Basic Information

Insect: Euceroptres primus
Gene Symbol: -
Assembly: GCA_037177015.1
Location: JBAGKK010507218.1:1604-9603[-]

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 47 0.49 1.7e+03 1.3 0.3 31 58 60 87 54 92 0.67

2 47 0.092 3.3e+02 3.6 1.2 39 63 106 130 101 132 0.70

3 47 0.053 1.9e+02 4.4 0.8 37 58 156 177 145 182 0.63

4 47 6.3e-05 0.22 13.8 0.6 25 56 216 247 212 254 0.90

5 47 9.4 3.3e+04 -2.8 2.4 31 63 280 312 277 313 0.89

6 47 0.15 5.1e+02 3.0 0.2 27 61 370 404 367 408 0.81

7 47 0.029 1e+02 5.2 6.1 26 61 436 471 431 475 0.58

8 47 0.026 92 5.4 6.0 29 63 467 504 466 506 0.87

9 47 0.00067 2.4 10.5 10.3 24 65 530 571 527 571 0.92

10 47 0.0026 9.1 8.6 4.3 29 64 570 605 567 613 0.71

11 47 1.5e-05 0.053 15.7 8.2 22 65 612 655 610 655 0.95

12 47 0.0013 4.6 9.5 6.4 29 64 647 682 646 683 0.93

13 47 3 1.1e+04 -1.2 10.8 24 64 719 759 715 764 0.88

14 47 0.0095 33 6.8 3.7 32 62 762 792 759 794 0.91

15 47 1.3e-05 0.047 15.9 2.6 24 58 789 823 788 823 0.94

16 47 2.4e-05 0.083 15.1 12.0 21 64 807 850 807 851 0.94

17 47 1.3 4.7e+03 -0.1 9.6 24 64 901 941 900 947 0.86

18 47 0.026 90 5.4 5.6 32 62 944 974 937 976 0.88

19 47 2.3e-06 0.0081 18.3 3.7 24 58 971 1005 970 1006 0.96

20 47 1.4e-05 0.048 15.9 8.1 29 64 997 1032 996 1033 0.95

21 47 0.0097 34 6.8 10.9 21 62 1045 1086 1045 1089 0.93

22 47 0.062 2.2e+02 4.2 6.9 24 63 1083 1122 1081 1123 0.88

23 47 0.00015 0.53 12.5 6.2 22 59 1102 1139 1100 1143 0.95

24 47 0.046 1.6e+02 4.6 3.8 23 60 1145 1182 1143 1184 0.89

25 47 7.6e-06 0.027 16.7 3.7 21 61 1171 1211 1167 1215 0.82

26 47 0.051 1.8e+02 4.4 2.8 29 65 1207 1243 1206 1243 0.93

27 47 0.00026 0.9 11.8 6.3 32 65 1231 1264 1222 1264 0.89

28 47 3.2e-05 0.11 14.7 8.0 22 64 1242 1284 1240 1285 0.91

29 47 0.0025 8.6 8.7 3.4 29 61 1277 1309 1272 1313 0.86

30 47 0.15 5.3e+02 2.9 1.7 24 62 1300 1338 1298 1340 0.85

31 47 0.00083 2.9 10.2 6.5 25 63 1336 1374 1334 1376 0.92

32 47 0.0019 6.7 9.0 5.9 31 63 1377 1409 1368 1425 0.52

33 47 0.23 8e+02 2.4 3.0 24 61 1433 1470 1418 1474 0.69

34 47 8e-06 0.028 16.6 4.9 24 65 1468 1509 1465 1509 0.91

35 47 3.4e-05 0.12 14.6 0.9 22 62 1487 1527 1487 1530 0.91

36 47 0.015 52 6.2 0.5 24 63 1531 1570 1528 1572 0.85

37 47 2.8e-07 0.00098 21.3 7.8 25 63 1574 1612 1570 1613 0.95

38 47 2.3 8.1e+03 -0.9 0.1 39 64 1623 1648 1618 1649 0.72

39 47 0.0029 10 8.4 4.8 23 65 1649 1691 1647 1705 0.74

40 47 0.062 2.2e+02 4.2 7.9 31 62 1717 1748 1711 1749 0.91

41 47 0.00099 3.5 9.9 2.3 25 61 1739 1775 1737 1779 0.91

42 47 0.001 3.6 9.9 7.7 13 62 1783 1832 1774 1835 0.86

43 47 0.029 1e+02 5.2 3.1 26 64 1845 1883 1839 1884 0.81

44 47 0.045 1.6e+02 4.6 1.3 22 62 1883 1923 1882 1925 0.80

45 47 0.00075 2.6 10.3 12.2 22 65 1932 1975 1930 1975 0.93

46 47 0.11 3.8e+02 3.4 2.5 30 52 1968 1990 1967 1991 0.55

47 47 9.9 3.5e+04 -2.9 0.2 38 55 2185 2202 2183 2211 0.62

#	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	47	0.49	1.7e+03	1.3	0.3	31	58	60	87	54	92	0.67
2	47	0.092	3.3e+02	3.6	1.2	39	63	106	130	101	132	0.70
3	47	0.053	1.9e+02	4.4	0.8	37	58	156	177	145	182	0.63
4	47	6.3e-05	0.22	13.8	0.6	25	56	216	247	212	254	0.90
5	47	9.4	3.3e+04	-2.8	2.4	31	63	280	312	277	313	0.89
6	47	0.15	5.1e+02	3.0	0.2	27	61	370	404	367	408	0.81
7	47	0.029	1e+02	5.2	6.1	26	61	436	471	431	475	0.58
8	47	0.026	92	5.4	6.0	29	63	467	504	466	506	0.87
9	47	0.00067	2.4	10.5	10.3	24	65	530	571	527	571	0.92
10	47	0.0026	9.1	8.6	4.3	29	64	570	605	567	613	0.71
11	47	1.5e-05	0.053	15.7	8.2	22	65	612	655	610	655	0.95
12	47	0.0013	4.6	9.5	6.4	29	64	647	682	646	683	0.93
13	47	3	1.1e+04	-1.2	10.8	24	64	719	759	715	764	0.88
14	47	0.0095	33	6.8	3.7	32	62	762	792	759	794	0.91
15	47	1.3e-05	0.047	15.9	2.6	24	58	789	823	788	823	0.94
16	47	2.4e-05	0.083	15.1	12.0	21	64	807	850	807	851	0.94
17	47	1.3	4.7e+03	-0.1	9.6	24	64	901	941	900	947	0.86
18	47	0.026	90	5.4	5.6	32	62	944	974	937	976	0.88
19	47	2.3e-06	0.0081	18.3	3.7	24	58	971	1005	970	1006	0.96
20	47	1.4e-05	0.048	15.9	8.1	29	64	997	1032	996	1033	0.95
21	47	0.0097	34	6.8	10.9	21	62	1045	1086	1045	1089	0.93
22	47	0.062	2.2e+02	4.2	6.9	24	63	1083	1122	1081	1123	0.88
23	47	0.00015	0.53	12.5	6.2	22	59	1102	1139	1100	1143	0.95
24	47	0.046	1.6e+02	4.6	3.8	23	60	1145	1182	1143	1184	0.89
25	47	7.6e-06	0.027	16.7	3.7	21	61	1171	1211	1167	1215	0.82
26	47	0.051	1.8e+02	4.4	2.8	29	65	1207	1243	1206	1243	0.93
27	47	0.00026	0.9	11.8	6.3	32	65	1231	1264	1222	1264	0.89
28	47	3.2e-05	0.11	14.7	8.0	22	64	1242	1284	1240	1285	0.91
29	47	0.0025	8.6	8.7	3.4	29	61	1277	1309	1272	1313	0.86
30	47	0.15	5.3e+02	2.9	1.7	24	62	1300	1338	1298	1340	0.85
31	47	0.00083	2.9	10.2	6.5	25	63	1336	1374	1334	1376	0.92
32	47	0.0019	6.7	9.0	5.9	31	63	1377	1409	1368	1425	0.52
33	47	0.23	8e+02	2.4	3.0	24	61	1433	1470	1418	1474	0.69
34	47	8e-06	0.028	16.6	4.9	24	65	1468	1509	1465	1509	0.91
35	47	3.4e-05	0.12	14.6	0.9	22	62	1487	1527	1487	1530	0.91
36	47	0.015	52	6.2	0.5	24	63	1531	1570	1528	1572	0.85
37	47	2.8e-07	0.00098	21.3	7.8	25	63	1574	1612	1570	1613	0.95
38	47	2.3	8.1e+03	-0.9	0.1	39	64	1623	1648	1618	1649	0.72
39	47	0.0029	10	8.4	4.8	23	65	1649	1691	1647	1705	0.74
40	47	0.062	2.2e+02	4.2	7.9	31	62	1717	1748	1711	1749	0.91
41	47	0.00099	3.5	9.9	2.3	25	61	1739	1775	1737	1779	0.91
42	47	0.001	3.6	9.9	7.7	13	62	1783	1832	1774	1835	0.86
43	47	0.029	1e+02	5.2	3.1	26	64	1845	1883	1839	1884	0.81
44	47	0.045	1.6e+02	4.6	1.3	22	62	1883	1923	1882	1925	0.80
45	47	0.00075	2.6	10.3	12.2	22	65	1932	1975	1930	1975	0.93
46	47	0.11	3.8e+02	3.4	2.5	30	52	1968	1990	1967	1991	0.55
47	47	9.9	3.5e+04	-2.9	0.2	38	55	2185	2202	2183	2211	0.62

Sequence Information

Coding Sequence: atGAATGATTCGTCTGGACAATTTTGCCACTGTGGCTGCGATGCTCCAGGGACTTTTAAACCAGAGGATCCACCAAATGAACCATGTTGTTGTTGTAATTATAATCCATTTAGTGACAATTCGAAGGATGCAGAAATTTACGATCTGCCCTTTGCCCTTCGAAAACTAACGGTAATGAAGTGCCAAATGAAAAAGTGGCGAATGGAACGACTTCAATTGGAGAGTGAAACTCGATCTTTAAAACAAGCACTTCAACAATatgGTATTAACATTGATGAGGCCTTAAAACCTGATCCCTTGATTGTCCACTTCCGAGAGGAAAATCTGAGACTCCAAAATCTTAATGATCAATTGGAGGATAAAGTCAAGGACCTTAAAGAAACTTTGGATGAACGTGATTACTATGACGATCCATGCGATTCTGTAAAATACATCAGAGAAAAAATGAAGGAACTTCGAAATCATTTTGCCGATGAAAAGAAACAATTAAGAGAAGAAATAGCAGCTTTGAAACTGAAGCTTGCAGAAATGGATGACGACACTTCATGTGCAGCACTAAATCGTTTAAGAGCAAAACTTCGTGAATTGATGAATGGTGGACAGAAGGCTGACCACCAAGTTTCGATGGTTGTGGAAAAATCTATAGAAACTATGATGGAACTTTCGAAAAGCTGCACAGATTTGAAATCTGAAAACGACAGACTTTTGGATGAATTAGAAGCTCTTCGAAGAAAATTCGGACTTGAAAAGGACACTTCGACAGAAGATGTCATTACTCATGAAATGGGATTGCAACAATCATTGGAACAAACAGACTTATATGAAGGAGTAGATTTATATGAACAACTGAAAAAGTGCCAGGCTCTAGTTGCTGATTTGAGAAATCAAATTGCTGAGAAGGATGAAATCCTGAATGATTTGGAAAATAAActtcaagaagaaaaaagaatttcaggaCAACTTGAAGAAGATTTGGACAAAATGACTGTTAGCCACCGAGCCTTCATGAAGGAAGTTGCTGATATGAAGgatgaattaaaaaagagagatgaaaaggTCACTGAGCTTGTAGGAAATTTAAGAAGCTCAGCTTTAAATCTTCTTGGTATGGAGAAACTGTCAGACGAAATTGAGGCACTAAAACCTCAGTTGTACGACCTTAAAACAGAAAAAGGAGAACTTTTAGATGAACTTGGAAAAATACGAGGCGTCGTGTCTGAAAGAAATGACcaaatcatcaaaattttagaagaaaaagacaaaatgAGAAGCGATTGTAACGCTAAATTAATTGCTATGCAGACTAGGGTAGAAGCCTTATTAGTCCAAGAAGATATACTTAAAAAGGAAATTGAAGATTTGAAATCAGAAATCAAAGAACTAGAAAATGAACTAGCAGAGCTACAAGCCAAAATATTGGAACTGGAAGAAAAAAGCAGCGAAAATGAAGCCTTGAGGAAGAAGATTCGTGATCTTGAGGATCAACTTGCTAAATTAAATGCTGAACTATCTGCAGCTCAGAGTCACGCTCAAGAACTTGTAAATGagGCAGAAATTGAGAAATTGAAGAAAGATTTGGATGCTGAAAGAGCAGCAAAAGAAAGTGTTTCTAAAGAACTCGAAGCCTGCAAGGCAGAATTAGAAAAACTGaaatcagaaaatgaagaattaaagtcagaaaaagagaatttgaagagtaatcttaaaaaattggaGGACGAAATTAAGCATTTGAAAGAAGAGAATGAAATGTTGAAGGCAGAGAATAGTAACAtcattgcagaaaataaaaagtttaaagaaaatattgatcaATTGAAAGAcgagaatgaaaaattaaaagctgcaattgataaactgaaaaatgaattaaaagacCTCGAGACAGAAAAAGATTCTCTTAAAACTGAGTTAAATTCCTTAAATGATGAATTAGAAAAGTTGAAGgctgaaataaagaaattgtcaAATGAAAATGCAGCTCTTAAAGAAGAATTAACTGGTCTAAGGGCGGAAAAAGATAAATTGGAGCAAGATTTGAAAAAAGCTCAAAtagaaatcgaaaaattgaaaagtgatttAGAAAAAGAGAAATCTGAAAAGGAAGTTGCCTTGAAGGAACTGGAAGGTCTTAAAAAGAAGACGAGTTTAATGAAAGATGagctggaaaatttgaaaacccaATTGGAAAAAGCATCAGCTAATTTGGCAGATCTTAAGGAGCAgaatgagaaattgaaaaatgatttggaAAATGTGAAAGACCAACTAGAGAAATCATTATCTGAATTAGCCGCTTTGAAAGAACAAAATGGGAAGTTAAAAGATGAATTGGAGACTTCGAAAAGGGAGAATGAGGCactcaaaacaaaaattgataatcTCGCATCCGATATTGAAAAACTTAAAtcagaaaatgataaattattgaacgaaaataataaattaaaggcAGAAGTTTATCAGCTGGAAGAAGAAAATACAAAACTTAAAGAAGAGAATACAAAAATGAAAGACGAGAATCATAAGCTCaaagaaaacttagaaaaatcAAACGCTGTTTTAGAAACGCTGAAGTCAGATTTTGACAAAATGAAATCAGAGaatgaagaaatgaagaaagatttagaaaaagagAAATCTGAAAAGGAAGTTGCCTTGAAGGAACTGGAAGATCTTAAAAAGAAGACGAGTTTAATGAAAGATGagctggaaaatttgaaaacccaATTGGAAAAAGCATCAGCTAATTTGGCAGATCTTAAGGAGCAgaatgagaaattgaaaaatgatttggaAAATGTGAAAGACCAACTAGAGAAATCATTATCTGAATTAGCCGCTTTGAAAGAACAAAATGGGAAGTTAAAAGATGAATTGGAGACTTCGAAAAGGGAGAATGAGGCactcaaaacaaaaattgataatcTCGCATCCGATATTGAAAAACTTAAAtcagaaaatgataaattattgaacgaaaataataaattaaaggcAGAAGTTGATCAGCTggaagaagaaaatataaaactgaaagAAGAGAATACAAAAATGAAAGACGAGAATCATAAgctgaaagaaaatttagaaaaatcaaacgCTGCTTTAGAAAAGCTGAAGTCAGATTTTGACAAAATGAAATCAGAGaatgaagaaatgaagaaaGATTTAGATAAAGTGAAAGCTGAAACagaaaagttgcaaaatgaatTGAAGAATTTGTCAGAAGAATTAgataatatcaaaaaagaaaaagaaaatctgcAAGCAAAATTAACAGGTCTTGAATCTGATTTAGAAAAGCTGAAAGTAGAGAATAATGGTTTGAATTCAGAACTCAAGAAAGCAAAAGAAGagaacgaaaaattaaaaaatgaagtggaTTCTATAAAGGACGAAAATGCAAAGCTTAAGATAGAAGGAGATTctcaaaaagaggaaaaagacaAAACAAATGCAGAAATTAAATccttaaaagaacaaaatgaagAATTATCACGTGCTCTTGACAAATCTAAATCAGAAGTAAGTTCTCTAAAAGGAGAAGTCGATCGTTTGAAATCAGAAATTGAGAGTTTGAAATCAGAACTTCAGAGTTTGAAATCAGAACTTGAGAGTTTGAAATCAAGAAAGGAAGCAGTTGAAGATGAATTAAATGCTTTGAAAAAAGAGTTGAAAGACTTTCTCGCAAAGTTTGATGAACTCAAAGATGAAAACAGTAAATTGAAGTCAGAAAGGGATAAACTTCAAAAGCAGATGAACGATTTGAAGAACGAATTATCAAGACTAGATGCAGAAAATTCGGAATTGAGGGACGAACTTGCGAAGTTAAAATCAGAGCTAGCTAAGATTATGGCAGAAAATACTAGATTGAAAAAGGAAATTGCAAAACTGACAGAAGATAATGATAAAAGTCAGGCAGAATGTTGCAAGCTTAAACTTGATATTGACAAGTTAAATGCgtcagttgaaaatttgaagaaagaaTTGAGCGACTGTGAAGAGAAGATAAGAGAACTTGAAGATCAACTCTCCGAAAAGGAAGctgagaaaaagaaattgaaacgaGAAATTGAAGGTTTGAAGAATGATTTGGCAGCACAGAGAGCTGAGATAGAAGCAGCTTTGAAGAAAGTGGCAGATCTTAGTGAAGAACTTGGACTTCTGAAAGCTGAATTGGCTAAGTTGAGATCAGAAAATGCTCAGCTTAAAGCAGAAATCGATGATCTGAAGAAAAGACTAACTTTGGCTAAGGATGAATTGAACAATGCTAACAGTGAAATTTCagctttgaaaaatgataacaaTAAATTGAAAGGCCAAGGAGACACTTTAGCTAATGAAAGTGAAAAGTTGAGAGGAGAGGCGAACAAATTTAAATCTGAGCTTGAAGCTCAAAGAAACGAAAATGCCAAGTTAAAAGGTGAAGCTGAAAAGCTGGCAGCAGAAAATCTTAAACTTAAAAGTGAAGTTGATGGATTGAAAAATGAAGTTAGTGGGCTGAAGAACGAAAATACTAAACTTCAAAATGAACTAGCATCTGCAAAAATTGAAGCTGGTAAGTTGAAATCAGATTTGGCTGCTTCTAGagctgaaaatgaaaaattaaaaggggatataattaatttaaaaagtgaagtTGGGATATTAAAGGAAGAAGTAAATACTATGAAAGCTGAGTCTGAAAGattgaaaaagtccttgaatgaTGCAGAGGCCAAGATTAAAACTTTGGAAAATCAAGTTGCAGCTTTAGAAGACGAAAAAGCAAAGCTTCTTAAAGAATTAAGCAGTTTGAGGGCTGAAgtggaaaagttgaaaaaggaaTTGGAATCTGAGAAAAGTGCTAAAGATGCAGCACTTAAAGAAGCAGCTGGTCTCAAATCTGAATTAGCAACGATGAGAGGTGAATTAGAAAAATCCAGAGCagataatgaaaaattgaaagctgATTTGGAAGcaacgaagaaaaatattgcTGATTTGACAACTGAAAATGGAGTTTTAAAAtcagatttagaaaaattgagGAACGAATTGAATGCCCtaaagaatgaaaattcgaaacttaAAGACAATTTGGACAAATTGAGAACTAATCTAGATGAAGTCACAGCCGATTTTAATGCTTATAAAGCAGATAAGgaaaaggaattaaataatttgaaagtagagaatgctcaattaaaaaaagaacttgCAGATTTGCAAGCaaagatgaaaaatttagaagatcaACTCAAAGGTCTTCAGGATGCTAAAGCAAAATTGGAAGCAGAGATTGCTGACTTTAACTCACAGATGGAAAAACTGAACAAGGATCTAGCTACTGAGAAATATGCTAAAGAAGCTGCTCAAAAGGAACTCGAAgctttgaaaaatactttagctgatttgagaaaagaaataggaagaTGTAAGGAAGAAAATGAGAAGCTCatattagaaaatgcaaatttgaaGAAACAAGTTGACAAGTGGAAAAACGATGCCGAAAAATTTAAAGGAGATTTGGATAAAGTTGGGGCTGAGAATGAAAAGCTGAAAGCTGATGCTAATAAGTTGAAGGCAGATTTCGAGAGGCTGAAAgcagaaaatgataaaatgaaaGATGACCTTGAAAAATCAAAAGCAGAAGCAGAAAAGTTGCGAGATGATATTCAAAAAGCAAAGGCAGATGCCGATAAATTAAcagctgaaaataaaaagttgaaaaatgatttagatGTGGCAAAAGAGGGATCTGATATGTTAAAAGCTCAAGTTAGCAAAGGAAGTGTGGAATCTAACAAGTGGAAAGAAGAATTAGATAAGTTGAGAGCTGAGCTTGCTAAATGTAAAGCTGAAAATGACAAACTAAAGGCAGAAAAGGAAaaactgaaaactgaaaatgaaaaactgaaaactgaaaataaaaaactggagggagaaaatgaaaaactgaaaactagaattgaaaaactgaaaactgGGGATGGAAAATCAAAACCTGTTGGTGATGACAAAGCTTTACTCACAAAGGAAACTGGGAAACCTGAAGTGGACACTGGAATATTATCAGATGAAGACGGATGTGgagattttattaaatccaatgagcttttaaaaaagaggATCCAGGAACAAAATGAAGCTATCGATCGTGTCAGAGAATTTATTGGCTTTGTGGaaggtaaaaataaaacgaaaccTAAGATGGCTGAAGATTACAATACTGATGGCGATTCGGGTGATTGGATAGTACCAGCAGTTAATGAAGTTATGGAAAAGTCACAGAAACTatccgaaaatatttttaaagctgAGCAGGAAATACAaaaccttgaaaattttctacaacGAAAGAGCATTTTGGATTCGGAGTCGGGAGATTTTATTGCTGATTCCTGGTTGAAATCATTGACACTGACGCAATTGGCTGAGCTTCACGATAAAGTTTGTCTGCTTACGTCGTCAATGGTTGAAGCTGATAGCAGTTCATTGGGTTCAGAAAGAGCATTGCCAGAAGATCAATTACAAGACGTCTCTCAAGGATCAGATAATCCTTTGGAAAGAGATTACGACACACTAAATAAGAGAATATCAGCACTCCAGAAGCAAATTTCTGAAAAGGAATTGGAAGCTGCGAGAAAAATGTATGAGATGAGAAACGTTCTTCGTCAAGAACAACTGCAATTGATTAGACTTTCCGAAGAAATGACCCAggagaaaaaacgaaatttagCCCTTCAGATGACCATTGATCAAGAACCTTGCTGGATAAACAGTTGCAAGGCTGAATGTGGTGGAGATTTTGATCATctcagagaaaattaa
Protein Sequence: MNDSSGQFCHCGCDAPGTFKPEDPPNEPCCCCNYNPFSDNSKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGINIDEALKPDPLIVHFREENLRLQNLNDQLEDKVKDLKETLDERDYYDDPCDSVKYIREKMKELRNHFADEKKQLREEIAALKLKLAEMDDDTSCAALNRLRAKLRELMNGGQKADHQVSMVVEKSIETMMELSKSCTDLKSENDRLLDELEALRRKFGLEKDTSTEDVITHEMGLQQSLEQTDLYEGVDLYEQLKKCQALVADLRNQIAEKDEILNDLENKLQEEKRISGQLEEDLDKMTVSHRAFMKEVADMKDELKKRDEKVTELVGNLRSSALNLLGMEKLSDEIEALKPQLYDLKTEKGELLDELGKIRGVVSERNDQIIKILEEKDKMRSDCNAKLIAMQTRVEALLVQEDILKKEIEDLKSEIKELENELAELQAKILELEEKSSENEALRKKIRDLEDQLAKLNAELSAAQSHAQELVNEAEIEKLKKDLDAERAAKESVSKELEACKAELEKLKSENEELKSEKENLKSNLKKLEDEIKHLKEENEMLKAENSNIIAENKKFKENIDQLKDENEKLKAAIDKLKNELKDLETEKDSLKTELNSLNDELEKLKAEIKKLSNENAALKEELTGLRAEKDKLEQDLKKAQIEIEKLKSDLEKEKSEKEVALKELEGLKKKTSLMKDELENLKTQLEKASANLADLKEQNEKLKNDLENVKDQLEKSLSELAALKEQNGKLKDELETSKRENEALKTKIDNLASDIEKLKSENDKLLNENNKLKAEVYQLEEENTKLKEENTKMKDENHKLKENLEKSNAVLETLKSDFDKMKSENEEMKKDLEKEKSEKEVALKELEDLKKKTSLMKDELENLKTQLEKASANLADLKEQNEKLKNDLENVKDQLEKSLSELAALKEQNGKLKDELETSKRENEALKTKIDNLASDIEKLKSENDKLLNENNKLKAEVDQLEEENIKLKEENTKMKDENHKLKENLEKSNAALEKLKSDFDKMKSENEEMKKDLDKVKAETEKLQNELKNLSEELDNIKKEKENLQAKLTGLESDLEKLKVENNGLNSELKKAKEENEKLKNEVDSIKDENAKLKIEGDSQKEEKDKTNAEIKSLKEQNEELSRALDKSKSEVSSLKGEVDRLKSEIESLKSELQSLKSELESLKSRKEAVEDELNALKKELKDFLAKFDELKDENSKLKSERDKLQKQMNDLKNELSRLDAENSELRDELAKLKSELAKIMAENTRLKKEIAKLTEDNDKSQAECCKLKLDIDKLNASVENLKKELSDCEEKIRELEDQLSEKEAEKKKLKREIEGLKNDLAAQRAEIEAALKKVADLSEELGLLKAELAKLRSENAQLKAEIDDLKKRLTLAKDELNNANSEISALKNDNNKLKGQGDTLANESEKLRGEANKFKSELEAQRNENAKLKGEAEKLAAENLKLKSEVDGLKNEVSGLKNENTKLQNELASAKIEAGKLKSDLAASRAENEKLKGDIINLKSEVGILKEEVNTMKAESERLKKSLNDAEAKIKTLENQVAALEDEKAKLLKELSSLRAEVEKLKKELESEKSAKDAALKEAAGLKSELATMRGELEKSRADNEKLKADLEATKKNIADLTTENGVLKSDLEKLRNELNALKNENSKLKDNLDKLRTNLDEVTADFNAYKADKEKELNNLKVENAQLKKELADLQAKMKNLEDQLKGLQDAKAKLEAEIADFNSQMEKLNKDLATEKYAKEAAQKELEALKNTLADLRKEIGRCKEENEKLILENANLKKQVDKWKNDAEKFKGDLDKVGAENEKLKADANKLKADFERLKAENDKMKDDLEKSKAEAEKLRDDIQKAKADADKLTAENKKLKNDLDVAKEGSDMLKAQVSKGSVESNKWKEELDKLRAELAKCKAENDKLKAEKEKLKTENEKLKTENKKLEGENEKLKTRIEKLKTGDGKSKPVGDDKALLTKETGKPEVDTGILSDEDGCGDFIKSNELLKKRIQEQNEAIDRVREFIGFVEGKNKTKPKMAEDYNTDGDSGDWIVPAVNEVMEKSQKLSENIFKAEQEIQNLENFLQRKSILDSESGDFIADSWLKSLTLTQLAELHDKVCLLTSSMVEADSSSLGSERALPEDQLQDVSQGSDNPLERDYDTLNKRISALQKQISEKELEAARKMYEMRNVLRQEQLQLIRLSEEMTQEKKRNLALQMTIDQEPCWINSCKAECGGDFDHLREN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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