Basic Information

Insect: Ephialtes manifestator
Gene Symbol: -
Assembly: GCA_963970395.1
Location: OZ019968.1:43663588-43670952[-]

Transcription Factor Domain

TF Family: TF_bZIP
Domain: bZIP domain
PFAM: AnimalTFDB
TF Group: Basic Domians group
Description: bZIP proteins are homo- or heterodimers that contain highly basic DNA binding regions adjacent to regions of α-helix that fold together as coiled coils
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 44 4.1 8.4e+03 -1.7 0.2 31 57 62 88 57 93 0.66

2 44 0.86 1.8e+03 0.5 0.3 41 62 110 131 104 134 0.63

3 44 3.5 7.2e+03 -1.5 0.5 37 56 158 177 148 183 0.64

4 44 0.00097 2 9.9 0.3 30 58 223 251 214 254 0.86

5 44 3.2 6.7e+03 -1.4 0.0 34 64 297 327 295 328 0.89

6 44 0.047 98 4.5 1.0 29 53 467 491 441 495 0.66

7 44 0.1 2.1e+02 3.4 3.4 28 58 466 496 457 506 0.72

8 44 0.041 85 4.7 6.9 27 60 503 536 481 539 0.85

9 44 7.5e-05 0.15 13.5 0.2 26 60 530 564 528 569 0.89

10 44 0.083 1.7e+02 3.7 0.5 26 61 565 600 563 604 0.91

11 44 0.028 58 5.2 5.8 23 63 597 637 595 646 0.63

12 44 0.24 4.9e+02 2.2 5.8 27 62 643 678 639 679 0.91

13 44 0.00029 0.6 11.6 6.9 23 63 674 714 672 716 0.93

14 44 0.0006 1.2 10.6 4.9 24 64 731 771 724 772 0.91

15 44 0.0055 11 7.5 2.5 30 61 765 796 763 805 0.68

16 44 5.1e-05 0.11 14.0 1.8 31 63 808 840 800 842 0.88

17 44 0.064 1.3e+02 4.1 0.1 37 65 842 870 838 870 0.88

18 44 0.0021 4.4 8.8 1.8 27 63 874 910 871 912 0.90

19 44 0.02 41 5.7 4.0 24 61 913 950 910 961 0.88

20 44 0.4 8.3e+02 1.5 0.3 41 63 972 994 952 996 0.77

21 44 0.27 5.6e+02 2.0 0.9 31 53 976 998 968 1017 0.45

22 44 0.00072 1.5 10.3 0.5 20 62 1049 1091 1043 1094 0.65

23 44 0.0015 3.1 9.3 0.1 24 62 1095 1133 1094 1135 0.92

24 44 1.9 3.9e+03 -0.7 6.2 27 63 1161 1197 1140 1199 0.69

25 44 3.4e-06 0.007 17.8 0.7 29 62 1205 1238 1199 1241 0.90

26 44 0.0058 12 7.4 3.0 24 63 1263 1302 1262 1303 0.95

27 44 0.0063 13 7.3 3.3 26 61 1307 1342 1304 1346 0.85

28 44 0.013 28 6.2 0.2 27 62 1343 1378 1337 1380 0.77

29 44 0.00017 0.35 12.3 0.0 29 62 1394 1427 1389 1428 0.92

30 44 0.027 56 5.3 1.9 39 64 1432 1457 1430 1458 0.92

31 44 2.2 4.5e+03 -0.8 3.7 28 53 1470 1495 1457 1501 0.57

32 44 0.002 4.1 8.9 6.9 26 63 1503 1540 1494 1541 0.93

33 44 0.0069 14 7.2 9.1 28 62 1561 1595 1542 1598 0.78

34 44 0.0082 17 6.9 4.4 27 63 1581 1617 1578 1619 0.84

35 44 2.8 5.9e+03 -1.2 1.8 35 58 1614 1637 1608 1654 0.69

36 44 0.11 2.2e+02 3.3 0.1 28 54 1666 1692 1662 1702 0.82

37 44 0.36 7.5e+02 1.7 0.5 40 63 1706 1729 1692 1731 0.82

38 44 0.0053 11 7.5 5.1 22 59 1737 1774 1729 1779 0.85

39 44 0.0033 6.9 8.2 0.7 22 64 1772 1814 1771 1815 0.91

40 44 2.4 4.9e+03 -1.0 3.4 21 63 1827 1869 1820 1871 0.81

41 44 7.6 1.6e+04 -2.6 6.0 22 63 1870 1911 1869 1928 0.80

42 44 2.8e-05 0.058 14.8 0.3 21 63 1967 2009 1958 2011 0.91

43 44 0.76 1.6e+03 0.6 0.3 27 51 2112 2136 2109 2149 0.77

44 44 1.6 3.3e+03 -0.4 0.4 30 51 2209 2245 2196 2247 0.59

#	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	44	4.1	8.4e+03	-1.7	0.2	31	57	62	88	57	93	0.66
2	44	0.86	1.8e+03	0.5	0.3	41	62	110	131	104	134	0.63
3	44	3.5	7.2e+03	-1.5	0.5	37	56	158	177	148	183	0.64
4	44	0.00097	2	9.9	0.3	30	58	223	251	214	254	0.86
5	44	3.2	6.7e+03	-1.4	0.0	34	64	297	327	295	328	0.89
6	44	0.047	98	4.5	1.0	29	53	467	491	441	495	0.66
7	44	0.1	2.1e+02	3.4	3.4	28	58	466	496	457	506	0.72
8	44	0.041	85	4.7	6.9	27	60	503	536	481	539	0.85
9	44	7.5e-05	0.15	13.5	0.2	26	60	530	564	528	569	0.89
10	44	0.083	1.7e+02	3.7	0.5	26	61	565	600	563	604	0.91
11	44	0.028	58	5.2	5.8	23	63	597	637	595	646	0.63
12	44	0.24	4.9e+02	2.2	5.8	27	62	643	678	639	679	0.91
13	44	0.00029	0.6	11.6	6.9	23	63	674	714	672	716	0.93
14	44	0.0006	1.2	10.6	4.9	24	64	731	771	724	772	0.91
15	44	0.0055	11	7.5	2.5	30	61	765	796	763	805	0.68
16	44	5.1e-05	0.11	14.0	1.8	31	63	808	840	800	842	0.88
17	44	0.064	1.3e+02	4.1	0.1	37	65	842	870	838	870	0.88
18	44	0.0021	4.4	8.8	1.8	27	63	874	910	871	912	0.90
19	44	0.02	41	5.7	4.0	24	61	913	950	910	961	0.88
20	44	0.4	8.3e+02	1.5	0.3	41	63	972	994	952	996	0.77
21	44	0.27	5.6e+02	2.0	0.9	31	53	976	998	968	1017	0.45
22	44	0.00072	1.5	10.3	0.5	20	62	1049	1091	1043	1094	0.65
23	44	0.0015	3.1	9.3	0.1	24	62	1095	1133	1094	1135	0.92
24	44	1.9	3.9e+03	-0.7	6.2	27	63	1161	1197	1140	1199	0.69
25	44	3.4e-06	0.007	17.8	0.7	29	62	1205	1238	1199	1241	0.90
26	44	0.0058	12	7.4	3.0	24	63	1263	1302	1262	1303	0.95
27	44	0.0063	13	7.3	3.3	26	61	1307	1342	1304	1346	0.85
28	44	0.013	28	6.2	0.2	27	62	1343	1378	1337	1380	0.77
29	44	0.00017	0.35	12.3	0.0	29	62	1394	1427	1389	1428	0.92
30	44	0.027	56	5.3	1.9	39	64	1432	1457	1430	1458	0.92
31	44	2.2	4.5e+03	-0.8	3.7	28	53	1470	1495	1457	1501	0.57
32	44	0.002	4.1	8.9	6.9	26	63	1503	1540	1494	1541	0.93
33	44	0.0069	14	7.2	9.1	28	62	1561	1595	1542	1598	0.78
34	44	0.0082	17	6.9	4.4	27	63	1581	1617	1578	1619	0.84
35	44	2.8	5.9e+03	-1.2	1.8	35	58	1614	1637	1608	1654	0.69
36	44	0.11	2.2e+02	3.3	0.1	28	54	1666	1692	1662	1702	0.82
37	44	0.36	7.5e+02	1.7	0.5	40	63	1706	1729	1692	1731	0.82
38	44	0.0053	11	7.5	5.1	22	59	1737	1774	1729	1779	0.85
39	44	0.0033	6.9	8.2	0.7	22	64	1772	1814	1771	1815	0.91
40	44	2.4	4.9e+03	-1.0	3.4	21	63	1827	1869	1820	1871	0.81
41	44	7.6	1.6e+04	-2.6	6.0	22	63	1870	1911	1869	1928	0.80
42	44	2.8e-05	0.058	14.8	0.3	21	63	1967	2009	1958	2011	0.91
43	44	0.76	1.6e+03	0.6	0.3	27	51	2112	2136	2109	2149	0.77
44	44	1.6	3.3e+03	-0.4	0.4	30	51	2209	2245	2196	2247	0.59

Sequence Information

Coding Sequence: ATGGCTTGCGATCATTGTCCCATTTCCTGTTGTCTCTGCGGTTGCGATGCTCCAAAGCCGGAAAATGTCACCGAGCCACCGCACGAGCCTTGTTGTTGCTGCAATTACAATCCATTTATTGACGATTCCAAAGAATCCGAGATTCACGATCTGTCATTCGCGCTACGAAAGCTCACAGTGATGAAGTGTCAGATGAAAAAGTGGCGCATGGAGCGTTTGCAGTTAGAAAGTGAATGCAGATCAATGAAAGAAGCTCTTCAATCATTCGGTGTAAATACTGATGAAGGGTTGAAAACGGATCCCCTGATTGTTCATTTTCGGGGCGAGAGTATGAGACTGCAAAATGCAAACGAGTTGCTTGATGAGAAAATAAAAGTGCTCGAGGAAACTTTGGCCGAGCGTGATCTCTATGAGGATCCCTGCGAAGGAGTTCTAATGATGAGAGAAAGGATGAGAATGCTGAGGGATCAATTTCTTAGCGAGAAAAAACAgCTAAAAGACACAATTACACAGTTGCGAATACAATTGGCGGAAGCCGAAGATGATACTTCCTGCGCCGCGCTGAATCGGCTGCGAGCAAAGCTTCGGGAACTAATGAAGGGTGGACAGAAAGCCGACAAACAGGTCACCAAAGTTGTGCAAAGATCTATTGAGACGTTAGTGGATTTGTCGAAGGGCTGTGATGATTTAAAATTGGAGAATGAAAAGCTGCTTGCTGAAGTACGAACTTTGAGGAAAGCTCTAAAGGACATGGGTACAGATGATAAGTCGATTCGCATCGAAAGCGAAAAATCGGCATCAGTGATAATCGAAGATAAAGACCTGGCGCCAATGATAATGAAACAAACAGCTCCTTCAGAAATATCGAAAAGGTTTGAACCTGATGATTGCTCAGAGTATCAAGATATGGTTGCCGATTTGAAAAAACGTTTGGCCGAAAGTGAGACGACGATTGGAGATTTGCGGAAGCATCTGCAGGATCGTAATGACACTGTTGCGCAACTAGGCATTGATCTTGACAGAATGTCCGTCAGTCATCAAGCTTTAATGGCAGAAGTAACTGACGCTAAGACTGAATTAATGAAACGAGATAAAAAGATCACGGAGCTGTTACAGGACGTAAGTAGATCTTCCCTCGATGCGTTAGGTATGAACGAGCTGAAAAACGATATTGAGAAAATGAAACCACAGCTATACGACCTCGAAATCGAGAGAGATAACCTTTTGGATGAATTGCATAAAGTGCGTGGCGTTGTTTCCGATCGCAATGATCAAATTATCGAGGTTCTAGAAAAAAGAGATAAAGCTATTGAAGATTACACTGCAAAAATCGATGCTATGCAAGCCAGAATTGATGCGTTGCTTGGACAGGAagctatattaaaaaaagaggCGGAGAATGCGAAGATGCAAATTCCGGAATTGGAAGACGAAATTGCCAGGCTAAAATCACGGATAGATGAGCTGGAGAAAATGTGTGAAGATACCGAGACACTGAAACACACATTGGAAGAATTGAATGTTGCGTTAAAAGAGTTAAATAAAGAGAACGGTGCTCTCagagatgaaaataaaaatttgacagcGACGAACGAAAAGCTGAAGGACGACGTGGTTAAGCTGAAGAGCGAAAACGAGAAGCTTTCTGGGGAGATTGATAAATTGCGGATAGAAAATGACAAATTCGGTGCCACGGTTGACGGCCTACAAAAAGATTTGGCTGATGCAAGGGCGGAAAACAATGTACTGAATGAACAGCTGAGCAGCATGAAGGATGAGGATGGGAAACTGAAAGATAATGAAAATAATCTGAAGTTGCGTTTGGATAATCTGACAGAACAATTGATGTCCTTGGGCGAGGAAAACTCGGTCCTAAAAAGTGACTTGAACAAGTTAAAAGCTGAATGTGAGGGTTTGGAAAAACAGCTACAAAATATGACAAGAGATTTCAATAACCTGGAAGAGAAGAACCGGACGCTCAATCAAGAGCTCGATAAAGCAGAAAAAGATTTGTCGGAAATGAAGGAGAAAAACGATTTACTGAAAAAAGAGTCAGAACATCTaatgaaagaaaatgaaaagctCAAGAGTGATGCAAATGAACTACGTGAAGGTctggaaaatattaataataaattggcCAAGTGCATGAAAGAAAATGTCGACTACGAGCAAGAGATTGAGCAGTTAAAGGCAAAGAATTTGTCTTTAAATGCAGATCTGGATAATTCAAGAACCGAAAACGATGCTTTAAAGCAAGAATTAACTGAATTGAAAAATGAGTTCGATAAGCTGAAAATGGAGCTCGATACTCTGCACGatgaaaattctactttgcaatccAAAATCGACACActgaaattagaaaataatgagtTGCACCGAGTTGCTAGTGAACTTAAAGCCGAGTTAGGAAACGCTCAGGGTGAATTAGCGAAACTTCGGGACGAAAATAGTGGGCTAAAGGCCGAAGTTCAGAAACTCGAAGAAGCTAATGCGGGTTTGAAAGTCGATCTCGACAAGGCCAGTTCAGTTAATGACCAATTGAGAGCCCAAGTTGATTCTCTAGTGGCTGACCTTGACGCAACGAAGGAAAAGTTCAATCAATTGGATGCAGAGAATAGTGCATTAAGGGCTTCcgtggaaaatttgaaaaaagagaATGATAATCTTACATCTGATGCCGCCAAATTGCATGAAGATTTAGAGAATATCCGACAAACGTTGGAAAATATGAAACACGAAAATTCTACTCTCAAAAATGAATTGGACAAACTGCTAAGCGATAATGCAAGCCTAAAAGACAATCTGGATAAGTTAATTGAGGAAAACGGCCAATTAAAGACCGAAGCGGATACGCGAAAGACAGAAATTGAAAGACTAAAAGCAGCCGGAGATGGACAAATGCAAAATGGAAAACGCTTGGAGAACGAAATCGATGATTTGAAACACGAAAGAAATGGGATGAAGGTTGAGTTGGATGAGTCACGATCAGAAAATATCGCACTAAAGGGAGAGAGGGATCGCTTGCAACAAGACCTCAAAGATGCGATTGCTGGTAGCAACAGTATTAAGGCCGCACTTGACGACTTGAAAATTGAGAATGACAAAGTTAAAGCTGATCTTGAAGCTACCAAAGCAGATAGAGACAAGCTTGCAGCGGAAACAGCAAAATTGAAAGCAGACGCAGATGCTCTCGGAGACAAAGTGAAAACTTTAACGGAAGAAGTACAAAAGTATATCGGTGAAGTGGAGAAACTGAAAAGCGAGCTCAGTGATGCGAAGAACACTATTGGGACTCTGGAGTCCCAGATCGTTGGCCTCAAGGCGGACAAAGCTCAGCTTGAAAAAGATATTAAGGCACTCAATGTCGCGTACGATGATCTCAAACGTAAATTGAATTTGGAAAAAGACGCAAAAGAAGCTGCGCAGCTGGAATTGACGGCCTTAAAGGGTGAACTCAAAGAGTTGCTAGATAGACTGGATCATCTTAATTCCGAAAAGGGCAATGAAAGCGCTGAGAAAGAGGAATTGAAGAAAAAACTCATTGAAATGCAGGAGCATCTTTCGAAACTTTCAGCGGAAAACATTGACCTtgcaaaaagcttaaaaactttaAGCACCGAAGTGGAAGCACTAAAGAACGAGAACGATAAACTTCGTGCTGAAGTTGGGGAACTTGAAAAAGACGTAGATCACTGGAAAACGGAAAATTGTAAGCTGAAGATGAGTATTGAGAAGGGAAGCagtgatattgaaaaattaaagaaggATTTGGATGTTGGTCGAGCGAAAATAAAGGAACTTGAGGAGCAATTAGCAAACTTGGAAGTAGAGAAAAAACATACTTTGCCTACGATTGACCGCCTTGAAAATGAACTATCATCATTAAAAGAGAATTTGACTTCCGAGAGGACTGCGAAGGAAAATTGCCTTAAGAGGATTGCTGCACTAGAGGAAGAACTCGAGGCTTTAAAAGCTGAACTGTCGAAATGCAGAAATGAGAAGGACCGACTCGGAAAGGACGTTGATGATCTGAAGAAACAACAATCTGTCTTCAACTCTGAAGCAGACAAATTGCGCGACGAAATATCAGCTTTGCGAGGgcaaaatgataaattaaagtCAGATCTGGACCGCTCGGTTCTTGATTCCGATGGCGCTAAAGGTGATTATAAGAGATTACAGGACAACGTTGGATCTTTGAAATCTGAGAACACTGGCCTCAAGAGTGAAATTGATAAACTAAAAACGTCTACCGACGATCTAAAAGCCGAGCTTGGAATTGCAAAAACAGAGAAAGATAAATTAAAAGCTGAGCTGAGTGAAATGAGAAATGAAGCTGCAAGGCTCAAAGACAATCTCGAGCAATGTCGTACGGACGCTGAATCTCGCAAGGCTGATTTAGACAAAGCGAATAACGAATTAAAAGAGCTAAGAACTGAACTTGAGAAACTAAAATCACAATCAGCAAATATGCAAAAATCTAACGACGACTCAgccatgaaaattaaaaacctgGAGACTCAGTTGGCGGCATgtcaagaagaaaaaagaaaactcaTCGAAGATCTCGAAGTCTTGAGAAACGAAGCTGATAAGCTTCGAAAGGAGCTATCTACTGATAAAGTAGCCAAAGAGAACCTGTCTAAAGAAGTTGCTGCAGTGAAGTCCGAGTTGGAAGCTTTAAAATCTGAGCTTGACAGAACACGAGCCGATAACGAAGCATTGAAGAAAGAGTTGGATTCCCTGAAGAAACAGCTAGAGGATTTGAAGTCGGTGAACGCGCGCTTAAATGAAGAGATCAATAAGACGAAGGGCGAGTTAAATACTTTGAAGCCAGATCTTGATAAATTGAAGGAAGAACTAACAAAACTAAagggtgaattaaccgataaaTTGGGCAAACTAGCCGAGAAAGAGGATGAAATTAAATTGGCAAGAGCTGAAAATGAGAAGCTGAACAAATTATATTCGGACAGCGAGACTCATGTCAAAGCTCTGGAAAATCAGCTGGGAGCATTGGGAGCCGAAAAAGACAAACTCGCAATGGAAATAACGGACTTGATAGGAGAGATCAGCAAACACGGCAAGAATTTGGCGAATGAAAAGGCTGCCAGAGAAGCTTTGTTGAAAGAGCTCGAGGCACTGAAGGATACGCTGGCTGGAATGAAAAGCGATTTGGACAAGTGTAGAACGGAAATGGCAAAAATGAAGAACGAACTCGCCGCCACTGAGGCTGACATAGTGAAATTGCGCGAAGAATCGAATAAATTAAAGGCAGAAAATAGCGATTTACAGAATCAACTTGAAAAATCAAAAGCTGatggaaataaattgaaatctgatttagaaaaaatcgagGCGGCGAATAGCAAGTTGATGAGTGATCTGGAGAGTGCCAGATCCGAAGTCGGGAAATTAAAGGGGGATTTGGAAAATTTAACGGCTGAATATGCGAGTGCACAAAATGACCTTGAGAAGGAAAGGACCGAAGCGAAAAAGTTAAAGGCCGAGTTGGACAAGTCGAAAACGGAGAACGATATATTAAAGGGCGATCTGGAACGTACTAAAGCTGATACAGAGAAATTAAAGAGTAACTTGGATAAGGCTAATACCGAAATCGATAATCTCAAGGACGACGCGGAACGCTCAAAGGCAGAGGCCTTAAAGCTGAAGAATGATTTGGACAAAGCGAAAACAGAGACGAATAAATTGAATGATGAATTGCGACAAGAGAAAAACAATTCCGCAAAATTACTGCAAGATTTAGACAAGTCTAGAGCAGACAATACTAAATTAGGAAGCGATGTTGAGAAGCTTGAACTTGGAGTAGCAGCAGGACAAAAGGCAGCTAGAGCCTCGAATGCGGAAGCGAGTTTCTTAAACGACGAAATCGATCGTCTCAAGGCTGAAAATGCAAAGTTGGAAAATGAGATTGCAAATTGTCAAGCGGAAGGAATTACTTTAAGGAATAACATCAAGACCCTGGAAGCTGAAATCGATAAAACGAGAGGTACATTAAAAGCTGCGAAACGCAGAACAATGGACGTAACAAAATCCGCCAATGTACCTGATTTTTATCCGGATGACTGTGGCGACTATATGAGATCGAATGAATTACTGGGTAGTTTTTTGGAAAATCAGAATAAAGGTGTGACACGTGTTCGAGAATATATTGGTCATATCGATGGCAGAGTTCCAACTAAACCTGTGATGGCTCAAAGACCAGACGACGATCCGGATATCAGCGATTTTCTCGTACCGATGGTTGTTGAGACTCTACAAAAGTCACAGGAACTGTCGAAGAATATTCTCGGGGTCGAGGTTGAGATACAGACGATTGGAAATCGACTCAGCGATTGCAGAAAGGAGAACGACAGGTTGAAGAAATTACTCGAGGATCTCGGAGTCGGCAATCAGGAGATCAAAGAGTTCCGCGAGGAAATGGGGGATGCTTTCGATGCCGAATCATGGTTGAGATCGTTGACACTGTCACAATTGGCCGAACTTCATGATCGCATCTGCTTGCTAACGTCGAGTATGGTAAAACAAGACAGCAGTCAAAATGGAGAGTTGGTCGCAGAGGAAAATCACGATCCACTCAAGGATAACTACGACGCTTTGAACAAACGAATAGCAGCATTGCAGAAACAAATAGCGGGAAAACAGGCTGAAGCTGCGAGAAAAGTTTACGATATGCGGCAAGCACTTCGTCAGGAACAGGCGCAGCTCATTATGATCTCAGATGAGAtgaatcgagaaagaaaacgaaaTTTGGCTCTTCACCTTACCATGGATGGTTCAGCCTGTTGGGTCAACAAGTGTAAAGCCGAATGTAGTGTAGATTTTGATCAGTTGACTGCTTTGGTTGATGCTGAAGACACTTCGTTACATGAAGACAAGATTACAAAGAAACGCTAA
Protein Sequence: MACDHCPISCCLCGCDAPKPENVTEPPHEPCCCCNYNPFIDDSKESEIHDLSFALRKLTVMKCQMKKWRMERLQLESECRSMKEALQSFGVNTDEGLKTDPLIVHFRGESMRLQNANELLDEKIKVLEETLAERDLYEDPCEGVLMMRERMRMLRDQFLSEKKQLKDTITQLRIQLAEAEDDTSCAALNRLRAKLRELMKGGQKADKQVTKVVQRSIETLVDLSKGCDDLKLENEKLLAEVRTLRKALKDMGTDDKSIRIESEKSASVIIEDKDLAPMIMKQTAPSEISKRFEPDDCSEYQDMVADLKKRLAESETTIGDLRKHLQDRNDTVAQLGIDLDRMSVSHQALMAEVTDAKTELMKRDKKITELLQDVSRSSLDALGMNELKNDIEKMKPQLYDLEIERDNLLDELHKVRGVVSDRNDQIIEVLEKRDKAIEDYTAKIDAMQARIDALLGQEAILKKEAENAKMQIPELEDEIARLKSRIDELEKMCEDTETLKHTLEELNVALKELNKENGALRDENKNLTATNEKLKDDVVKLKSENEKLSGEIDKLRIENDKFGATVDGLQKDLADARAENNVLNEQLSSMKDEDGKLKDNENNLKLRLDNLTEQLMSLGEENSVLKSDLNKLKAECEGLEKQLQNMTRDFNNLEEKNRTLNQELDKAEKDLSEMKEKNDLLKKESEHLMKENEKLKSDANELREGLENINNKLAKCMKENVDYEQEIEQLKAKNLSLNADLDNSRTENDALKQELTELKNEFDKLKMELDTLHDENSTLQSKIDTLKLENNELHRVASELKAELGNAQGELAKLRDENSGLKAEVQKLEEANAGLKVDLDKASSVNDQLRAQVDSLVADLDATKEKFNQLDAENSALRASVENLKKENDNLTSDAAKLHEDLENIRQTLENMKHENSTLKNELDKLLSDNASLKDNLDKLIEENGQLKTEADTRKTEIERLKAAGDGQMQNGKRLENEIDDLKHERNGMKVELDESRSENIALKGERDRLQQDLKDAIAGSNSIKAALDDLKIENDKVKADLEATKADRDKLAAETAKLKADADALGDKVKTLTEEVQKYIGEVEKLKSELSDAKNTIGTLESQIVGLKADKAQLEKDIKALNVAYDDLKRKLNLEKDAKEAAQLELTALKGELKELLDRLDHLNSEKGNESAEKEELKKKLIEMQEHLSKLSAENIDLAKSLKTLSTEVEALKNENDKLRAEVGELEKDVDHWKTENCKLKMSIEKGSSDIEKLKKDLDVGRAKIKELEEQLANLEVEKKHTLPTIDRLENELSSLKENLTSERTAKENCLKRIAALEEELEALKAELSKCRNEKDRLGKDVDDLKKQQSVFNSEADKLRDEISALRGQNDKLKSDLDRSVLDSDGAKGDYKRLQDNVGSLKSENTGLKSEIDKLKTSTDDLKAELGIAKTEKDKLKAELSEMRNEAARLKDNLEQCRTDAESRKADLDKANNELKELRTELEKLKSQSANMQKSNDDSAMKIKNLETQLAACQEEKRKLIEDLEVLRNEADKLRKELSTDKVAKENLSKEVAAVKSELEALKSELDRTRADNEALKKELDSLKKQLEDLKSVNARLNEEINKTKGELNTLKPDLDKLKEELTKLKGELTDKLGKLAEKEDEIKLARAENEKLNKLYSDSETHVKALENQLGALGAEKDKLAMEITDLIGEISKHGKNLANEKAAREALLKELEALKDTLAGMKSDLDKCRTEMAKMKNELAATEADIVKLREESNKLKAENSDLQNQLEKSKADGNKLKSDLEKIEAANSKLMSDLESARSEVGKLKGDLENLTAEYASAQNDLEKERTEAKKLKAELDKSKTENDILKGDLERTKADTEKLKSNLDKANTEIDNLKDDAERSKAEALKLKNDLDKAKTETNKLNDELRQEKNNSAKLLQDLDKSRADNTKLGSDVEKLELGVAAGQKAARASNAEASFLNDEIDRLKAENAKLENEIANCQAEGITLRNNIKTLEAEIDKTRGTLKAAKRRTMDVTKSANVPDFYPDDCGDYMRSNELLGSFLENQNKGVTRVREYIGHIDGRVPTKPVMAQRPDDDPDISDFLVPMVVETLQKSQELSKNILGVEVEIQTIGNRLSDCRKENDRLKKLLEDLGVGNQEIKEFREEMGDAFDAESWLRSLTLSQLAELHDRICLLTSSMVKQDSSQNGELVAEENHDPLKDNYDALNKRIAALQKQIAGKQAEAARKVYDMRQALRQEQAQLIMISDEMNRERKRNLALHLTMDGSACWVNKCKAECSVDFDQLTALVDAEDTSLHEDKITKKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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