Basic Information

Insect: Epinotia nisella
Gene Symbol: Ets97D
Assembly: GCA_932294385.1
Location: CAKOAM010000348.1:5973314-6006656[+]

Transcription Factor Domain

TF Family: ETS
Domain: Ets domain
PFAM: PF00178
TF Group: Helix-turn-helix
Description: Transcription factors are protein molecules that bind to specific DNA sequences in the genome, resulting in the induction or inhibition of gene transcription [3]. The ets oncogene is such a factor, possessing a region of 85-90 amino acids known as the ETS (erythroblast transformation specific) domain [3, 5, 4]. This domain is rich in positively-charged and aromatic residues, and binds to purine-rich segments of DNA. The ETS domain has been identified in other transcription factors such as PU.1, human erg, human elf-1, human elk-1, GA binding protein, and a number of others [3, 5, 2]. It is generally localized at the C terminus of the protein, with the exception of ELF-1, ELK-1, ELK-3, ELK-4 and ERF where it is found at the N terminus. NMR-analysis of the structure of the Ets domains revealed that it contains three α-helices (1-3) and four-stranded β-sheets (1-4) arranged in the order α1-β1-β2-α2-α3-β3-β4 forming a winged helix-turn-helix (wHTH) topology [1]. The third α-helix is responsive to contact to the major groove of the DNA. Different members of the Ets family proteins display distinct DNA binding specificities. The Ets domains and the flanking amino acid sequences of the proteins influence the binding affinity, and the alteration of a single amino acid in the Ets domain can change its DNA binding specificities.
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 46 3.8e-06 0.0094 16.7 0.2 1 25 556 580 556 583 0.91

2 46 3.6e-05 0.09 13.6 0.2 1 25 587 612 587 615 0.80

3 46 1.4e-06 0.0036 18.1 0.1 1 38 619 655 619 660 0.86

4 46 3.8e-06 0.0094 16.7 0.2 1 25 695 719 695 722 0.91

5 46 3.8e-06 0.0094 16.7 0.2 1 25 726 750 726 753 0.91

6 46 4.1e-31 1e-27 96.7 0.0 1 76 757 831 757 833 0.97

7 46 2.2e-19 5.4e-16 59.1 0.0 24 76 829 881 828 882 0.95

8 46 2.2e-19 5.5e-16 59.1 0.1 24 76 879 931 878 932 0.95

9 46 2.2e-19 5.5e-16 59.1 0.1 24 76 929 981 928 982 0.95

10 46 3.2e-19 8e-16 58.6 0.1 25 76 980 1031 979 1032 0.95

11 46 6.1e-20 1.5e-16 60.9 0.1 24 78 1029 1083 1028 1086 0.94

12 46 2.2e-19 5.5e-16 59.1 0.0 21 76 1091 1143 1084 1144 0.94

13 46 1.8e-19 4.5e-16 59.4 0.0 24 76 1141 1193 1139 1194 0.95

14 46 1.9e-19 4.8e-16 59.3 0.0 24 75 1191 1242 1189 1244 0.95

15 46 3.4e-17 8.6e-14 52.1 0.3 34 76 1244 1286 1242 1287 0.96

16 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1284 1336 1283 1337 0.95

17 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1334 1386 1333 1387 0.95

18 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1384 1436 1383 1437 0.95

19 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1434 1486 1433 1487 0.95

20 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1484 1536 1483 1537 0.95

21 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1534 1586 1533 1587 0.95

22 46 2.1e-19 5.3e-16 59.2 0.1 24 76 1584 1636 1583 1638 0.96

23 46 1.8e-19 4.5e-16 59.4 0.1 24 76 1634 1686 1632 1687 0.95

24 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1684 1736 1683 1737 0.95

25 46 1.8e-19 4.5e-16 59.4 0.1 24 76 1734 1786 1732 1787 0.95

26 46 1.8e-19 4.5e-16 59.4 0.1 24 76 1784 1836 1782 1837 0.95

27 46 1.8e-19 4.5e-16 59.4 0.0 24 76 1834 1886 1832 1887 0.95

28 46 3.2e-19 8e-16 58.6 0.1 25 76 1885 1936 1884 1937 0.95

29 46 1.8e-19 4.5e-16 59.4 0.1 24 76 1934 1986 1932 1987 0.95

30 46 2.2e-19 5.5e-16 59.1 0.1 24 76 1984 2036 1983 2037 0.95

31 46 6.1e-20 1.5e-16 60.9 0.1 24 78 2034 2088 2033 2091 0.94

32 46 2.1e-19 5.3e-16 59.2 0.0 21 76 2096 2148 2088 2149 0.93

33 46 1.8e-19 4.5e-16 59.4 0.0 24 76 2146 2198 2144 2199 0.95

34 46 3.1e-19 7.8e-16 58.6 0.1 25 76 2197 2248 2196 2250 0.95

35 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2246 2298 2245 2299 0.95

36 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2296 2348 2295 2349 0.95

37 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2346 2398 2345 2399 0.95

38 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2396 2448 2395 2449 0.95

39 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2446 2498 2445 2499 0.95

40 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2496 2548 2495 2549 0.95

41 46 3.6e-21 8.9e-18 64.9 0.1 24 76 2546 2598 2545 2599 0.96

42 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2596 2648 2595 2649 0.95

43 46 3.2e-19 8e-16 58.6 0.1 25 76 2647 2698 2646 2699 0.95

44 46 2.2e-19 5.5e-16 59.1 0.1 24 76 2696 2748 2695 2749 0.95

45 46 1.8e-19 4.5e-16 59.4 0.0 24 76 2746 2798 2744 2799 0.95

46 46 5.1e-23 1.3e-19 70.8 0.2 24 81 2796 2853 2795 2853 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	46	3.8e-06	0.0094	16.7	0.2	1	25	556	580	556	583	0.91
2	46	3.6e-05	0.09	13.6	0.2	1	25	587	612	587	615	0.80
3	46	1.4e-06	0.0036	18.1	0.1	1	38	619	655	619	660	0.86
4	46	3.8e-06	0.0094	16.7	0.2	1	25	695	719	695	722	0.91
5	46	3.8e-06	0.0094	16.7	0.2	1	25	726	750	726	753	0.91
6	46	4.1e-31	1e-27	96.7	0.0	1	76	757	831	757	833	0.97
7	46	2.2e-19	5.4e-16	59.1	0.0	24	76	829	881	828	882	0.95
8	46	2.2e-19	5.5e-16	59.1	0.1	24	76	879	931	878	932	0.95
9	46	2.2e-19	5.5e-16	59.1	0.1	24	76	929	981	928	982	0.95
10	46	3.2e-19	8e-16	58.6	0.1	25	76	980	1031	979	1032	0.95
11	46	6.1e-20	1.5e-16	60.9	0.1	24	78	1029	1083	1028	1086	0.94
12	46	2.2e-19	5.5e-16	59.1	0.0	21	76	1091	1143	1084	1144	0.94
13	46	1.8e-19	4.5e-16	59.4	0.0	24	76	1141	1193	1139	1194	0.95
14	46	1.9e-19	4.8e-16	59.3	0.0	24	75	1191	1242	1189	1244	0.95
15	46	3.4e-17	8.6e-14	52.1	0.3	34	76	1244	1286	1242	1287	0.96
16	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1284	1336	1283	1337	0.95
17	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1334	1386	1333	1387	0.95
18	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1384	1436	1383	1437	0.95
19	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1434	1486	1433	1487	0.95
20	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1484	1536	1483	1537	0.95
21	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1534	1586	1533	1587	0.95
22	46	2.1e-19	5.3e-16	59.2	0.1	24	76	1584	1636	1583	1638	0.96
23	46	1.8e-19	4.5e-16	59.4	0.1	24	76	1634	1686	1632	1687	0.95
24	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1684	1736	1683	1737	0.95
25	46	1.8e-19	4.5e-16	59.4	0.1	24	76	1734	1786	1732	1787	0.95
26	46	1.8e-19	4.5e-16	59.4	0.1	24	76	1784	1836	1782	1837	0.95
27	46	1.8e-19	4.5e-16	59.4	0.0	24	76	1834	1886	1832	1887	0.95
28	46	3.2e-19	8e-16	58.6	0.1	25	76	1885	1936	1884	1937	0.95
29	46	1.8e-19	4.5e-16	59.4	0.1	24	76	1934	1986	1932	1987	0.95
30	46	2.2e-19	5.5e-16	59.1	0.1	24	76	1984	2036	1983	2037	0.95
31	46	6.1e-20	1.5e-16	60.9	0.1	24	78	2034	2088	2033	2091	0.94
32	46	2.1e-19	5.3e-16	59.2	0.0	21	76	2096	2148	2088	2149	0.93
33	46	1.8e-19	4.5e-16	59.4	0.0	24	76	2146	2198	2144	2199	0.95
34	46	3.1e-19	7.8e-16	58.6	0.1	25	76	2197	2248	2196	2250	0.95
35	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2246	2298	2245	2299	0.95
36	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2296	2348	2295	2349	0.95
37	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2346	2398	2345	2399	0.95
38	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2396	2448	2395	2449	0.95
39	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2446	2498	2445	2499	0.95
40	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2496	2548	2495	2549	0.95
41	46	3.6e-21	8.9e-18	64.9	0.1	24	76	2546	2598	2545	2599	0.96
42	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2596	2648	2595	2649	0.95
43	46	3.2e-19	8e-16	58.6	0.1	25	76	2647	2698	2646	2699	0.95
44	46	2.2e-19	5.5e-16	59.1	0.1	24	76	2696	2748	2695	2749	0.95
45	46	1.8e-19	4.5e-16	59.4	0.0	24	76	2746	2798	2744	2799	0.95
46	46	5.1e-23	1.3e-19	70.8	0.2	24	81	2796	2853	2795	2853	0.97

Sequence Information

Coding Sequence: ATGGAGGTGACAGATTTGAACGATCTTTTAAATGTTCGCACAATCAAAATGGAAAGTGTAGAAAATGCGTTTGACGAAGCTACAGGCGGGGTGGACGCCTCGGATCCTCTTTCTGTGATTCCTCAGTACGTTACAGAGTCAGAATTAGGGCTGATGCAGTCCGGAGTGGAGATCCTGCAAGCTCCTCTGGCCGTGTTTGAAGATGCTGTGGATGATGATGACACTATGCAGAGCAATGATTCCAGCGAGGAGGTGATAGTCCAACTGATGGACATCCGCACTCGACTGTCCAAGCTGCGGAGCTTGCTCGAGCGGAGGCTGGGGGTCGACCTGTCCGACTACACCTTCTGGCTCCAAGATGCTAAGATGCTGGAACCGCACAAGACTCTAGTAGAGCAATGCATCCGCGGCGAGGGCATCGTGCAGGTCAACGTTCAGGTGAAAGCCGCGGAGAGGAAGATCAACATACTGGACGTACTGAAACCCGACGAGGAGTTGGTGGCGTTGCCTACGCCCGTCCCGGAGTTGGAAGAGGTGGTGGAAGAGCCCGTGTGCGAGCGCGAGGCGCCTCACGCGGCCGCCGTCAAGTGGGTGGTGGACGCGGGCTTTAAGGCGCACCACAGCCGCGCCAGCATACCCGACGACCCCGCCGACTGTATCCGACAAGCCGTCAAGTGGGTGGTGGACGCGGGCTTTAAGGCGCACCACAGCCGCGCCAGCATACCCGACGACCCCGCCGACTGGTCAGTGCAACACGTCAAGCTCTGGATCCAGTGGGCGGTGAGGCAGTTTAACCTGACTGGAGTCAGGTTGTCCGACTGGCACATCAGTGGGTGGACCCTGTGCGCGCTCACCAATCTAGACTTCAAAGAAAAAGTCCCGTCGGACCCCGGGGACTTGTTTTGGACACACTTCGAACTCAACCGACCGACCCGCCGCGAGCGCATAGAAATCCGGTTAGCTGATGACGACGTCGACGCGCACGCGCAGGCGACGCGACAGCGACCGCTGCGCGACCGCCGCGCGACCACTTCACCTCGCATGGAGGTAGAAGAGAAGAAGACAGAACCTCATAATGAGACTAAGACAGTTGAGGTAGGGTGTCAAAGTTCAGTGGGAGATGAGAGCACCAGAACTTTGATGCAGTCTTCAGATGATTCATACACCCCAAGCGAGGATGAAGATGCAGACACCACATCCGATAGTGTTTCTGTGAAGAACGGACCTATCTTAAGAGCACCAGAGCAGagaaaagtacctgaaagCAACCGACCGACCCGCCGCGAGCGCATAGAAATCCGGTTAGCTGATGACGACGTCGACGCGCACGCGCAGGCGACGCGACAGCGGCTAACCGGATTTCTATGCGCTCGCGGCGGCAACCGACCGACCCGCCGCGAGCGCATAGAAATCCGGTTAGCTGATGACGACGTCGACGCGCACGCGCAGGCGACGCGACAGCGACCGCTGCGCGACCGCCGCGCGACCACTTCACCTCGCGTACCGCACCCGGTGGTACAGACCAATAACCATAGCCCACAGAAGGACCCGCTGGAAATGGCGCAGTCGGCCATCAAGAAACGCCCTAAAATGCAAGTAATCCACACATACACGGACGAAGAGGCAACATTCGCACACACACGCAACGGCAACAACGGCCAAGTGCAGCTGTGGCAGTTCCTGCTGGAGCTGCTGACCAGCGCCGAGCACCTGGACGTCATCCGGTGGCACGGTAACACACGTCACACTAGACCAGCTCAGCTGTGGCAGTTCCTGCTGGAGCTGCTGCTGACCAGCGCCGAGCACCTGGACGTCATCCGGTGGCACGGTAACACACGTCACACTAGACCAGCTCAGCTGTGGCAGTTCCTGCTGGAGCTGCTGACCAGCGCCGAGCACCTGGACGTCATCCGGTGGCATGCGTCGAAGTGGATAGCGGACTGCCAGAGGTCGCGGCAAGTAGCCGCGGGCGCATGTCGATCGGGCGTGACGTCACAATGCACCGCGTTGGAGCGCGCAGGAGCACTGGAGTCGACACGGCCGGCAATGGTGAATATTGTGTCGGTTGTAACTAGACCAGCTCAGCTGTGGCAGTTCCTGCTGGAGCTGCTGACCAGCGCCGAGCACCTGGACGTCATCCGGTGGCACGGTAACACACGTCACACTAGACCAGCTCAGCTGTGGCAGTTCCTGCTGGAGCTGCTGACCAGCGCCGAGCACCTGGACGTCATCCGGTGGCATGGTAACACACGTCACACTAGACCAGCTCAGCTGTGGCAGTTCCTGCTGGAGCTGCTGACCAGCGCCGAGCACCTGGACGTCATCCGGTGGCACGGCGCCGAGGGCGAGTTTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGTACACACACATGTCTGTCTGTCTGTCTGGGTTAAGGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCACCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGTACACACACATGTCTGTCTGTCTGTCTGGGTTAAGGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTTTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTCAGGCGAGTGTAAGCTACTAGAGCCGGAGCGAGTGGCTCGACTGTGGGGCGCGCGCAAACACAAGCCGGCCATGAACTACGAGAAGCTGTCCCGCGCGCTGCGGTACTACTACGACGGGGACATGATCGCTAAAGTGGCCGGGAAACGGTTCGTGTACAAGTTCGTGTGCGACTTGCAGCAGCTGCTCGGCTACGGCGCGGGCGAGCTGGCCGAGCTGGTTCAGGAGGTGCACGAGAACAGACAGACGCACGAAGAGGACCTCTAG
Protein Sequence: MEVTDLNDLLNVRTIKMESVENAFDEATGGVDASDPLSVIPQYVTESELGLMQSGVEILQAPLAVFEDAVDDDDTMQSNDSSEEVIVQLMDIRTRLSKLRSLLERRLGVDLSDYTFWLQDAKMLEPHKTLVEQCIRGEGIVQVNVQVKAAERKINILDVLKPDEELVALPTPVPELEEVVEEPVCEREAPHAAAVKWVVDAGFKAHHSRASIPDDPADCIRQAVKWVVDAGFKAHHSRASIPDDPADWSVQHVKLWIQWAVRQFNLTGVRLSDWHISGWTLCALTNLDFKEKVPSDPGDLFWTHFELNRPTRRERIEIRLADDDVDAHAQATRQRPLRDRRATTSPRMEVEEKKTEPHNETKTVEVGCQSSVGDESTRTLMQSSDDSYTPSEDEDADTTSDSVSVKNGPILRAPEQRKVPESNRPTRRERIEIRLADDDVDAHAQATRQRLTGFLCARGGNRPTRRERIEIRLADDDVDAHAQATRQRPLRDRRATTSPRVPHPVVQTNNHSPQKDPLEMAQSAIKKRPKMQVIHTYTDEEATFAHTRNGNNGQVQLWQFLLELLTSAEHLDVIRWHGNTRHTRPAQLWQFLLELLLTSAEHLDVIRWHGNTRHTRPAQLWQFLLELLTSAEHLDVIRWHASKWIADCQRSRQVAAGACRSGVTSQCTALERAGALESTRPAMVNIVSVVTRPAQLWQFLLELLTSAEHLDVIRWHGNTRHTRPAQLWQFLLELLTSAEHLDVIRWHGNTRHTRPAQLWQFLLELLTSAEHLDVIRWHGAEGEFKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSVHTHVCLSVWVKGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSVHTHVCLSVWVKGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGEFKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRSGECKLLEPERVARLWGARKHKPAMNYEKLSRALRYYYDGDMIAKVAGKRFVYKFVCDLQQLLGYGAGELAELVQEVHENRQTHEEDL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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