Basic Information

Insect: Epinotia bilunana
Gene Symbol: Hnf4
Assembly: GCA_947049265.1
Location: CAMRIQ010000274.1:930118-954640[-]

Transcription Factor Domain

TF Family: RXR-like
Domain: zf-C4|RXR-like
PFAM: AnimalTFDB
TF Group: Zinc-Coordinating Group
Description: DNA-binding domain of retinoid X receptor (RXR) is composed of two C4-type zinc fingers. Each zinc finger contains a group of four Cys residues which co-ordinates a single zinc atom. RXR functions as a DNA binding partner by forming heterodimers with other nuclear receptors including CAR, FXR, LXR, PPAR, PXR, RAR, TR, and VDR. All RXR heterodimers preferentially bind response elements composed of direct repeats of two AGGTCA sites with a 1-5 bp spacer. RXRs can play different roles in these heterodimers. RXR acts either as a structural component of the heterodimer complex, required for DNA binding but not acting as a receptor, or as both a structural and a functional component of the heterodimer, allowing 9-cis RA to signal through the corresponding heterodimer. In addition, RXR can also form homodimers, functioning as a receptor for 9-cis RA, independently of other nuclear receptors. Like other members of the nuclear receptor (NR) superfamily of ligand-activated transcription factors, RXR has a central well conserved DNA binding domain (DBD), a variable N-terminal domain, a flexible hinge and a C-terminal ligand binding domain (LBD). [cite:PUB00121610], [cite:PUB00121611], [cite:PUB00121612], [cite:PUB00025660], [cite:PUB00121613], [cite:PUB00092048], [cite:PUB00092725], [cite:PUB00092726], [cite:PUB00016724], [cite:PUB00059514PMID:18971932
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 51 3.5e-21 1.8e-17 65.0 0.1 1 70 224 292 224 304 0.93

2 51 0.047 2.4e+02 2.5 0.0 39 70 306 336 301 348 0.87

3 51 0.049 2.4e+02 2.5 0.0 39 70 350 380 345 391 0.87

4 51 0.047 2.3e+02 2.6 0.0 39 70 394 424 391 438 0.86

5 51 0.046 2.3e+02 2.6 0.0 39 70 438 468 433 481 0.86

6 51 0.045 2.3e+02 2.6 0.0 39 70 482 512 473 525 0.87

7 51 0.047 2.3e+02 2.5 0.0 39 70 526 556 522 569 0.86

8 51 0.047 2.3e+02 2.6 0.0 39 70 570 600 566 613 0.86

9 51 0.046 2.3e+02 2.6 0.0 39 70 614 644 609 657 0.86

10 51 0.048 2.4e+02 2.5 0.0 39 70 658 688 655 701 0.86

11 51 0.047 2.3e+02 2.5 0.0 39 70 702 732 698 745 0.86

12 51 0.048 2.4e+02 2.5 0.0 39 70 746 776 743 789 0.86

13 51 0.047 2.3e+02 2.5 0.0 39 70 790 820 786 833 0.86

14 51 0.045 2.3e+02 2.6 0.0 39 70 834 864 830 878 0.86

15 51 0.046 2.3e+02 2.6 0.0 39 70 878 908 873 921 0.86

16 51 0.044 2.2e+02 2.6 0.0 39 70 922 952 917 966 0.86

17 51 0.038 1.9e+02 2.8 0.1 39 70 966 996 963 1015 0.82

18 51 0.051 2.5e+02 2.4 0.0 39 70 1010 1040 1007 1051 0.87

19 51 0.048 2.4e+02 2.5 0.0 39 70 1054 1084 1050 1096 0.86

20 51 0.047 2.3e+02 2.5 0.0 39 70 1098 1128 1094 1141 0.86

21 51 0.049 2.5e+02 2.5 0.0 39 70 1142 1172 1139 1184 0.86

22 51 0.046 2.3e+02 2.6 0.0 39 70 1186 1216 1181 1229 0.86

23 51 0.047 2.3e+02 2.5 0.0 39 70 1230 1260 1226 1273 0.86

24 51 0.047 2.3e+02 2.5 0.0 39 70 1274 1304 1270 1317 0.86

25 51 0.049 2.4e+02 2.5 0.0 39 70 1318 1348 1313 1359 0.87

26 51 0.048 2.4e+02 2.5 0.0 39 70 1362 1392 1359 1405 0.86

27 51 0.051 2.6e+02 2.4 0.0 39 70 1406 1436 1402 1446 0.87

28 51 0.051 2.6e+02 2.4 0.0 39 70 1450 1480 1447 1491 0.87

29 51 0.048 2.4e+02 2.5 0.0 39 70 1494 1524 1491 1537 0.86

30 51 0.045 2.3e+02 2.6 0.0 39 70 1538 1568 1534 1582 0.86

31 51 0.046 2.3e+02 2.6 0.0 39 70 1582 1612 1577 1625 0.86

32 51 0.047 2.4e+02 2.5 0.0 39 70 1626 1656 1621 1668 0.87

33 51 0.048 2.4e+02 2.5 0.0 39 70 1670 1700 1667 1713 0.86

34 51 0.046 2.3e+02 2.6 0.0 39 70 1714 1744 1709 1757 0.86

35 51 0.046 2.3e+02 2.6 0.0 39 70 1758 1788 1753 1801 0.86

36 51 0.046 2.3e+02 2.6 0.0 39 70 1802 1832 1797 1845 0.86

37 51 0.046 2.3e+02 2.6 0.0 39 70 1846 1876 1841 1889 0.86

38 51 0.047 2.4e+02 2.5 0.0 39 70 1890 1920 1885 1932 0.87

39 51 0.047 2.3e+02 2.6 0.0 39 70 1934 1964 1931 1978 0.86

40 51 0.048 2.4e+02 2.5 0.0 39 70 1978 2008 1974 2020 0.86

41 51 0.048 2.4e+02 2.5 0.0 39 70 2022 2052 2019 2065 0.86

42 51 0.048 2.4e+02 2.5 0.0 39 70 2066 2096 2063 2109 0.86

43 51 0.049 2.5e+02 2.5 0.0 39 70 2110 2140 2107 2152 0.86

44 51 0.018 89 3.9 0.0 39 70 2154 2184 2149 2199 0.86

45 51 0.047 2.3e+02 2.5 0.0 39 70 2198 2228 2194 2241 0.86

46 51 0.047 2.4e+02 2.5 0.0 39 70 2242 2272 2237 2284 0.87

47 51 0.047 2.4e+02 2.5 0.0 39 70 2286 2316 2281 2328 0.87

48 51 0.046 2.3e+02 2.6 0.0 39 70 2330 2360 2325 2373 0.86

49 51 0.046 2.3e+02 2.6 0.0 39 70 2374 2404 2369 2417 0.86

50 51 0.046 2.3e+02 2.6 0.0 39 70 2418 2448 2413 2461 0.86

51 51 9.7e-45 4.9e-41 141.9 0.0 39 196 2462 2616 2458 2620 0.93

#	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	51	3.5e-21	1.8e-17	65.0	0.1	1	70	224	292	224	304	0.93
2	51	0.047	2.4e+02	2.5	0.0	39	70	306	336	301	348	0.87
3	51	0.049	2.4e+02	2.5	0.0	39	70	350	380	345	391	0.87
4	51	0.047	2.3e+02	2.6	0.0	39	70	394	424	391	438	0.86
5	51	0.046	2.3e+02	2.6	0.0	39	70	438	468	433	481	0.86
6	51	0.045	2.3e+02	2.6	0.0	39	70	482	512	473	525	0.87
7	51	0.047	2.3e+02	2.5	0.0	39	70	526	556	522	569	0.86
8	51	0.047	2.3e+02	2.6	0.0	39	70	570	600	566	613	0.86
9	51	0.046	2.3e+02	2.6	0.0	39	70	614	644	609	657	0.86
10	51	0.048	2.4e+02	2.5	0.0	39	70	658	688	655	701	0.86
11	51	0.047	2.3e+02	2.5	0.0	39	70	702	732	698	745	0.86
12	51	0.048	2.4e+02	2.5	0.0	39	70	746	776	743	789	0.86
13	51	0.047	2.3e+02	2.5	0.0	39	70	790	820	786	833	0.86
14	51	0.045	2.3e+02	2.6	0.0	39	70	834	864	830	878	0.86
15	51	0.046	2.3e+02	2.6	0.0	39	70	878	908	873	921	0.86
16	51	0.044	2.2e+02	2.6	0.0	39	70	922	952	917	966	0.86
17	51	0.038	1.9e+02	2.8	0.1	39	70	966	996	963	1015	0.82
18	51	0.051	2.5e+02	2.4	0.0	39	70	1010	1040	1007	1051	0.87
19	51	0.048	2.4e+02	2.5	0.0	39	70	1054	1084	1050	1096	0.86
20	51	0.047	2.3e+02	2.5	0.0	39	70	1098	1128	1094	1141	0.86
21	51	0.049	2.5e+02	2.5	0.0	39	70	1142	1172	1139	1184	0.86
22	51	0.046	2.3e+02	2.6	0.0	39	70	1186	1216	1181	1229	0.86
23	51	0.047	2.3e+02	2.5	0.0	39	70	1230	1260	1226	1273	0.86
24	51	0.047	2.3e+02	2.5	0.0	39	70	1274	1304	1270	1317	0.86
25	51	0.049	2.4e+02	2.5	0.0	39	70	1318	1348	1313	1359	0.87
26	51	0.048	2.4e+02	2.5	0.0	39	70	1362	1392	1359	1405	0.86
27	51	0.051	2.6e+02	2.4	0.0	39	70	1406	1436	1402	1446	0.87
28	51	0.051	2.6e+02	2.4	0.0	39	70	1450	1480	1447	1491	0.87
29	51	0.048	2.4e+02	2.5	0.0	39	70	1494	1524	1491	1537	0.86
30	51	0.045	2.3e+02	2.6	0.0	39	70	1538	1568	1534	1582	0.86
31	51	0.046	2.3e+02	2.6	0.0	39	70	1582	1612	1577	1625	0.86
32	51	0.047	2.4e+02	2.5	0.0	39	70	1626	1656	1621	1668	0.87
33	51	0.048	2.4e+02	2.5	0.0	39	70	1670	1700	1667	1713	0.86
34	51	0.046	2.3e+02	2.6	0.0	39	70	1714	1744	1709	1757	0.86
35	51	0.046	2.3e+02	2.6	0.0	39	70	1758	1788	1753	1801	0.86
36	51	0.046	2.3e+02	2.6	0.0	39	70	1802	1832	1797	1845	0.86
37	51	0.046	2.3e+02	2.6	0.0	39	70	1846	1876	1841	1889	0.86
38	51	0.047	2.4e+02	2.5	0.0	39	70	1890	1920	1885	1932	0.87
39	51	0.047	2.3e+02	2.6	0.0	39	70	1934	1964	1931	1978	0.86
40	51	0.048	2.4e+02	2.5	0.0	39	70	1978	2008	1974	2020	0.86
41	51	0.048	2.4e+02	2.5	0.0	39	70	2022	2052	2019	2065	0.86
42	51	0.048	2.4e+02	2.5	0.0	39	70	2066	2096	2063	2109	0.86
43	51	0.049	2.5e+02	2.5	0.0	39	70	2110	2140	2107	2152	0.86
44	51	0.018	89	3.9	0.0	39	70	2154	2184	2149	2199	0.86
45	51	0.047	2.3e+02	2.5	0.0	39	70	2198	2228	2194	2241	0.86
46	51	0.047	2.4e+02	2.5	0.0	39	70	2242	2272	2237	2284	0.87
47	51	0.047	2.4e+02	2.5	0.0	39	70	2286	2316	2281	2328	0.87
48	51	0.046	2.3e+02	2.6	0.0	39	70	2330	2360	2325	2373	0.86
49	51	0.046	2.3e+02	2.6	0.0	39	70	2374	2404	2369	2417	0.86
50	51	0.046	2.3e+02	2.6	0.0	39	70	2418	2448	2413	2461	0.86
51	51	9.7e-45	4.9e-41	141.9	0.0	39	196	2462	2616	2458	2620	0.93

Sequence Information

Coding Sequence: ATGCCAGTGTTTGGTTACGACATGTTGACATCGTCTGAGCTCTGCCCCATGGGGTACGGTACGGCGCCGGACTACATGATGCCGGGACCTACCATGACCTGGGACAAGCCTCAGGAGAGGTCGCCCTACAGTTTCCCACATAGAAGCCTCACGGAAGAGCTGAGCCGCCCGCCCATGGCGACCGCATACAATAACACAAGTGGAGACAGCGACATGCAGCTAGAGACGAGCAGCAGCGAGGCGAGCGCCGGCAGCTCCGTGGCGTTGTCGCAGCACTGCGCCATCTGCGGCGACCGCGCCACCGGCAAGCACTACGGCGCGTCCTCCTGCGACGGCTGCAAGGGCTTCTTCCGGCGCAGCGTGCGCAAGAACCACCTCTATACCTGCAGATTCAGCAGAAATTGCGTAGTGGATAAGGACAAAAGAAACCAATGCAGATATTGTAGGCTAAGGAAATGCTTCAAAGCTGGCATGAAGAAAGAAGCCGTCCAGAACGAGCGGGACCGCATCAACTGCCGCCGGCCGTCGTACGAGGAGCCGGCGCAGGCCAACGGGCTCTCCGTCGTGTCGCTGCTCAACGCCGAGCTGCTCAGCAGGAAGGTCATAGACGAGACCATCAACGTGTCGGACGCGGAGATCAACAACAGGAAGCTGGCGAAGATCAACGACGTGTGCGACTCCATCAAACAGCAGCTGCTCATCCTCGTGGAGTGGGCCAAGTACATCCCCGCCTTCACCGAGCTGCATCTTGATGACCAGGTggcgctgctgcgcgcgcacgcgggcgagcacctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACCTGCTGCTGGGCTTCGCGCGCCGCTCGCTGCACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGCATCATCGCCAAACACAACATCGGTCAGTATCAATCCTGCTCTGTCTGTTCAACACGCGCCGAGCACctgctgctgggctgcgcgcgccgctcgctgcACCTCAAGGACGTGCTGCTGCTCGGGAACAACTGTATCATCGCCAAACACAACATCGACGGGCGCATGGACATAGACATCAGCATGATAGGTCTGCGCGTGATGGACGAGATAGTGAAGCCGCTGCGCGAGATCGACATCGACGACACGGAGTTCGCCTGCCTCAAGGCCATCGTCTTCTTCGACCCCAACGCAAAGGGTCTATCTCAGCCGCAAAAGATCAAGCAGCTCCGCTACCAAGTGCAGATCAACCTTGAGGACTACATCAGCGACCGCCAGTACGACGGGCGCGGCCGCTTCGGGGAGCTGCTGCTGAGTCTGCCGCCGCTGCAGAGCATCACGTGGCAGATGATCGAGCAGATACAGTTCGCCAAGCTGTTCGGCGTCGCGCACATTGATAGCTTGCTGCAGGAGATGCTGCTCGGAGGCGCGTGTGCCGAGCCGCCGACGGAGAGCGGCGCGGGCGAGTCTccgggcgcgggagcgggagcgggagcgggcgcgggcgcgcagGCGTCGCCGCCGCTCGTGCCGCAGCTTCCCGACGCCGACATGTTCGAGTCCGCGTCCTTCAAGCAGGAGCCCAACATGAGCCCTGAGCACTCGTCGCGGTTAATGAAGAGTGGCAACATAATCTTGTTATAA
Protein Sequence: MPVFGYDMLTSSELCPMGYGTAPDYMMPGPTMTWDKPQERSPYSFPHRSLTEELSRPPMATAYNNTSGDSDMQLETSSSEASAGSSVALSQHCAICGDRATGKHYGASSCDGCKGFFRRSVRKNHLYTCRFSRNCVVDKDKRNQCRYCRLRKCFKAGMKKEAVQNERDRINCRRPSYEEPAQANGLSVVSLLNAELLSRKVIDETINVSDAEINNRKLAKINDVCDSIKQQLLILVEWAKYIPAFTELHLDDQVALLRAHAGEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGFARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIGQYQSCSVCSTRAEHLLLGCARRSLHLKDVLLLGNNCIIAKHNIDGRMDIDISMIGLRVMDEIVKPLREIDIDDTEFACLKAIVFFDPNAKGLSQPQKIKQLRYQVQINLEDYISDRQYDGRGRFGELLLSLPPLQSITWQMIEQIQFAKLFGVAHIDSLLQEMLLGGACAEPPTESGAGESPGAGAGAGAGAGAQASPPLVPQLPDADMFESASFKQEPNMSPEHSSRLMKSGNIILL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00656235;
90% Identity: iTF_00656235;
80% Identity: iTF_00656235;