Basic Information

Insect: Synergus magnus
Gene Symbol: -
Assembly: GCA_032275165.1
Location: JAUESH010000044.1:7719584-7726775[+]

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 48 0.47 5.9e+02 1.3 0.3 31 58 60 87 54 92 0.67

2 48 0.31 3.9e+02 1.9 0.2 38 62 105 129 101 132 0.77

3 48 2.4 3e+03 -0.9 0.0 38 58 157 177 154 181 0.81

4 48 3.1e-05 0.039 14.7 3.5 25 57 216 248 212 256 0.89

5 48 5.4 6.8e+03 -2.0 0.1 27 59 279 311 277 317 0.75

6 48 0.31 3.9e+02 1.9 1.3 29 63 323 357 309 359 0.81

7 48 1.8 2.3e+03 -0.5 0.1 35 58 374 397 372 404 0.54

8 48 2.7 3.4e+03 -1.1 14.0 30 59 450 479 413 509 0.62

9 48 0.00053 0.67 10.8 4.1 26 63 512 549 508 550 0.92

10 48 0.00063 0.8 10.5 7.7 27 65 555 593 552 593 0.94

11 48 0.021 26 5.7 4.8 22 64 592 634 591 637 0.76

12 48 0.014 18 6.2 4.2 21 62 640 681 635 684 0.87

13 48 0.039 50 4.8 4.9 26 62 666 702 657 705 0.88

14 48 5.6 7.1e+03 -2.1 9.4 22 64 767 809 766 817 0.74

15 48 0.00062 0.78 10.6 6.2 26 65 799 838 788 838 0.88

16 48 1.3e-06 0.0016 19.2 6.3 24 65 818 859 817 859 0.95

17 48 0.00063 0.8 10.5 5.6 24 63 846 885 846 893 0.95

18 48 0.0069 8.8 7.2 1.8 33 64 890 921 885 922 0.90

19 48 4.2e-07 0.00053 20.7 7.8 24 65 923 964 921 964 0.95

20 48 0.00015 0.19 12.5 4.6 28 64 948 984 946 985 0.90

21 48 0.64 8e+02 0.9 9.6 32 62 980 1010 962 1020 0.68

22 48 0.23 2.9e+02 2.4 6.1 22 65 1005 1048 1004 1048 0.89

23 48 0.016 20 6.1 7.4 22 59 1026 1063 1021 1064 0.91

24 48 0.00064 0.8 10.5 7.2 22 60 1047 1085 1046 1088 0.95

25 48 0.022 28 5.6 0.4 24 63 1105 1144 1091 1146 0.70

26 48 0.021 26 5.7 0.5 25 62 1120 1157 1116 1163 0.66

27 48 0.00085 1.1 10.1 4.5 32 65 1162 1195 1151 1195 0.90

28 48 0.0031 3.9 8.3 5.4 30 62 1188 1220 1186 1223 0.86

29 48 0.3 3.7e+02 2.0 1.4 30 62 1230 1262 1222 1267 0.74

30 48 0.017 22 6.0 4.8 25 61 1267 1303 1265 1307 0.89

31 48 0.023 30 5.5 8.7 26 62 1310 1346 1298 1348 0.83

32 48 0.0082 10 7.0 0.4 21 61 1354 1394 1350 1397 0.65

33 48 2.7e-06 0.0035 18.1 0.3 24 64 1399 1439 1396 1440 0.90

34 48 6.8e-06 0.0086 16.8 0.3 22 63 1418 1459 1417 1461 0.95

35 48 0.00041 0.51 11.2 1.0 24 63 1448 1487 1445 1489 0.89

36 48 0.0022 2.8 8.8 1.7 26 62 1464 1500 1460 1502 0.63

37 48 0.00014 0.18 12.6 8.0 25 64 1505 1544 1504 1545 0.95

38 48 0.14 1.8e+02 3.0 1.2 37 65 1552 1580 1546 1580 0.86

39 48 2.2e-05 0.028 15.2 5.6 31 65 1588 1622 1578 1622 0.88

40 48 0.0064 8.1 7.3 0.9 33 63 1611 1641 1610 1643 0.71

41 48 0.15 1.9e+02 2.9 1.7 26 52 1643 1669 1641 1673 0.79

42 48 0.00092 1.2 10.0 5.1 26 62 1671 1707 1669 1709 0.93

43 48 0.0003 0.37 11.6 4.4 12 63 1713 1764 1711 1766 0.90

44 48 4e-05 0.05 14.4 1.5 35 64 1771 1800 1769 1801 0.94

45 48 0.063 79 4.1 1.3 22 60 1814 1852 1805 1855 0.86

46 48 0.0047 5.9 7.8 1.0 31 59 1886 1914 1876 1917 0.86

47 48 6.3 7.9e+03 -2.3 0.0 32 59 1953 1980 1950 1981 0.80

48 48 8.2 1e+04 -2.6 2.7 38 55 2123 2140 2117 2178 0.63

#	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	48	0.47	5.9e+02	1.3	0.3	31	58	60	87	54	92	0.67
2	48	0.31	3.9e+02	1.9	0.2	38	62	105	129	101	132	0.77
3	48	2.4	3e+03	-0.9	0.0	38	58	157	177	154	181	0.81
4	48	3.1e-05	0.039	14.7	3.5	25	57	216	248	212	256	0.89
5	48	5.4	6.8e+03	-2.0	0.1	27	59	279	311	277	317	0.75
6	48	0.31	3.9e+02	1.9	1.3	29	63	323	357	309	359	0.81
7	48	1.8	2.3e+03	-0.5	0.1	35	58	374	397	372	404	0.54
8	48	2.7	3.4e+03	-1.1	14.0	30	59	450	479	413	509	0.62
9	48	0.00053	0.67	10.8	4.1	26	63	512	549	508	550	0.92
10	48	0.00063	0.8	10.5	7.7	27	65	555	593	552	593	0.94
11	48	0.021	26	5.7	4.8	22	64	592	634	591	637	0.76
12	48	0.014	18	6.2	4.2	21	62	640	681	635	684	0.87
13	48	0.039	50	4.8	4.9	26	62	666	702	657	705	0.88
14	48	5.6	7.1e+03	-2.1	9.4	22	64	767	809	766	817	0.74
15	48	0.00062	0.78	10.6	6.2	26	65	799	838	788	838	0.88
16	48	1.3e-06	0.0016	19.2	6.3	24	65	818	859	817	859	0.95
17	48	0.00063	0.8	10.5	5.6	24	63	846	885	846	893	0.95
18	48	0.0069	8.8	7.2	1.8	33	64	890	921	885	922	0.90
19	48	4.2e-07	0.00053	20.7	7.8	24	65	923	964	921	964	0.95
20	48	0.00015	0.19	12.5	4.6	28	64	948	984	946	985	0.90
21	48	0.64	8e+02	0.9	9.6	32	62	980	1010	962	1020	0.68
22	48	0.23	2.9e+02	2.4	6.1	22	65	1005	1048	1004	1048	0.89
23	48	0.016	20	6.1	7.4	22	59	1026	1063	1021	1064	0.91
24	48	0.00064	0.8	10.5	7.2	22	60	1047	1085	1046	1088	0.95
25	48	0.022	28	5.6	0.4	24	63	1105	1144	1091	1146	0.70
26	48	0.021	26	5.7	0.5	25	62	1120	1157	1116	1163	0.66
27	48	0.00085	1.1	10.1	4.5	32	65	1162	1195	1151	1195	0.90
28	48	0.0031	3.9	8.3	5.4	30	62	1188	1220	1186	1223	0.86
29	48	0.3	3.7e+02	2.0	1.4	30	62	1230	1262	1222	1267	0.74
30	48	0.017	22	6.0	4.8	25	61	1267	1303	1265	1307	0.89
31	48	0.023	30	5.5	8.7	26	62	1310	1346	1298	1348	0.83
32	48	0.0082	10	7.0	0.4	21	61	1354	1394	1350	1397	0.65
33	48	2.7e-06	0.0035	18.1	0.3	24	64	1399	1439	1396	1440	0.90
34	48	6.8e-06	0.0086	16.8	0.3	22	63	1418	1459	1417	1461	0.95
35	48	0.00041	0.51	11.2	1.0	24	63	1448	1487	1445	1489	0.89
36	48	0.0022	2.8	8.8	1.7	26	62	1464	1500	1460	1502	0.63
37	48	0.00014	0.18	12.6	8.0	25	64	1505	1544	1504	1545	0.95
38	48	0.14	1.8e+02	3.0	1.2	37	65	1552	1580	1546	1580	0.86
39	48	2.2e-05	0.028	15.2	5.6	31	65	1588	1622	1578	1622	0.88
40	48	0.0064	8.1	7.3	0.9	33	63	1611	1641	1610	1643	0.71
41	48	0.15	1.9e+02	2.9	1.7	26	52	1643	1669	1641	1673	0.79
42	48	0.00092	1.2	10.0	5.1	26	62	1671	1707	1669	1709	0.93
43	48	0.0003	0.37	11.6	4.4	12	63	1713	1764	1711	1766	0.90
44	48	4e-05	0.05	14.4	1.5	35	64	1771	1800	1769	1801	0.94
45	48	0.063	79	4.1	1.3	22	60	1814	1852	1805	1855	0.86
46	48	0.0047	5.9	7.8	1.0	31	59	1886	1914	1876	1917	0.86
47	48	6.3	7.9e+03	-2.3	0.0	32	59	1953	1980	1950	1981	0.80
48	48	8.2	1e+04	-2.6	2.7	38	55	2123	2140	2117	2178	0.63

Sequence Information

Coding Sequence: ATGAATGATTATCCTGATAAATTTTGTCATTGTGGCTGCGATGCTCCGGGTAATTTTAAACCAGAGGAGCCACCACATGAACCATGTTGCTGTTGTGATTATAATCCATTCAGTGATAATTCTAAGGATGCAGAAATTTACGATCTTCCTTTTGCCCTGCGAAAACTTACGGTAATGAAGTGCCAAATGAAAAAGTGGCGAATGGAACGACTTCAATTGGAGAGTGAAACTCGATCTCTGAAGCAAGCTCTTCAACAATATggcaTTAACATCGACGAGGCTTTGAAACCTGATCCTCTAGTTATTCACTATCGAGAGGAAAATTTGAGACTTCAAAATCTTATTGAGGAGTTGGAGGATAAAGTCGCAGACCTCACAGGGACTTTGGATGAACGAGAATACTCTGAAGATCCTTGTGATTCAGTAAAATACATCAGAGGGAAAATGAAGGACCTTCGAATACATTTTGCTAATGAAAAGAAACAattaagagacAAAATAGCAGCCTTGAATCTGAAGCTTGCAGAAATGGATGACGATACTTCATGTTCAGCCTTAAATCGCCTCAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAGAAGGCTGACCAGCAAGTTTCGATGGTTGTagaaaaatctatagaaaCAATGGTGGAGCTTTCGAAAAGCTgcgaagatttaaaatccgaGAATGAAAGACTTTTGGCTCAATTAGAGGctcttcgaaaaaaattgggaCAAAAGGAACCTTCAAGAACAACATTAAAAGAAGATCCTATCATAACTCATGATATGGGACCTGAATCATCAGAAATAACGGAAGGACAAGATGTTTCTGAACtatatgataaaattaaaaaatgcgagGCTCTTGTGGCTGATTTAAGAAGACAACTTGCTGAGAAGGATCAAATGATTAACGATCTGGAGAAAAAGCTTTTTACTGAAAAGAGAGTTTCTGGACAATTGGAGGAAGATTTGGACAAAATGACTGTTAGCCACAAAGCATTGATGAAAGAAGTTGCTGCTATGAaggaagaattgaaaaagaggGATGACAAGGTCACGGAtcttttaggaaatttaagaagttcAGCTATAAATCTTCTCGGAATGGAGAAACTGACAAGTGAAATCGAGATGCTCAAACCTCAGCTCTATAATCTTGAAACAGAAAGGGATCAACTTTTAGGCGATTTAACTAAAATTCGAGGCCTCGTATCAGAGAGAAatgatcaaattttaaaaattttagagcagaaagaaaaattatcgaGCGACTGTAATGCAAAGTTACTTGCTATGCAGACCAGGGTAGATGCCTTATTAGATCAAGaagctcttttaaaaaaacaaatagaaGACTTAAAATCAGAAGTGAAAGAATTGGAAGATGAAATTGCAGGGTTGCGAGCAAGAATATTGGAATTAGAACAAAAAGGCAATGAAAATGAAGATCTTATGAAGAAGATTGATAATCTGGAGAATCAGCTTGATAAATTAAATGCAGAACTTTCTTCAGCCCAAAATCGAGTAAAAGAACTTGAAGGTGAGGtaagtgatttgaaatctGAGAAGGAGAAATTACTGAAGAATTTAGCTGATGCTGAGActgaaattgaagaaataaagaagGATTTGGAGGCTGAAAGAATAGCTAAAGAAAATCTTTCTAAAGATCTGGAAGCTTGCAAGGATgaacttgaaaaattgaaattggaaaatagaACTTTGGAATCGGAAAATCAGAGTTTAaaggataatttaaaaaaattagaagatgAAATCAAGTTCttgaaagaagaaaacgaAATGTTCAAGGCAGAGAATAGTAATATTATTTCGGAGAATCAAAAGTTTCAAGAGGAGATAGAACAACTGAAagcagaaaatgaaaaagctcAAGTAGAGATTGATAAATTGAAAGATGAAGTAAAGAATTTAGAAGCagagaaaaatgttattgaaaatgaattgaatGTCTTAAAAGGTGAAATAGAAAAGTTAAAAGCTGATTTAAAGGGCTTAGAAGACGAAAATGCAGTACTTAAAGAAGAACTAAATAACATTAAAggagaaaaagataaattggaaaaagatttgaaagttgCTCAAGCAGAAATCGAAAAACTGCGAAGTGATTTAGAGATAGAGAAAACCGAAAAGGAATCTGCTTTGAAAGAACTCGAGGACTGTAAGAAGCAGTTGAGTTTAATAAAAGATgagttggaaaatttaaaagttcaattGGAAAAATCATCAGCTGAATTGGCAACTCTTGCGgatcagaataaaaaattaaaagatgagCTGGAAAATGTAAACCgagatttagaaaaatcaatGGCCGAATTAACAGCTCTTCAAGAGCGAAACGAGAAGCTGGAAGCagcttttcaaaaaatgagagatgatttggaaaatttgacaaatgAAAATGAGGAACTTAAGGCAAAAATTGATCATCTTAATTCTGagattgagaaatttaaagccgagaatgaaaaattattaaatttaaatagtcaATTAAAGGAAGAAGTTGACcagttgaaaaatgaaaataaaaagctcGTGGATGAATATCAACATTTGAAAGATGAAAATGTGATGTTGAAAGATGAGAATGCACAGTTGAAAGACAATTTAGATAAATCTGTAATGGAATTGTCAGCCCTTAAGGAGCAAAATGAAAAGTTGAAGgcttttgttgaaaatatgaaagacGAAATTGAGAGTTTAAGAAAAGATAATGAGGAACTTAAAGCAAAAATGAATGATCTTAATTCTGAAGTAGAAAAACTGAAAGTggagaataataaattattgaaagaaaatgaTGATTTGAAATCCGAAGTTGATCAGTTGAAAGATGAGaataagaaattgaaagatgAAAATACAAATCTAAAAGACAACTTGGAAAAATCGAAGGCTGATTTGGAACGGTTGAAGTCTGattttgataaattgaaaacagaaaatgaagatttaaagaaagatCTAGAAAAAGTGAAAGCTGAGGctgaaaatatgaataatgaaTTGAAGAATTTGTCAGCAGAATTGGATAAGgtcagaaaagaaaaagataactTGGAAGACAAGTTAACAAGCCTTGAAAgtgatttagaaaaattaaaagcggAGAATGTTAATTTGAATACAGAActaaaaaaagcaaaagaagATAATGagatgttaaaaaatgaaacgGATTCTTTAAGGAACGAAAATTCGAAACTTAAAGCAGCAGGAGATAgtgaaaaggaagaaaagaatAAGGCAAATGAAGAGATTAGATCACTAAAAgatcaaaatgaaaagatatCTCGTGATCTAGATAATGCTAGATcagaaattaattctttaaaggGGGAAGttgatcatttaaaatctgaagtagAGTCCATAAAAGGAAAATTGCAATCAAAAGAAGATGAATTAAAtgctttgaaaaatgagttgaaAGATTTCCTCTCGAAGTTTGATGAACTCAAGGATGAAAATAATCGTTTTAAGACAGAAAGGGAGAGTCTTAGAAAGCAATTAAACGATTTGAAGAACGAATTGTCAAGATTAGAGGCAGAAAATTTAGATCTGAAAGAAGAACTCGctaaattaaaatcagaatTAGCTAAGATTGTAGctgaaaatgataatttgaaaaaagaacttGCTGAAGTGACGAAGGATTATGATCAATGTCAGACAGATGGTTGcaagttgaaaaatgaaatagatAAGTTAAAGGTAGCTGttgagaatttgaagaaagaaTTAGGTAATTCTGAAGCGAAGATAAAAGAACTTGAAAGTCGTCTTTCAAGTAAAGAAAGCGAGAAAAATAGTTTGGAACGAGAAATCGAAggattgaagaaaaatttggcTGCTGAAAAAGCTGAAAAAGAGgcagttttgaaaaaattggaagAACTCAATGAAGAACTTAAGGTTTTGAAAGCTGAATTAGCTAGGTTGAGATCTGAAAATGATCAGCACAGGGCAGAAATAgatgatttgaaaaaacaattagTATTGACTAAAGATGAATGGAATAAAGCTAAGAGTGAAATTTCAGCTTTGAAAGATGATAACAATAAATTGAAGGGCCAGGGTGATACTTTAGCTAATGAAAGTGAGAAGCTGAGAGGAGAGTTGGGCAAGTGGAAAGCTGAAGCTGAAGCTCAACGAAATGAAAATGCTAAATTGAAAGGTGAAGTTGATAAACTGGGGGCAGAAAATACTAGACTTAAAAACGAAATTGATGGTTTGAATAATGAAGTTAGTGGCCTTAAGAGCGTAAATAGTAAACTGCAAGATGAATTAGGAGCCGCAAAAAGTGAGGTTGATAAGCTGAAATCCGAATTGTCTGCTTCTAGAGctgaaaatgagaaattgaAAGGGGAAATGAATAGTTTGAAAAGTGAAGTTGGTAGattaaatgaagaaatgaGTAAGATAAGGGCGGAAGTtgagagattgaaaaaatccttGGCTGATGGTGaagctaaaattaaaaatttggaaggtCAAGTTGCATCTTTAGAATTAGAAAAAGCAAAACTTGTGAAAGAATTAAATAGCTTGAGGGACGAacaggaaaaattgaaaaaggaattaaCAGCTGAGAAAAATGCCAAGGAGGCTGCACTTAAAGAAGCAGAAGGTCTTAAATCGGAATTATCGATGATGAGGGctgaattagaaaaatatagaacCGAAAATGAGAAGTTGAAATCTGATTTGGAGGCATCAAAGAAGAAAGTTGTTGAATTAACAAACGAAAATGGAGTTTTAAAAGCAGAGgtcgaaaaattaagaaatgaaTTGAATGCTTTAAAGAGTGAAAATACGAAGCTTAAAGATGAGTTggataaagtgaaaaataatctaGAGAAAATGACAGCAGAGTATAATGCTTATAAAGcagaaaaggaaaaggaaattaaTAATCTCAAAATAGAGAATGATCGGTTAAAGAAAGAACTTGCGGATGTACAAGTGAAGGCGAAGAATTTGGAAGATCAGTTGAAGAGTCTTCAGGATGTTAAAGCAAAATTGGAAGCTGATGTTGCAGATTTAAAATCACAATTGGAAAAGTTGAGGCAAGATCTAGCGgttgaaaaaggaaataaagaaGCTGCTCGAAAAGAACTCGAagctttgaaaaatactttaggTGACTTGAGAAACGAGATGggaaaaattaaggaagaAAATGAGAAGTTGATAGTAGAGAATGCAAGTTTGAAAAAGCAGATTGACAAGTTGAGAAGTGATGTCGAAAAGTCGAAAGGGGGTTTGGATAAACTAGAGGCTGAGAATGAGAGACTGAAAGGTGAGATTAGTAAGTTGAGAGACGATTTAGAGAAGTTGAGAGCAgaattagagaaaataaaagcaGAGAAAGATAAGATGAAGGATGAACTTGAGAAATCGAAAGCAGATGCAGCAAAATTGCGAGATGATTTACAAAAAGCGAAGGCAGATGCTGATAGAttgatttctgaaaataaaaagctgAAGAATGATTTGGATGAGGTAAAGGCAGGATCTGATATGTTGAAAGCGAGGGTTAGTAAGGGAAGTGTTGAATCTAATAAGTGGAAGGaagaattggaaaagttgAAACTTGAACTTGCAAAAGCAAAAGATGAAGCTAATCAATGTAAAGCGGAAGTAGGTAGGTTGAAAtctgaaattgaaagattGATGGCAGAAAtggataaaatgaaaattcaggATCGAAGATCAAAAGTTAGCATTGATCGACCCAAAGCTGAAACGCCTAAAGTTGAAACTAGAAGGATATCAgATCGTCCTGGAAAATATGAATCAAAAGTTTCTGAAGACGAATGTGGGGACTTTATTAAATCCAATGAGATTTTGAGGAAGAGGATACAGGAACAAAACAAGGCTATTGATCGTGTTAGAGAATTTATTGGTTTTGTGGAAGGTAAAAATCCATCGAAGCCTCCGATGGCTGAAGATTATAATGCTGATGGCGACACTGGTGGTTGGATAGTACCAGCAGTAAATGAAGTTATGGAAAAGTCACAAAAActatcagaaaatattttcaaagctgagaaagaaatacaaaatCTCGAGGCTTTTCTTCATCGAAAGAGTGTTGGAGATTCGGAAGCGTTGGTTCCAGAAGGTCCCAGAGGAGATTTTAATGCCGATTCTTGGCTGGGATCGTTGACGTTGACCCAATTGGCTGAGCTACACGATAAGATTTGTCTGCTTACTGCTTCAATGGTTGAAGCTGACAGCAATTCTATCGGTTCAGAAAGAGTACTCCCTGAGAATCAATTAGGAAACGAACAAATTCCCCAAAGATTGAACAATCCTTTGGAAAGAGATTATGAAACTCTGAATAAAAGAATTGCAGCTTTGCAGAagcaaatttctgaaaaagaatTAGAGGCCGCGAGAAAGATGCAAGAGATGAAGAATATTCTTCGTCAAGAACAAATGCAATTGATTAAGATTTCTGAAGAAATGACTCGGGAGAAGAAACGAAATTTAGCACTTCAGATGACAATTGACCAAGATCCTTGTTGGACGAAAAATTGCACAGCTGAATGTAGAGGAGATTTCGATAATATCAGAGAATATTAA
Protein Sequence: MNDYPDKFCHCGCDAPGNFKPEEPPHEPCCCCDYNPFSDNSKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGINIDEALKPDPLVIHYREENLRLQNLIEELEDKVADLTGTLDEREYSEDPCDSVKYIRGKMKDLRIHFANEKKQLRDKIAALNLKLAEMDDDTSCSALNRLRAKLRELMKGGQKADQQVSMVVEKSIETMVELSKSCEDLKSENERLLAQLEALRKKLGQKEPSRTTLKEDPIITHDMGPESSEITEGQDVSELYDKIKKCEALVADLRRQLAEKDQMINDLEKKLFTEKRVSGQLEEDLDKMTVSHKALMKEVAAMKEELKKRDDKVTDLLGNLRSSAINLLGMEKLTSEIEMLKPQLYNLETERDQLLGDLTKIRGLVSERNDQILKILEQKEKLSSDCNAKLLAMQTRVDALLDQEALLKKQIEDLKSEVKELEDEIAGLRARILELEQKGNENEDLMKKIDNLENQLDKLNAELSSAQNRVKELEGEVSDLKSEKEKLLKNLADAETEIEEIKKDLEAERIAKENLSKDLEACKDELEKLKLENRTLESENQSLKDNLKKLEDEIKFLKEENEMFKAENSNIISENQKFQEEIEQLKAENEKAQVEIDKLKDEVKNLEAEKNVIENELNVLKGEIEKLKADLKGLEDENAVLKEELNNIKGEKDKLEKDLKVAQAEIEKLRSDLEIEKTEKESALKELEDCKKQLSLIKDELENLKVQLEKSSAELATLADQNKKLKDELENVNRDLEKSMAELTALQERNEKLEAAFQKMRDDLENLTNENEELKAKIDHLNSEIEKFKAENEKLLNLNSQLKEEVDQLKNENKKLVDEYQHLKDENVMLKDENAQLKDNLDKSVMELSALKEQNEKLKAFVENMKDEIESLRKDNEELKAKMNDLNSEVEKLKVENNKLLKENDDLKSEVDQLKDENKKLKDENTNLKDNLEKSKADLERLKSDFDKLKTENEDLKKDLEKVKAEAENMNNELKNLSAELDKVRKEKDNLEDKLTSLESDLEKLKAENVNLNTELKKAKEDNEMLKNETDSLRNENSKLKAAGDSEKEEKNKANEEIRSLKDQNEKISRDLDNARSEINSLKGEVDHLKSEVESIKGKLQSKEDELNALKNELKDFLSKFDELKDENNRFKTERESLRKQLNDLKNELSRLEAENLDLKEELAKLKSELAKIVAENDNLKKELAEVTKDYDQCQTDGCKLKNEIDKLKVAVENLKKELGNSEAKIKELESRLSSKESEKNSLEREIEGLKKNLAAEKAEKEAVLKKLEELNEELKVLKAELARLRSENDQHRAEIDDLKKQLVLTKDEWNKAKSEISALKDDNNKLKGQGDTLANESEKLRGELGKWKAEAEAQRNENAKLKGEVDKLGAENTRLKNEIDGLNNEVSGLKSVNSKLQDELGAAKSEVDKLKSELSASRAENEKLKGEMNSLKSEVGRLNEEMSKIRAEVERLKKSLADGEAKIKNLEGQVASLELEKAKLVKELNSLRDEQEKLKKELTAEKNAKEAALKEAEGLKSELSMMRAELEKYRTENEKLKSDLEASKKKVVELTNENGVLKAEVEKLRNELNALKSENTKLKDELDKVKNNLEKMTAEYNAYKAEKEKEINNLKIENDRLKKELADVQVKAKNLEDQLKSLQDVKAKLEADVADLKSQLEKLRQDLAVEKGNKEAARKELEALKNTLGDLRNEMGKIKEENEKLIVENASLKKQIDKLRSDVEKSKGGLDKLEAENERLKGEISKLRDDLEKLRAELEKIKAEKDKMKDELEKSKADAAKLRDDLQKAKADADRLISENKKLKNDLDEVKAGSDMLKARVSKGSVESNKWKEELEKLKLELAKAKDEANQCKAEVGRLKSEIERLMAEMDKMKIQDRRSKVSIDRPKAETPKVETRRISDRPGKYESKVSEDECGDFIKSNEILRKRIQEQNKAIDRVREFIGFVEGKNPSKPPMAEDYNADGDTGGWIVPAVNEVMEKSQKLSENIFKAEKEIQNLEAFLHRKSVGDSEALVPEGPRGDFNADSWLGSLTLTQLAELHDKICLLTASMVEADSNSIGSERVLPENQLGNEQIPQRLNNPLERDYETLNKRIAALQKQISEKELEAARKMQEMKNILRQEQMQLIKISEEMTREKKRNLALQMTIDQDPCWTKNCTAECRGDFDNIREY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01390819;
90% Identity: iTF_01394028;
80% Identity: -