Basic Information

Insect: Schrankia costaestrigalis
Gene Symbol: -
Assembly: GCA_905475405.1
Location: FR997850.1:416584-425717[-]

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 65 0.12 15 7.6 0.5 1 15 29 43 29 46 0.89

2 65 0.12 15 7.6 0.5 1 15 73 87 73 90 0.89

3 65 0.12 15 7.6 0.5 1 15 117 131 117 134 0.89

4 65 0.12 15 7.6 0.5 1 15 161 175 161 178 0.89

5 65 0.12 15 7.6 0.5 1 15 205 219 205 222 0.89

6 65 0.12 15 7.6 0.5 1 15 249 263 249 266 0.89

7 65 0.12 15 7.6 0.5 1 15 293 307 293 310 0.89

8 65 0.12 15 7.6 0.5 1 15 337 351 337 354 0.89

9 65 0.12 15 7.6 0.5 1 15 381 395 381 398 0.89

10 65 0.12 15 7.6 0.5 1 15 425 439 425 442 0.89

11 65 0.12 15 7.6 0.5 1 15 469 483 469 486 0.89

12 65 0.12 15 7.6 0.5 1 15 513 527 513 530 0.89

13 65 0.41 50 5.9 2.0 1 15 557 571 557 574 0.89

14 65 0.12 15 7.6 0.5 1 15 601 615 601 618 0.89

15 65 0.12 15 7.6 0.5 1 15 645 659 645 662 0.89

16 65 0.12 15 7.6 0.5 1 15 689 703 689 706 0.89

17 65 0.12 15 7.6 0.5 1 15 733 747 733 750 0.89

18 65 0.12 15 7.6 0.5 1 15 777 791 777 794 0.89

19 65 0.12 15 7.6 0.5 1 15 821 835 821 838 0.89

20 65 0.12 15 7.6 0.5 1 15 865 879 865 882 0.89

21 65 0.12 15 7.6 0.5 1 15 909 923 909 926 0.89

22 65 0.12 15 7.6 0.5 1 15 953 967 953 970 0.89

23 65 0.12 15 7.6 0.5 1 15 997 1011 997 1014 0.89

24 65 0.12 15 7.6 0.5 1 15 1041 1055 1041 1058 0.89

25 65 0.12 15 7.6 0.5 1 15 1085 1099 1085 1102 0.89

26 65 0.12 15 7.6 0.5 1 15 1129 1143 1129 1146 0.89

27 65 0.12 15 7.6 0.5 1 15 1173 1187 1173 1190 0.89

28 65 0.12 15 7.6 0.5 1 15 1217 1231 1217 1234 0.89

29 65 0.12 15 7.6 0.5 1 15 1261 1275 1261 1278 0.89

30 65 0.12 15 7.6 0.5 1 15 1305 1319 1305 1322 0.89

31 65 0.12 15 7.6 0.5 1 15 1349 1363 1349 1366 0.89

32 65 0.12 15 7.6 0.5 1 15 1393 1407 1393 1410 0.89

33 65 0.12 15 7.6 0.5 1 15 1437 1451 1437 1454 0.89

34 65 0.12 15 7.6 0.5 1 15 1481 1495 1481 1498 0.89

35 65 0.12 15 7.6 0.5 1 15 1525 1539 1525 1542 0.89

36 65 0.12 15 7.6 0.5 1 15 1569 1583 1569 1586 0.89

37 65 0.12 15 7.6 0.5 1 15 1613 1627 1613 1630 0.89

38 65 0.12 15 7.6 0.5 1 15 1657 1671 1657 1674 0.89

39 65 0.12 15 7.6 0.5 1 15 1701 1715 1701 1718 0.89

40 65 0.12 15 7.6 0.5 1 15 1745 1759 1745 1762 0.89

41 65 0.12 15 7.6 0.5 1 15 1789 1803 1789 1806 0.89

42 65 0.12 15 7.6 0.5 1 15 1833 1847 1833 1850 0.89

43 65 0.12 15 7.6 0.5 1 15 1877 1891 1877 1894 0.89

44 65 0.12 15 7.6 0.5 1 15 1921 1935 1921 1938 0.89

45 65 0.12 15 7.6 0.5 1 15 1965 1979 1965 1982 0.89

46 65 0.12 15 7.6 0.5 1 15 2009 2023 2009 2026 0.89

47 65 0.12 15 7.6 0.5 1 15 2053 2067 2053 2070 0.89

48 65 0.12 15 7.6 0.5 1 15 2097 2111 2097 2114 0.89

49 65 0.12 15 7.6 0.5 1 15 2141 2155 2141 2158 0.89

50 65 0.12 15 7.6 0.5 1 15 2185 2199 2185 2202 0.89

51 65 0.12 15 7.6 0.5 1 15 2229 2243 2229 2246 0.89

52 65 0.12 15 7.6 0.5 1 15 2273 2287 2273 2290 0.89

53 65 0.12 15 7.6 0.5 1 15 2317 2331 2317 2334 0.89

54 65 0.12 15 7.6 0.5 1 15 2361 2375 2361 2378 0.89

55 65 0.52 65 5.6 0.4 1 12 2405 2416 2405 2421 0.87

56 65 0.12 15 7.6 0.5 1 15 2449 2463 2449 2466 0.89

57 65 0.12 15 7.6 0.5 1 15 2493 2507 2493 2510 0.89

58 65 0.12 15 7.6 0.5 1 15 2537 2551 2537 2554 0.89

59 65 0.12 15 7.6 0.5 1 15 2581 2595 2581 2598 0.89

60 65 0.12 15 7.6 0.5 1 15 2625 2639 2625 2642 0.89

61 65 0.12 15 7.6 0.5 1 15 2669 2683 2669 2686 0.89

62 65 0.12 15 7.6 0.5 1 15 2713 2727 2713 2730 0.89

63 65 0.12 15 7.6 0.5 1 15 2757 2771 2757 2774 0.89

64 65 0.12 15 7.6 0.5 1 15 2801 2815 2801 2818 0.89

65 65 0.2 25 6.9 1.6 1 19 2845 2863 2845 2865 0.86

#	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	65	0.12	15	7.6	0.5	1	15	29	43	29	46	0.89
2	65	0.12	15	7.6	0.5	1	15	73	87	73	90	0.89
3	65	0.12	15	7.6	0.5	1	15	117	131	117	134	0.89
4	65	0.12	15	7.6	0.5	1	15	161	175	161	178	0.89
5	65	0.12	15	7.6	0.5	1	15	205	219	205	222	0.89
6	65	0.12	15	7.6	0.5	1	15	249	263	249	266	0.89
7	65	0.12	15	7.6	0.5	1	15	293	307	293	310	0.89
8	65	0.12	15	7.6	0.5	1	15	337	351	337	354	0.89
9	65	0.12	15	7.6	0.5	1	15	381	395	381	398	0.89
10	65	0.12	15	7.6	0.5	1	15	425	439	425	442	0.89
11	65	0.12	15	7.6	0.5	1	15	469	483	469	486	0.89
12	65	0.12	15	7.6	0.5	1	15	513	527	513	530	0.89
13	65	0.41	50	5.9	2.0	1	15	557	571	557	574	0.89
14	65	0.12	15	7.6	0.5	1	15	601	615	601	618	0.89
15	65	0.12	15	7.6	0.5	1	15	645	659	645	662	0.89
16	65	0.12	15	7.6	0.5	1	15	689	703	689	706	0.89
17	65	0.12	15	7.6	0.5	1	15	733	747	733	750	0.89
18	65	0.12	15	7.6	0.5	1	15	777	791	777	794	0.89
19	65	0.12	15	7.6	0.5	1	15	821	835	821	838	0.89
20	65	0.12	15	7.6	0.5	1	15	865	879	865	882	0.89
21	65	0.12	15	7.6	0.5	1	15	909	923	909	926	0.89
22	65	0.12	15	7.6	0.5	1	15	953	967	953	970	0.89
23	65	0.12	15	7.6	0.5	1	15	997	1011	997	1014	0.89
24	65	0.12	15	7.6	0.5	1	15	1041	1055	1041	1058	0.89
25	65	0.12	15	7.6	0.5	1	15	1085	1099	1085	1102	0.89
26	65	0.12	15	7.6	0.5	1	15	1129	1143	1129	1146	0.89
27	65	0.12	15	7.6	0.5	1	15	1173	1187	1173	1190	0.89
28	65	0.12	15	7.6	0.5	1	15	1217	1231	1217	1234	0.89
29	65	0.12	15	7.6	0.5	1	15	1261	1275	1261	1278	0.89
30	65	0.12	15	7.6	0.5	1	15	1305	1319	1305	1322	0.89
31	65	0.12	15	7.6	0.5	1	15	1349	1363	1349	1366	0.89
32	65	0.12	15	7.6	0.5	1	15	1393	1407	1393	1410	0.89
33	65	0.12	15	7.6	0.5	1	15	1437	1451	1437	1454	0.89
34	65	0.12	15	7.6	0.5	1	15	1481	1495	1481	1498	0.89
35	65	0.12	15	7.6	0.5	1	15	1525	1539	1525	1542	0.89
36	65	0.12	15	7.6	0.5	1	15	1569	1583	1569	1586	0.89
37	65	0.12	15	7.6	0.5	1	15	1613	1627	1613	1630	0.89
38	65	0.12	15	7.6	0.5	1	15	1657	1671	1657	1674	0.89
39	65	0.12	15	7.6	0.5	1	15	1701	1715	1701	1718	0.89
40	65	0.12	15	7.6	0.5	1	15	1745	1759	1745	1762	0.89
41	65	0.12	15	7.6	0.5	1	15	1789	1803	1789	1806	0.89
42	65	0.12	15	7.6	0.5	1	15	1833	1847	1833	1850	0.89
43	65	0.12	15	7.6	0.5	1	15	1877	1891	1877	1894	0.89
44	65	0.12	15	7.6	0.5	1	15	1921	1935	1921	1938	0.89
45	65	0.12	15	7.6	0.5	1	15	1965	1979	1965	1982	0.89
46	65	0.12	15	7.6	0.5	1	15	2009	2023	2009	2026	0.89
47	65	0.12	15	7.6	0.5	1	15	2053	2067	2053	2070	0.89
48	65	0.12	15	7.6	0.5	1	15	2097	2111	2097	2114	0.89
49	65	0.12	15	7.6	0.5	1	15	2141	2155	2141	2158	0.89
50	65	0.12	15	7.6	0.5	1	15	2185	2199	2185	2202	0.89
51	65	0.12	15	7.6	0.5	1	15	2229	2243	2229	2246	0.89
52	65	0.12	15	7.6	0.5	1	15	2273	2287	2273	2290	0.89
53	65	0.12	15	7.6	0.5	1	15	2317	2331	2317	2334	0.89
54	65	0.12	15	7.6	0.5	1	15	2361	2375	2361	2378	0.89
55	65	0.52	65	5.6	0.4	1	12	2405	2416	2405	2421	0.87
56	65	0.12	15	7.6	0.5	1	15	2449	2463	2449	2466	0.89
57	65	0.12	15	7.6	0.5	1	15	2493	2507	2493	2510	0.89
58	65	0.12	15	7.6	0.5	1	15	2537	2551	2537	2554	0.89
59	65	0.12	15	7.6	0.5	1	15	2581	2595	2581	2598	0.89
60	65	0.12	15	7.6	0.5	1	15	2625	2639	2625	2642	0.89
61	65	0.12	15	7.6	0.5	1	15	2669	2683	2669	2686	0.89
62	65	0.12	15	7.6	0.5	1	15	2713	2727	2713	2730	0.89
63	65	0.12	15	7.6	0.5	1	15	2757	2771	2757	2774	0.89
64	65	0.12	15	7.6	0.5	1	15	2801	2815	2801	2818	0.89
65	65	0.2	25	6.9	1.6	1	19	2845	2863	2845	2865	0.86

Sequence Information

Coding Sequence: atgtataaatggtgtattatcctgtctggtactgtcaaatattttgataggcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacacttgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctataatgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatattgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcaggtatagtgctaacactcgcttatataaacatcactctatactgaaacaatacaagagtgtgcgggagcactacaagaagcaacacctcgcgctcagccaacacgtgtgtgagcactgccgcaagacgttcagTGGAAAGTCGGCGTCGCTCAGACACACTACATTTGCTAAAATCAAAGATCACGTTTACATTGCCCCAGAATATCAAGCCAAACCTTAA
Protein Sequence: MYKWCIILSGTVKYFDRHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTCLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSIMKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYIANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFRYSANTRLYKHHSILKQYKSVREHYKKQHLALSQHVCEHCRKTFSGKSASLRHTTFAKIKDHVYIAPEYQAKP*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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