttctgtgacttgtccaaggctttcgactgtgtcgatcatgatacacttttacggaaactacatcactatggcttaggtaaacttggattagatcttttcacgtcttacttaaataatagaatacaaagagttaatattaatggaaaattatctccaggatctgtcgtaaaaatgggcgttccgcaaggttccatacttggaccccttttgtttctcatctatataaatgatttaccacatctagttaaagatcaacatgagatagttttgtttgccgatgacacttcgcttttatttaaagtgaaacgacagcagactagcactgacgaagtaaacttggctatctctaaagttgttcgttggtttgacattaataacttgctccttaatagccgcaaaaccaaatgtgttagatttataacgccgaatgtacaagaagtgaaaaccacaataagagttaaggaggatcaggtagaccttgtggacactacaaaatttcttggtataacactagactctaagcttcagtggggcccacatattatgacattggtaaagcgactaagttctgcagcttatgccgttaggaaaattcgagaactgacagacatagaaactgccagattagtatattttagttattttcacagcataatgtcatacggtattttactatggggacatgctgccgatattcattctatctttgtgctgcaaaagagagctattcgtgcaatttataatttaggaaggagacaatcacttcaagaaaaatttaaagaaatcaatatattaactgtagcaagtcaatacatttatgaaaacataatttatgttcataaaaataaagaccaatttgtcaaaagaagtgatgtccatagtataaatactagaaataaagatagacttattcatccgtattctaggctccaaaaaatacatagttcatttcagggtcaatgtgtgcgattttataataaaattccgaaagatattcaagatctaagttttaataaatttaagaatgtagtcaaacaaaaacttatcgtaaagggatattatactatcctagactacacgaaagacaaaaaggcttgggattaa
Protein Sequence: MDEIKCESTVRYCYGCLSDNNEKQIQDYAFVCNSLKEIIQMQSVPLCYLCKRIAQHTELFIQNVLSNQILLNNFSNERDEALKSVKLQTQPLVNLKYEAYEVLELCDEDSTNVEESYSVVSVRREDVKVKLEVKEELVGNLEADSVNGDDEVPDLYVKEEDDLPLTFLLKDESESDINNKKLTEISKKKQKVKIDTTNLSAEKHSVKKVYISKQQCMEERALTLQEDKFLELTYKCMDCVKGFIYKESYDKHMEQHNKSAGKFKCDICKQRMGYHRLVAHRKQHLVRFKCRECGAVYKWRKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYIANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKRQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKRQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKRQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYIANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKRQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTCLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSSPINAELILKDNVPIFNNDFEFEHVTPFDIIKAFNTINVKKTSDLWDNSVVVTKHIIYSVATHLALIFNHSIDSGVFPDLMKSSKIVPLYKSGCTSDPTNFRPISVLPTFSKIFEKLIANQLQTYLSRYKILHIKQFGFTRGRSTTDAGVELVKHIYDAWEKSYDALGIFCDLSKAFDCVDHDTLLRKLHHYGLGKLGLDLFTSYLNNRIQRVNINGKLSPGSVVKMGVPQGSILGPLLFLIYINDLPHLVKDQHEIVLFADDTSLLFKVKRQQTSTDEVNLAISKVVRWFDINNLLLNSRKTKCVRFITPNVQEVKTTIRVKEDQVDLVDTTKFLGITLDSKLQWGPHIMTLVKRLSSAAYAVRKIRELTDIETARLVYFSYFHSIMSYGILLWGHAADIHSIFVLQKRAIRAIYNLGRRQSLQEKFKEINILTVASQYIYENIIYVHKNKDQFVKRSDVHSINTRNKDRLIHPYSRLQKIHSSFQGQCVRFYNKIPKDIQDLSFNKFKNVVKQKLIVKGYYTILDYTKDKKAWD*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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