Basic Information

Insect: Synergus umbraculus
Gene Symbol: -
Assembly: GCA_900474325.1
Location: UCOK01006028.1:53809-61003[+]

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 46 3.9 4.5e+03 -1.7 0.4 39 63 68 85 57 88 0.45

2 46 0.2 2.2e+02 2.4 0.5 38 62 105 129 101 132 0.75

3 46 1.4 1.6e+03 -0.3 0.1 38 58 157 177 153 181 0.84

4 46 2.1e-05 0.024 15.2 3.3 25 57 216 248 212 256 0.89

5 46 6.9 8e+03 -2.5 1.0 27 57 274 304 272 309 0.74

6 46 1.2 1.4e+03 -0.1 1.5 29 63 318 352 312 354 0.83

7 46 3 3.5e+03 -1.4 0.6 42 62 369 389 368 398 0.63

8 46 0.008 9.2 6.9 5.0 24 59 439 474 425 477 0.65

9 46 0.016 18 6.0 1.1 31 63 467 502 461 504 0.77

10 46 0.00032 0.36 11.4 4.5 26 63 507 544 504 546 0.93

11 46 0.0012 1.3 9.6 6.1 27 65 550 588 547 588 0.92

12 46 0.2 2.3e+02 2.4 6.6 26 62 591 627 586 629 0.59

13 46 0.048 55 4.4 8.8 22 64 601 643 600 649 0.84

14 46 0.52 6e+02 1.1 2.2 27 62 648 683 644 685 0.71

15 46 0.0053 6.1 7.5 3.0 26 64 661 699 658 700 0.90

16 46 0.094 1.1e+02 3.5 6.2 24 60 687 723 684 728 0.81

17 46 0.12 1.3e+02 3.2 5.9 31 65 750 784 736 784 0.85

18 46 0.021 24 5.6 6.8 23 63 784 824 782 825 0.81

19 46 1.2e-06 0.0014 19.1 4.4 24 65 813 854 812 854 0.95

20 46 0.00016 0.18 12.4 6.8 22 63 839 880 839 889 0.95

21 46 0.00031 0.36 11.4 6.8 22 65 895 938 887 938 0.94

22 46 2.5e-06 0.0028 18.1 8.1 24 65 918 959 916 959 0.95

23 46 0.0013 1.5 9.4 5.7 23 57 938 972 935 980 0.64

24 46 0.52 5.9e+02 1.1 7.2 35 62 978 1005 967 1015 0.56

25 46 1.1 1.2e+03 0.1 11.7 32 60 1024 1057 1000 1059 0.69

26 46 0.024 28 5.4 2.8 25 60 1092 1131 1088 1136 0.70

27 46 1.4e-05 0.016 15.8 4.4 32 65 1134 1167 1131 1167 0.92

28 46 0.044 51 4.5 6.8 30 60 1160 1190 1159 1202 0.64

29 46 0.13 1.4e+02 3.1 2.1 32 63 1204 1235 1195 1238 0.78

30 46 0.069 79 3.9 4.4 25 60 1239 1274 1237 1279 0.88

31 46 0.057 65 4.2 8.3 30 63 1279 1312 1271 1327 0.59

32 46 0.09 1e+02 3.5 0.3 22 60 1327 1365 1321 1369 0.60

33 46 1e-06 0.0012 19.3 0.5 24 65 1371 1412 1368 1412 0.91

34 46 1.3e-05 0.015 15.8 0.6 22 63 1390 1431 1389 1433 0.95

35 46 0.0047 5.4 7.6 3.8 27 62 1423 1458 1418 1474 0.64

36 46 6e-06 0.0069 16.9 3.9 25 63 1477 1515 1476 1516 0.95

37 46 0.32 3.6e+02 1.8 1.1 37 63 1524 1550 1518 1552 0.85

38 46 3.8e-05 0.044 14.3 3.2 31 65 1560 1594 1550 1594 0.90

39 46 0.0013 1.5 9.4 7.3 26 64 1615 1653 1613 1654 0.91

40 46 0.0021 2.5 8.7 7.1 25 62 1642 1679 1641 1681 0.95

41 46 0.00027 0.31 11.6 4.4 12 63 1685 1736 1683 1738 0.90

42 46 4.4e-05 0.051 14.1 1.4 34 64 1742 1772 1739 1773 0.93

43 46 0.11 1.3e+02 3.2 1.1 22 59 1786 1823 1785 1829 0.85

44 46 0.00043 0.49 11.0 1.9 31 61 1858 1888 1848 1891 0.86

45 46 2.5 2.9e+03 -1.1 0.0 30 59 1914 1943 1907 1945 0.82

46 46 2.2 2.5e+03 -0.9 1.1 30 55 2085 2103 2075 2140 0.68

#	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	3.9	4.5e+03	-1.7	0.4	39	63	68	85	57	88	0.45
2	46	0.2	2.2e+02	2.4	0.5	38	62	105	129	101	132	0.75
3	46	1.4	1.6e+03	-0.3	0.1	38	58	157	177	153	181	0.84
4	46	2.1e-05	0.024	15.2	3.3	25	57	216	248	212	256	0.89
5	46	6.9	8e+03	-2.5	1.0	27	57	274	304	272	309	0.74
6	46	1.2	1.4e+03	-0.1	1.5	29	63	318	352	312	354	0.83
7	46	3	3.5e+03	-1.4	0.6	42	62	369	389	368	398	0.63
8	46	0.008	9.2	6.9	5.0	24	59	439	474	425	477	0.65
9	46	0.016	18	6.0	1.1	31	63	467	502	461	504	0.77
10	46	0.00032	0.36	11.4	4.5	26	63	507	544	504	546	0.93
11	46	0.0012	1.3	9.6	6.1	27	65	550	588	547	588	0.92
12	46	0.2	2.3e+02	2.4	6.6	26	62	591	627	586	629	0.59
13	46	0.048	55	4.4	8.8	22	64	601	643	600	649	0.84
14	46	0.52	6e+02	1.1	2.2	27	62	648	683	644	685	0.71
15	46	0.0053	6.1	7.5	3.0	26	64	661	699	658	700	0.90
16	46	0.094	1.1e+02	3.5	6.2	24	60	687	723	684	728	0.81
17	46	0.12	1.3e+02	3.2	5.9	31	65	750	784	736	784	0.85
18	46	0.021	24	5.6	6.8	23	63	784	824	782	825	0.81
19	46	1.2e-06	0.0014	19.1	4.4	24	65	813	854	812	854	0.95
20	46	0.00016	0.18	12.4	6.8	22	63	839	880	839	889	0.95
21	46	0.00031	0.36	11.4	6.8	22	65	895	938	887	938	0.94
22	46	2.5e-06	0.0028	18.1	8.1	24	65	918	959	916	959	0.95
23	46	0.0013	1.5	9.4	5.7	23	57	938	972	935	980	0.64
24	46	0.52	5.9e+02	1.1	7.2	35	62	978	1005	967	1015	0.56
25	46	1.1	1.2e+03	0.1	11.7	32	60	1024	1057	1000	1059	0.69
26	46	0.024	28	5.4	2.8	25	60	1092	1131	1088	1136	0.70
27	46	1.4e-05	0.016	15.8	4.4	32	65	1134	1167	1131	1167	0.92
28	46	0.044	51	4.5	6.8	30	60	1160	1190	1159	1202	0.64
29	46	0.13	1.4e+02	3.1	2.1	32	63	1204	1235	1195	1238	0.78
30	46	0.069	79	3.9	4.4	25	60	1239	1274	1237	1279	0.88
31	46	0.057	65	4.2	8.3	30	63	1279	1312	1271	1327	0.59
32	46	0.09	1e+02	3.5	0.3	22	60	1327	1365	1321	1369	0.60
33	46	1e-06	0.0012	19.3	0.5	24	65	1371	1412	1368	1412	0.91
34	46	1.3e-05	0.015	15.8	0.6	22	63	1390	1431	1389	1433	0.95
35	46	0.0047	5.4	7.6	3.8	27	62	1423	1458	1418	1474	0.64
36	46	6e-06	0.0069	16.9	3.9	25	63	1477	1515	1476	1516	0.95
37	46	0.32	3.6e+02	1.8	1.1	37	63	1524	1550	1518	1552	0.85
38	46	3.8e-05	0.044	14.3	3.2	31	65	1560	1594	1550	1594	0.90
39	46	0.0013	1.5	9.4	7.3	26	64	1615	1653	1613	1654	0.91
40	46	0.0021	2.5	8.7	7.1	25	62	1642	1679	1641	1681	0.95
41	46	0.00027	0.31	11.6	4.4	12	63	1685	1736	1683	1738	0.90
42	46	4.4e-05	0.051	14.1	1.4	34	64	1742	1772	1739	1773	0.93
43	46	0.11	1.3e+02	3.2	1.1	22	59	1786	1823	1785	1829	0.85
44	46	0.00043	0.49	11.0	1.9	31	61	1858	1888	1848	1891	0.86
45	46	2.5	2.9e+03	-1.1	0.0	30	59	1914	1943	1907	1945	0.82
46	46	2.2	2.5e+03	-0.9	1.1	30	55	2085	2103	2075	2140	0.68

Sequence Information

Coding Sequence: ATGAATGTTTCTCATGATCAATTTTGTTATTGTGACTGTGATGCTCCGGGTAATTTTAAACCAGAGGAACCACCACATGAACCATGTTGTTGTTGTGATTATAATCCATTCAGTGATAATTCTAAGGATGCAGAAATCTACGATCTTCCTTTTGCTCTGCGAAAGCTTACGGTAATGAAGTGTCAAATGAAAAAGTGGCGAATGGAACGACTTCAATTGGAGAGTGAAACTCGATGTTTGAAGCAAGCTCTTCAACAATATggcaTTAATATCGACGAGGCTTTGAAACCTGATCCTCTAGTAATTCACTATCGAGAGGAAAATTTAAGACTTCAAAATCTTAATGAGGAGTTGGAGGATAAAGTCGCAGACCTCACAGGGACTTTGGATGAACGAGAATACTCTGAAGATCCTTGCGATTCAGTAAAATATATCAGAGGGAAAATGAAGGACCTTCGAATACGTTTTGCTGATGAAAAGAAACAATTAAGAGACAAAATAGCAGCCTTGAATTTGAAGCTTGCAGAAATGGATGACGATACTTCATGTTCAGCCTTAAATCGACTCAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAAAAGGCTGACCAGCAAGTTTCGATGGTTGTGGAAAAATCTATAGAAACAATGGTGGAGCTTTCGAAAAGCTgcgaagatttaaaatccgaGAATGAGAGACTTTTGACTCAATTAGAAGCTCTTCGCAAAAAATTGGGACAAAGAGAACCTTCAAGAACAACATTAAAAGAAGATGAAATGGGACTTGAACCATTAGAAATAATTGAAGGACAAGATATTTCTGAGTTAtatgacaaaattaaaaaatgcgaGGCTCTTGTTGCTGATTTAAGAAGACAACTTGCTGAGAAGGATCAAATGATTAACGAACTagagaaaaatctttttactCAAAAGAGAGTTTCTGGACAATTGGAGGAAGATTTGGATAAAATGACTGTTAGCCATAAAGCATTGATGAAAGAAGCTGCTGCTATGAaggaagaattgaaaaagaggGATGAAAAGgtCACGGAtcttttagggaatttaagaaGTTCAGCTATAAATCTTCTCGGAATGGAGAAACTGACAAGTGAAATTGAGTTGCTCAAACCTCAGCTCTATAATCTTGAAACAGAAAGAGATCAACTTTTAGGCGATCTAACTAAAATTCGGGGCCTTGTATCAGAGAGAAATGatcaaattgtaaaaatcttaGAGCAGAAAGATAAATTGTCTAGCGAATGTAATGCAAAATTACTTGCTATGCAGACAAGGGTAGATGCCTTATTAGATCAAgaatctcttttaaaaaaacaaatagaaGACCTAAAATCAGAAGTGAAAGAATTGGAAGATGAAATTACAGGGTTGCGAGCAAGAATATTGGAATTAGAACAAAAAGGCAGTGAAAATGAAGATCTAATCAAAAAGATTGATGATCTAGAGGATCAGCttgataaattaaatgcaGAACTTTCTTCAACCCAAAATCAAGTAAAAGAACTTGAAGGTGAGGTAAGTGATTTGAAATCTGAGAAGGAGAAATTACTGAAGAATTTGGCTGATGCTCAGactgaaattgaagaaataaagaagGATTTACAGGCTGAAAGAATAGCTAAAGAAAGTATTTCTAAAGATCTGGAAGCTTGCAAGGAtgaacttgaaaaattgaaattggaaaatagaACTTTGGAATCGGAAAATCAGAGTTTAAaggataatttgaaaaaattaggaGATGAAATCAAGTTcttgaaagaagaaaacgaAATGTTAAAGGCAGAGAATAGTAATATTATTGCGGAGAAACAAAAGTTTCaagaagagatagaaaaactgaaagcagaaaatgaaaaagcgCAAGTCGAGattgataaattgaaaaatgaagtaaagaatttagaagcagagaaaaatgttattgaaaATGAGTTGAATGTCTTAAAAGGTGAAATAGAAAAGTTAAAAGTTGATCTAAAGAGCTTAGAAGACGAAAATGCAGTACTTAAAGGAGAACTAAATAacattaaagaagaaaaagataaattggaaaaagattttaaagctCTTCaagtagaaaatgaaaaattgcgAAGTGATTTAGAGATGGAGAAAACCAAAAAGGAAGCTGCTTTGAAAGAACTCGAGGACTATAAGAAACAGTTGAGTTTAATAAAAGATGagttggaaaatttaaaagttcaatTGGAAAAATCATCAGCTGAATTGGCAACTCTTGCGgatcagaataaaaaattaaaagatgaGCTGGAAAATGTAAACCGAGATTTAGAAAAATCAGTGGCTGAATTAACAGCTCTTAAGGAGCAAAAGGATAAATTGGAAGCAgctttacaaaaaatgaaagaagatttggaaaatttgacAAATGAAAATAAGGATCTTAAGACAAAAATTAATCATCTTAATTCTGagattgagaaatttaaagtcgaaaatgataaattattaaatgaaattagtaaattaaagGAAGAAGTTGACcagttgaaaaatgaaaataaaaagcttCAGGATGaatatcaatatttgaaagatgaaaatgtaatattgaaaaatgagaatgCACAGTTGAAAGATAGTTTAGATAAATCTGTAATGGAATTGTCAGCCCTTAAAGAGCAAAATGAAAAGATGAAGGCTTTCgttgaaaatatgaaagacgaaattgaaactttaagaAAAGATAATGAGGAACTTAAGGCAAAAATGAATGACCTTAATTCTGAAGTAGAAAAACTGAAAGTCGAGAATAAGAAATTATCGAAAGAAAATGAGGATTTGAAATCCGATGTTGATCAGTTGAAAGATGAGAATAAGAAACTGAAAGATGAAAATACAAATCTAAAAGAcgacttaaaaaaatcagaggctgatttggaaatattgaagactgattttgataaattgaaaacagaaaatgaagaattaaagaaagatCTAGAAAAAGTGAAAGCTGAGGctgaaaatatgaataatgaaTTGAAGAAATTGGCAGCAGAATTGGATAAggtgagaaaagaaaaagataactTGGAAGAAAAAAAAGCTATAGAAGATAATGAGGCGTTAAGAAATGAAACGGATTCTTTAAGGAACGAAAATTCGAAACTTAAAGCAGCAGGAGATAgtgaaaaggaagaaaagaatAAGGCAAATGAAGAGATTAGATCATTGAaagatcaaaatgaaaagatatCTCGTGATCTAGATAATGCTAGATctgaaattaattctttaaaggGGCAagttgataatttaaaatctgaaatggagtccataaaagaaaaactacAATCAAAAGAAGATGAATTAAATGCTCTGAAAAATGAGTTGAAAGATTTCCTCTCGAAGTTTGATGAACTCAAGGATGAAAATAATCGTCTTAAGACAGAAAGGGAGAGTCTTAGAAAGCAATTAAATGATTTGAAGAACGAATTGTCAAGATTAGAGGCAGAAAATTTAGATCTGAAAGAAGAACTCGctaaattaaaatcagaattaGTTAAGATTGTATctgaaaatgataatttgaaaaaagaacttGCTGAAGCGTTGAAGGATTATGATCAATGTCAGACAGATGGTTGCAAGTtgaagaatgaaattgataAGTTAAAGGCAGCTGttgagaatttgaagaaagaatTGAGCAATTCTGAAGCAAAGATAAAAGAACTTGAAGGTCGTCTTTTAAGTAAGGAGAGCGAGAAAAATAGTTTGGAACGAGAAATCGAaggattgaagaaaaatttgtcagcTGAAAAAGCTGAGAAAGAGgcagttttgaaaaaactgGAAGATCTCAATGAAGAACTTAAGGTTTTGAAAGCAGAACTGGCTAGGTTGAGATCTGAAAATGATCAGCACAAGGCAGAAATAGatgatttgaaaaaacaatTAGTATTGACTAAAGATGAATTGAATAAAGCTAAGAGTGAAATTGCAGCTTTGAAAGATGACAACAACAAATTGAAGGGCCAGGGTGATACTTTAGCTAATGAAAGTGAAAAGGTGAGAGGAGAGTTGGGTAAGTGGAAAGCTGAAGCTGAAGCTCAACGAAATGAAAATGCTAAATTGAAAGGTGAGGTTGATAAACTGGGGGCAGAAAATACTAgacttaaaaatgaaattgaaggtTTGAATAATGAAGTTAGTggtcttaaaaatataaatagtaaACTCCAAAATGAATTAGGAGCTGCAAAAAGTGAGGTTGATAAGTTGAAATCCGAATTGTCTGGTTCTAGAgctgaaaatgagaaattgaAAGGGGAAATGAATAGTTTGAAAAGTGAAGTTGGCAgattaaatgaagaaatgaataagataAAGGCGGAAATTgagagattgaaaaaatccttATCTGATGGTGaagctaaaattaaaaatttagaaattcaagTTGCATCTTTAGAATCAGAAAAAGGAACACTTGtgaaagaattaaatagtTTGAGGGACGAACAGGACAAATTGAAAAAGGAATTAACAGCTGAGAAAAATGCCAAGGAGGCTGCACTTAAAGAATTAGAAGGTCTTAAATCGGAATTATCGATGATGAGGGctgaattagaaaaatatagaacAGAAAATGAGAAGTCAAAATCTGATTTGCAGGCATCAAAGAAGAAAGTTGATGAATTAACGAacgaaaatggaattttaaaagcagagatcgaaaaattaagaaatgaaTTGAATGTTTTGAAGAGTGAAAATACGAAGCTTAAAGATGAGTTGgataaagtgaaaaataatctAGAGAAAGTGACAGCAGAGTATAATGCTTATAAAgcagaaaaggaaaaggaaattaaTAATCTCAAAACAGAGAATGATCGATTAAAGAAAGAACTCGCAGATGTACAagagaaaacgaaaaatttggAAGATCAGCTGAAGAGTCTTCAGGATGCTAAAGCGAAATTAGAAGCTGATGCTGCAGATTTAAAATCACAGTTGGAAAAGTTGAGACAAGATCTAGCGgttgaaaaaggaaataaagaaGCTGCTCGAAAAGAACTCGAAgctttgaaaaatactttaggTGACTTGAGAAACGAGATgggaaaaattaaggaagaaaATGAGAAGTTGATAGTGGAGAATGCAAGTTTGAAAAAACAGATTGATAAGTTGAGAAGTGATGTCGAAAAATCGAAAGGGGATTTGGATAAACTTGAGGCTGAGAATGGGAGACTGAGAGGTGAGATTAAtaagttgaaagaagatttAGAAAAGTTGAGAGCAgaattagagaaaataaaagCAGAGAAAGATAAGATAAAGGATGaacttgaaaaatcgaaagcAGATGCTGCAAAATTACGAGACGATTTACAAAAAGCGAAGGCAGATGCTGATAgattaatttctgaaaataaaaagctgAAGAATGATTTGGATGAGGCAAAGGCAGGATCTGATATGTTGAAAGCGAGGGTTAGTAAAGGAAGTGTTGAATCTAATAAGTGGAAGGAAGAATTGGAAAAGTTGAAACTTGAACTTGCGAAAGCAAAAGATGAAGCTAATCAATGTAAAGCGGAGGTAGGTAGGTTGAAAtctgaaattgaaagattgaaggcagaaattgataaaatgaaaactCAGGATCGAAAATCAAAAGTTAGCATTGATCGTCCCAAAGCTGAATCACCTAAAGCTGAATCTAGAAGGATATCAgTTTCTGAAGACGAATGTGGGGACTTTATTAAGTCTAATGAGATTTTGAGGAAGAGGATACAGGAACAAAACAAGGcTATTGATCGGGTTAGAGAATTTATTGGTTTCGTGGAAGGTAAAAATCCATCGAAGCCTTCGATGGCTGAAGATTATAGTGCTGATGGCGACACTGGTGGTTGGATAGTACCAGCGGTAAATGAAGTTATGGAAAAGTCAAAAAAActatcagaaaatattttcaaagctGAGAAAGAAATACAACATCTCGAAGCATTTCTCCAACGAAAGagCGTTGGAGATTCGGAAGCGTTGGATCCAGAAGGTCCCAGAGGAGATTTTAATGCCGATTCCTGGTTGGGAtcaTTGACCTTGTCCCAATTGGCCGAACTACATGATAAGATTTGTCTGCTTACTGCTTCAATGGTTGACGCTGACAGCAATTCTATCGGTTCAGAAAGAGTACTTCCTGAGATTCAATTAGGAAACGAACAAAGTCATCAAAGATTGAACAATCCTTTGGAAAGAGATTATGAAACTCTGAATAAAAGAATTGCTGCTTTGCAGAagcaaatttctgaaaaagaatTAGAGGCTGCGAGAAAGATGCATGAGATGAAGAATATTCTTCGTCAAGAGCAAATGCAATTGATTAAGATTTCAGAAGAAATGACTAAGGAGAAGAAACGAAATTTAGCACTTCAGATGACAATTGATCAAGATCCTTGTTGGACGAAAAATTGCAATGCAGAATGTAGAGGAGATTTCGATAATATCAGAGAATATTAA
Protein Sequence: MNVSHDQFCYCDCDAPGNFKPEEPPHEPCCCCDYNPFSDNSKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRCLKQALQQYGINIDEALKPDPLVIHYREENLRLQNLNEELEDKVADLTGTLDEREYSEDPCDSVKYIRGKMKDLRIRFADEKKQLRDKIAALNLKLAEMDDDTSCSALNRLRAKLRELMKGGQKADQQVSMVVEKSIETMVELSKSCEDLKSENERLLTQLEALRKKLGQREPSRTTLKEDEMGLEPLEIIEGQDISELYDKIKKCEALVADLRRQLAEKDQMINELEKNLFTQKRVSGQLEEDLDKMTVSHKALMKEAAAMKEELKKRDEKVTDLLGNLRSSAINLLGMEKLTSEIELLKPQLYNLETERDQLLGDLTKIRGLVSERNDQIVKILEQKDKLSSECNAKLLAMQTRVDALLDQESLLKKQIEDLKSEVKELEDEITGLRARILELEQKGSENEDLIKKIDDLEDQLDKLNAELSSTQNQVKELEGEVSDLKSEKEKLLKNLADAQTEIEEIKKDLQAERIAKESISKDLEACKDELEKLKLENRTLESENQSLKDNLKKLGDEIKFLKEENEMLKAENSNIIAEKQKFQEEIEKLKAENEKAQVEIDKLKNEVKNLEAEKNVIENELNVLKGEIEKLKVDLKSLEDENAVLKGELNNIKEEKDKLEKDFKALQVENEKLRSDLEMEKTKKEAALKELEDYKKQLSLIKDELENLKVQLEKSSAELATLADQNKKLKDELENVNRDLEKSVAELTALKEQKDKLEAALQKMKEDLENLTNENKDLKTKINHLNSEIEKFKVENDKLLNEISKLKEEVDQLKNENKKLQDEYQYLKDENVILKNENAQLKDSLDKSVMELSALKEQNEKMKAFVENMKDEIETLRKDNEELKAKMNDLNSEVEKLKVENKKLSKENEDLKSDVDQLKDENKKLKDENTNLKDDLKKSEADLEILKTDFDKLKTENEELKKDLEKVKAEAENMNNELKKLAAELDKVRKEKDNLEEKKAIEDNEALRNETDSLRNENSKLKAAGDSEKEEKNKANEEIRSLKDQNEKISRDLDNARSEINSLKGQVDNLKSEMESIKEKLQSKEDELNALKNELKDFLSKFDELKDENNRLKTERESLRKQLNDLKNELSRLEAENLDLKEELAKLKSELVKIVSENDNLKKELAEALKDYDQCQTDGCKLKNEIDKLKAAVENLKKELSNSEAKIKELEGRLLSKESEKNSLEREIEGLKKNLSAEKAEKEAVLKKLEDLNEELKVLKAELARLRSENDQHKAEIDDLKKQLVLTKDELNKAKSEIAALKDDNNKLKGQGDTLANESEKVRGELGKWKAEAEAQRNENAKLKGEVDKLGAENTRLKNEIEGLNNEVSGLKNINSKLQNELGAAKSEVDKLKSELSGSRAENEKLKGEMNSLKSEVGRLNEEMNKIKAEIERLKKSLSDGEAKIKNLEIQVASLESEKGTLVKELNSLRDEQDKLKKELTAEKNAKEAALKELEGLKSELSMMRAELEKYRTENEKSKSDLQASKKKVDELTNENGILKAEIEKLRNELNVLKSENTKLKDELDKVKNNLEKVTAEYNAYKAEKEKEINNLKTENDRLKKELADVQEKTKNLEDQLKSLQDAKAKLEADAADLKSQLEKLRQDLAVEKGNKEAARKELEALKNTLGDLRNEMGKIKEENEKLIVENASLKKQIDKLRSDVEKSKGDLDKLEAENGRLRGEINKLKEDLEKLRAELEKIKAEKDKIKDELEKSKADAAKLRDDLQKAKADADRLISENKKLKNDLDEAKAGSDMLKARVSKGSVESNKWKEELEKLKLELAKAKDEANQCKAEVGRLKSEIERLKAEIDKMKTQDRKSKVSIDRPKAESPKAESRRISVSEDECGDFIKSNEILRKRIQEQNKAIDRVREFIGFVEGKNPSKPSMAEDYSADGDTGGWIVPAVNEVMEKSKKLSENIFKAEKEIQHLEAFLQRKSVGDSEALDPEGPRGDFNADSWLGSLTLSQLAELHDKICLLTASMVDADSNSIGSERVLPEIQLGNEQSHQRLNNPLERDYETLNKRIAALQKQISEKELEAARKMHEMKNILRQEQMQLIKISEEMTKEKKRNLALQMTIDQDPCWTKNCNAECRGDFDNIREY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01390819;
90% Identity: iTF_01389931; iTF_01393233; iTF_01390819; iTF_01389164; iTF_01391712;
80% Identity: -