Basic Information

Insect: Tenthredo scrophulariae
Gene Symbol: -
Assembly: GCA_963978835.1
Location: OZ022234.1:1006048-1013396[+]

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 4.7 5.5e+03 -1.8 0.9 33 53 60 80 53 85 0.51

2 46 0.051 60 4.5 2.2 25 58 103 129 98 135 0.51

3 46 5.6 6.5e+03 -2.0 0.9 4 46 144 186 141 197 0.57

4 46 0.0044 5.1 8.0 2.2 28 56 217 245 210 251 0.63

5 46 0.92 1.1e+03 0.5 0.4 40 62 273 295 265 297 0.74

6 46 4.4 5.1e+03 -1.7 0.2 26 55 301 330 298 359 0.70

7 46 0.0031 3.6 8.4 7.3 26 60 441 475 431 480 0.60

8 46 0.0054 6.3 7.7 3.8 29 63 465 502 464 504 0.90

9 46 3.7e-06 0.0043 17.8 9.4 24 63 505 544 503 545 0.95

10 46 0.00018 0.21 12.4 4.1 24 62 547 585 546 588 0.90

11 46 0.086 99 3.8 2.5 34 60 585 611 582 616 0.57

12 46 2.5e-05 0.029 15.1 4.1 24 62 617 655 614 658 0.91

13 46 0.00013 0.16 12.8 0.8 36 65 650 679 645 679 0.92

14 46 0.015 18 6.2 5.4 24 63 659 698 656 700 0.73

15 46 7.7e-07 0.00089 20.0 8.5 20 64 704 748 701 749 0.96

16 46 0.00048 0.55 11.0 8.0 21 63 740 782 740 784 0.82

17 46 0.098 1.1e+02 3.6 10.2 21 64 789 832 778 833 0.75

18 46 0.00056 0.65 10.8 9.7 22 64 804 846 803 847 0.94

19 46 0.0099 11 6.8 8.6 29 63 825 859 821 868 0.61

20 46 0.27 3.1e+02 2.2 12.7 20 64 837 895 837 903 0.89

21 46 3e-05 0.035 14.9 2.0 31 62 904 935 901 937 0.94

22 46 0.00024 0.28 12.0 0.4 24 64 960 1000 952 1001 0.91

23 46 1.1e-05 0.013 16.2 3.4 29 64 993 1028 991 1036 0.75

24 46 0.0037 4.3 8.2 5.1 32 63 1031 1062 1027 1064 0.88

25 46 5.8e-06 0.0068 17.2 3.7 25 63 1066 1104 1064 1106 0.94

26 46 0.017 19 6.1 3.5 24 62 1121 1159 1109 1161 0.83

27 46 0.00052 0.61 10.9 3.2 22 65 1133 1176 1132 1176 0.91

28 46 0.0015 1.7 9.5 7.5 21 64 1160 1203 1159 1204 0.92

29 46 0.0015 1.7 9.5 9.0 29 63 1189 1223 1183 1232 0.62

30 46 0.028 32 5.4 1.1 28 64 1230 1266 1223 1267 0.79

31 46 0.00031 0.36 11.6 5.0 25 65 1255 1295 1251 1295 0.88

32 46 0.0006 0.69 10.7 6.8 21 64 1265 1308 1264 1309 0.91

33 46 0.00027 0.31 11.8 6.9 24 64 1282 1322 1281 1330 0.88

34 46 0.00032 0.37 11.6 3.1 23 64 1302 1343 1299 1351 0.90

35 46 0.0029 3.3 8.5 3.4 21 61 1342 1382 1342 1385 0.86

36 46 1.4e-05 0.016 16.0 7.6 24 64 1380 1420 1379 1421 0.92

37 46 0.0053 6.1 7.7 9.9 24 65 1450 1491 1426 1491 0.91

38 46 2.3e-05 0.027 15.3 6.1 24 64 1478 1518 1477 1519 0.92

39 46 0.041 47 4.9 3.5 29 61 1532 1564 1518 1568 0.49

40 46 0.00024 0.28 12.0 3.7 24 65 1548 1589 1545 1589 0.89

41 46 7.7e-06 0.0089 16.8 5.0 23 64 1575 1616 1572 1617 0.91

42 46 0.0086 10 7.0 4.6 22 64 1630 1672 1616 1680 0.76

43 46 0.0095 11 6.9 3.6 21 62 1657 1698 1650 1708 0.67

44 46 0.0017 2 9.2 3.4 24 65 1688 1729 1685 1734 0.93

45 46 0.0043 5 8.0 3.2 27 62 1712 1747 1709 1749 0.85

46 46 0.11 1.3e+02 3.5 2.5 22 60 1735 1773 1733 1778 0.87

#	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	4.7	5.5e+03	-1.8	0.9	33	53	60	80	53	85	0.51
2	46	0.051	60	4.5	2.2	25	58	103	129	98	135	0.51
3	46	5.6	6.5e+03	-2.0	0.9	4	46	144	186	141	197	0.57
4	46	0.0044	5.1	8.0	2.2	28	56	217	245	210	251	0.63
5	46	0.92	1.1e+03	0.5	0.4	40	62	273	295	265	297	0.74
6	46	4.4	5.1e+03	-1.7	0.2	26	55	301	330	298	359	0.70
7	46	0.0031	3.6	8.4	7.3	26	60	441	475	431	480	0.60
8	46	0.0054	6.3	7.7	3.8	29	63	465	502	464	504	0.90
9	46	3.7e-06	0.0043	17.8	9.4	24	63	505	544	503	545	0.95
10	46	0.00018	0.21	12.4	4.1	24	62	547	585	546	588	0.90
11	46	0.086	99	3.8	2.5	34	60	585	611	582	616	0.57
12	46	2.5e-05	0.029	15.1	4.1	24	62	617	655	614	658	0.91
13	46	0.00013	0.16	12.8	0.8	36	65	650	679	645	679	0.92
14	46	0.015	18	6.2	5.4	24	63	659	698	656	700	0.73
15	46	7.7e-07	0.00089	20.0	8.5	20	64	704	748	701	749	0.96
16	46	0.00048	0.55	11.0	8.0	21	63	740	782	740	784	0.82
17	46	0.098	1.1e+02	3.6	10.2	21	64	789	832	778	833	0.75
18	46	0.00056	0.65	10.8	9.7	22	64	804	846	803	847	0.94
19	46	0.0099	11	6.8	8.6	29	63	825	859	821	868	0.61
20	46	0.27	3.1e+02	2.2	12.7	20	64	837	895	837	903	0.89
21	46	3e-05	0.035	14.9	2.0	31	62	904	935	901	937	0.94
22	46	0.00024	0.28	12.0	0.4	24	64	960	1000	952	1001	0.91
23	46	1.1e-05	0.013	16.2	3.4	29	64	993	1028	991	1036	0.75
24	46	0.0037	4.3	8.2	5.1	32	63	1031	1062	1027	1064	0.88
25	46	5.8e-06	0.0068	17.2	3.7	25	63	1066	1104	1064	1106	0.94
26	46	0.017	19	6.1	3.5	24	62	1121	1159	1109	1161	0.83
27	46	0.00052	0.61	10.9	3.2	22	65	1133	1176	1132	1176	0.91
28	46	0.0015	1.7	9.5	7.5	21	64	1160	1203	1159	1204	0.92
29	46	0.0015	1.7	9.5	9.0	29	63	1189	1223	1183	1232	0.62
30	46	0.028	32	5.4	1.1	28	64	1230	1266	1223	1267	0.79
31	46	0.00031	0.36	11.6	5.0	25	65	1255	1295	1251	1295	0.88
32	46	0.0006	0.69	10.7	6.8	21	64	1265	1308	1264	1309	0.91
33	46	0.00027	0.31	11.8	6.9	24	64	1282	1322	1281	1330	0.88
34	46	0.00032	0.37	11.6	3.1	23	64	1302	1343	1299	1351	0.90
35	46	0.0029	3.3	8.5	3.4	21	61	1342	1382	1342	1385	0.86
36	46	1.4e-05	0.016	16.0	7.6	24	64	1380	1420	1379	1421	0.92
37	46	0.0053	6.1	7.7	9.9	24	65	1450	1491	1426	1491	0.91
38	46	2.3e-05	0.027	15.3	6.1	24	64	1478	1518	1477	1519	0.92
39	46	0.041	47	4.9	3.5	29	61	1532	1564	1518	1568	0.49
40	46	0.00024	0.28	12.0	3.7	24	65	1548	1589	1545	1589	0.89
41	46	7.7e-06	0.0089	16.8	5.0	23	64	1575	1616	1572	1617	0.91
42	46	0.0086	10	7.0	4.6	22	64	1630	1672	1616	1680	0.76
43	46	0.0095	11	6.9	3.6	21	62	1657	1698	1650	1708	0.67
44	46	0.0017	2	9.2	3.4	24	65	1688	1729	1685	1734	0.93
45	46	0.0043	5	8.0	3.2	27	62	1712	1747	1709	1749	0.85
46	46	0.11	1.3e+02	3.5	2.5	22	60	1735	1773	1733	1778	0.87

Sequence Information

Coding Sequence: ATGGCCAATCGTACCACGTGTCAATGCGGATGCACAGACCCGCCAGAAATGACAGCCGCAGATCCTCCACACGAGGGTTCATGCGGTTGCAGCTACAACCCTTTCGCCGATCAAGGGAGAGACGCGGAAATTACAGACTTATCATTTGCACTGCGTAAATTGACCCTGATGAAATGCCAGATGAAAAAATGGAGAATGGAACGTCTGCAGTTGGAGAGCGAAGCGAGAAGTTTAAGACAGGTGCTGCAGGCCCATGGTTTGAACGACGATATCGTGAGACCAGATCCTCTGGTGGCTCACCTTCGAGAGTATAATGCGAGGCTGGAGAACGATAAGGAGGAGCTTGAGGAAAGCGTTAAAAGCCTGTCCGAAACCGTATCAGAGTATGAGAATCAGGAGAGTTCGTCATCCGAAACTGTGAATAAACTGCGTGATAGAATTCGAACGATTAAGGAAGCGAACGCCGTCGAGAAACGGAGATTAAAAGACCTTATAGCCGGACTGAAGATCAAGCTGCAAGAAGCCCAGAACGAGTCATCGTGCGCTGCCCTGAACCGACTTCGGGCAAAACTGAAAGAAATGATGCAAGGTGGCCAGGAAGCTGACCAAAGGGTAGCCATGGTGGTCCAGCGGTCGATAGAAACTCTTACTGAGTTAACGGAAAACGTTGACGACCTTAAGGCCGAGATCGAGAGACTGAAAGCCGAGATAAAGAGGTTGAAGGATTTGCTGAAGACATGCGAAGATCGGAAGGACGTTGGGGTCGAGACGATCGTCGTGGACGCTAAGCCGGTGGAAAAACCGCTTGTGGAAATGGACGTCTCGGAATTGTTGAACAGGATTAAGGAACTTGAGGCGTTGATAGCTCAGCTGAGAAAACAACTGGTTGATAAAGATGCTGCGATTAATGACCTCCAGAATCAATCGTTTGAGGTCAGTTCAGACAACAAACGTCTATCCGTAGATTTGGACCAGATGAAGGTCAGCTTCAACGCTGTTATGCAGGAGGTCAAGGCTATGAAGGATGAACTTAAGAAGCGGGACGTCAAGGTATCCGAGCTTCTCAGAGACCTCAAAGCATCCGCGATCGATATTCTGGGATTAAACAGACTGCAGAGTGAAATGGACGCAATCAAGCCCCAGATGTACAATCTCGGGGTGGAACGCGACCAGCTATTATCTGAGCTTGGTAAAGTGCGGGGCGTTGTATCGGAGCGGAATGATCAGATAATTAAAATACTCGAGGAAAGGGATAAGCACGTTAAAGCACTGGCCAGAGCCTCGAGCGTAATGCAGGCGACGGTTGAACCGATGATAGAGAAAGAAGCGGCTCTCAAAAACGAGGTCCAGGGATTGAAAGACCGGATAGAACAGCTTGAGCGAGAGCTAGCCGAACTCAAAAAGAAACTGGCTCAATTAGAAGCGGAGAATGCTGAGATACCTGGACTAGTCGATAAGATTAAGGAGCTGGAAAATGAGCTAGGAAAGCTCAGGTCTCAGTTGGCCGAGGCGAAGTCCAGGATGGATGAGCTTGAGAAAGAACTAGCTCGGCTCAAAGCGGAGAAAGGAGAACTAGAGAAAGAGCTTGGAGAGGTGAGGAAGGAGATTGAAAAGCTGAAGGAAGAGCTCACCGAGGAGAAAGCCGCGAAAGAAGCTGCCCAAAAAGATCTTAGGGATTGTCGAGCTGAGAACGAGAGGCTTAAAGCAGAAAATGAGCGGTTGATTAATGAGCTAAACGCGGTTAAAGCAGAGGCCGACAAAATGAGAAACGATTTAGAGAAATTGagagaagaaatgaaagatCTGAAGGCTGAGAATGATCAGTTGAACAATCTGTTCGCAGCGGCCAAAAATGAGATCGATAAGCTCAGAGGTGAGCTCGAGAAGCTGAAGGCAGAGAATGAGACGCTCAAAAATGAGGTAGAGAAACTGAACGGAGATATAGGTAAACTGAAGACAGAAAATGATAGCCTCAAAGCAGAACTGGACAAACTTAGAAACGAGCTCGCTGGACTTAAGGACGAAGTCGAGAAGCTAAAGAATACTTTAGCAGCAGCTAAAGCTGAGGCTGAGAAGCTCAAACAGGATTTGGAAGACATGAGACAAGAGCGCGATAAATTAAGGGCTGAGAACGATCAGATCAAAAGTCAGTTAGCCAATGCTGAAGCTGAGAACGAGAAGTTGAAAAGTGAGCTCGAAAAGCTGAAGGGAGAAATAGATAAActaaaacaagaaaatagcGATCTTAAGTCAGAGAGAGACAAGCTACAAGCAGAGCTCGAAAGACTTAGAAATAAACTCGGTGAGCTCGAGGCTGAGATGGAGAAAGTGAAGAACACTTTATCAGCGGCCCAGGCTGAGGTTGAAAAGCTCAAAAATGatctggaaaaaatgaaaacagacCTCGAGAAGCTTAAGGCAGAAAATGATCAGCTGAAAAATGACTTAGCCGATGCTAGGGCAGAGAACGCGAGGCTCAGAAAGGAGCTCGATGAGTTGAAGGGAGAAAGAGACAAGCTGagagaagagaataagaaCCTCAAGGCAGAAAAAGACAGGCTTGAAGCAGAGCTCAATAATATTAGAGGAGAATTAGATAGTATTAAGGGTGAGAATGAAAGACTCAAGGCTGACCTCGGGAAACTTAAAAGTGAGCACGAAGCCCTGAAATCAGAACATGAGAAGTTGAAGAAGAGCTTGAGTGACGCAGAGGCGAAGGTAAAAGCGCTCGAAGCCTCGAACGCCGAACTTGCGAATAAAATTGCAGAGCTAAAAAACCAGATTGATAAACTTGAGAACGAGTTGGCGTCAGAAAAAGCTGCGAAAGAAGCAGCGATTAAGGAATTGGCAGCCATAAAGGCCGAGCTGAAAGCTCTGCTGGCAGAAATGGACAAACTTAAGGCAGACTGCGACAAACTGAAAGGACAAGTCGACGATCTCACTAAGCAGCTATCAGATTTGAGAAATGATTTTGATCAGCTCAAGTCTAAGTATGCCGATTTGTCGGCAGAGAGAGACAAGCTCAAAGCTGAAGTTGACAAGTTGAAGGAAGAAAATGACAGACTGAGAAATGACCTGGAGAAGTTCAAGGCAGAACTCGACGCATTGAAGACAGAGAATCGTACGCTCAAGGAAGAGAATGCTAAATGGAAGGAAGAGAACGAGAAGCTGAAGAAAGCCGTGAGCGAGGCTGACGCTAGGATAAAAACACTTGAGGATGAGGTGAGGGCATGCGAAGAGGAAAAGGCAAGGCTGCGAAAAGAGATCGAGGGCCTGAAAGATCGGGttgaagaaatgaagaagGAACTCGCTGCGGAGAACGCTGCGAAAGAGGCAGCCCTGAAGGAACTTGGAGCCCTCAAGGCCGAGCTAGCTGCACTGAGAGCAGAGCTGGATAAAGTGAGAGCAGAGAACACCAAGCTTAAAACTGAGCTGGATAAAGTGACATCAGAAAACGGCGCGCTCAGAACTGAGAATGACAAAATGAAAGGCGAAATTGAGAGACTGAAAGCGGAGgctgaaaaattacaaaatgaTCTGAATACCTTGAGGGCAGAGAGTGCGAAGCTTAAGGAAGATCTGGAAAAGCTAAATGCTGAAAACAAGACTCTCAGAGCTGAGAATGACAAATTGAAGGGAGAACTGGATCAGCTCAAGTTAGAGAACGCGAAATTGAAGGATGATCTTTCGGCTGCTAGATCAGAAGTTGCAAAGCTCAAAAATGATATGGATAAACTGAAATCTGAACTGGATGCGATGCAAGCAGAGAGTAACAGAATGAAGGGTGAACTTGATAGGCTGAAATCAGAGAATGCAAAACTACAAGAAGATCTAAATGGCCTGAAGGCAGAGAATGGGAAGCTCAAACAAGAACTTGACAAATTAAATGCTGAAAACAAAGCTATGAGGTCAGAGAACGATAAGTTGAAGGGGGAACTGGATCAGCTCAAGTCAGAGAACGCGAAATTGAAGGATGATCTTTCTGCTGCTAGATCAGAAGTCGGAAAGCTCAAGAACGACTTGGATAAACTAAAATCTGAGCTGGATGCGATGCAAGCAGAGAATAACAGAATGAAGGGTGAACTTGATAGGCTAAAATCAGAGAATGCAAAACTACAAGAAGATCTAAATGGCCTGAAGGCAGAGAATGGGAAGCTCAAACAAGAACTTGACAAATTAAATGCTGAAAACAAAGCTTTGAGGTCAGAGAACGATAAGTTGAAGGGGGAACTAGATCAGCTCAAGTCGGAGAACGCGAAATTGAAGGATGATCTTTCTGCTGCTAGATCAGAAGTCGGAAAGCTCAAGAACGACTTGGATAAACTAAAATCTGAACTGGATGCAATGCAAGCAGAGAATAACAAAATGAAGGGTGAACTTGATAGGCTAAAATCAGAAAATGCAAAACTACAAGAAGATCTAAATGGCCTGAAGGCAGAGAATGGGAAGCTCAAACAAGAACTTGACAAATTAAATGCTGAAAACAAAGCTTTGAGGTCAGAGAACGATAAGTTGAAGGGGGAACTGGATCAGATCAAGTCAGAGAACGCGAAGTTGAAGGATGATCTTTCTGCTGCTAGATCAGAAGTCGGAAAGCTCAAGAACGACTTGGATAAACTAAAATCTGAACTGGATGCGATGCAAGCAGAGAATAACAAAATGAAGGGTGAACTTGATAGGCTAAAATCAGAAAATGCAAAACTACAAGAAGATCGAAATGGCCTGAAGGCAGAGAATGGAAAGCTCAAAGGTGAACTTGACAAATTAAATGCTGAAAACAATGCTTTGAAGTCAGAGAACGATAAGTTGAAGGGAGAACTGGATCAGCTCAAGTCAGAGAATGCGAAATTGAAGGATGATCTTTCGGCTGCTAGATCAGAAGTCGGAAAGCTTAAGAACGACTTGGATAAACTGAAATCTGAACTGGATGCAATGCAAGcagagaataagaaaatgaaggGTGAACTTGACAGGCTGAAATCAGAGATTGGAAAACTCGAAGATGATCTAAATACCCTGAAGGCGGAGAATGCAAAAATGAAGGATGACCTTGCTGCCGCTAAAGCAGAAGTGTCAAAACTCAAAAATGACTTAGATAAACTAAAATCTGAGTTGAATGCGGTGCAAGGAGAGAATAATAGAATGAAGAGAGAACTTGATGGGCTGAAAGCTGAGAATACAAAGCTAAAGTCTGAGGTTGACAAACTGAAAATCGATAACAAAAAGTTGAATAAGGATCTTCAGAATGCGAAGTCAGATTCAGACAAGCTGAAGGCCGAGGTTGATAATCTGAAGAAATCGAGCAACGAACTAAAAGGTTTGAAAAAACCTCGTTCAGAAACACCGAGGATACTCGATAGTGAAAAGGCAAAGGACACTGGGAAGAAAGAAGCACAGATTAGAGTACAGCGGGATGTTCCATCcaggaaattttttgaaagtGATCAACGACCctcggaaataaaaaaggacCAAAGTTCACAGGGCGCGGGTTGTGGCGATTACGAAAATGCAAACGAACAGCTGAGGATGAACATGAATATGCAAGAGAGAGCTGTACAACGGATACGAGACTTTACGAAATACGTTTTGGGCGAGAGGAGTTCCCCGCCTGAAATTCCCCAGGAATTAAGACGGCGAATGTCTTTGATAGCGCGGAAAAATTTACCCGAAGACATAATGCAGCTATTGGAGGAGTCGGAGTTTTTATCGGACTCGATATTCGCCGCTGAAACCGACGTCCAACGACTGGTCGAACTCTTCGAGGAATTGAAGAAGCTTAGAGATCAGGATGCTCAGGACGTAGATGGGTTCGGTGACGCCTTCGACGCCGAGTCCTGGCTGAAAaCACTAACGTTAACGGAATTGGCCGAACTCCACGACAGGATATGCCTCGTTACTTCGTGCATGGTTCAGCAGGACATAAACCCTGAGGATTACGTCGACGGTATTGAAACCGAGGGAATTTGCCGTCCCTGTAGTTTACCGGAGGAATTCACCGAGGATTCAATTCCCGACTACGAAGCGTTGAACAGAAGAATAGGAGCGCTCCAAATGCagataaacaaaaaacagGACGAAGCGGCTGAGAAGATGAGTAAAATGCGTAAAACCATGTGGCGAGAGCAGgaaaatctgataaaattaTCGGAGGAAATGAACGCGCAAAAGCGTAGGaatttatcaatgaaaataaaaatcaacgaaaataTAGACGCGGAGGgggtgaaaaatgaagaaaaggaaacGGCGGTCCTTTGCGATCGAAAACGTCTCCCAAGGATCAGCGCGATAAAGGACGATAAATTTGGGGCGAAGAAGGGCAATTCAGGACGTTTTATTGGCCCCAATTCAAACGGCTGTAACATCCCGGTGAATCGGCTCCCTTGCTTTAACCCCGAGGAAAATGAGCCCGATTCAAGATCGTCTTCAACCCCGGTTAGGGTTCAGAGGCAAAAACCACCACCTTGTGCAGCTCCGGTTAAACACGCGGATGTACCTTGCTGTGTAAAGCCTTGCTGCCCTTCGGCTATGAATAGGGATACATTGTCCGACAAAAAGCGGGATCTGAACACCGGGAATAATTGA
Protein Sequence: MANRTTCQCGCTDPPEMTAADPPHEGSCGCSYNPFADQGRDAEITDLSFALRKLTLMKCQMKKWRMERLQLESEARSLRQVLQAHGLNDDIVRPDPLVAHLREYNARLENDKEELEESVKSLSETVSEYENQESSSSETVNKLRDRIRTIKEANAVEKRRLKDLIAGLKIKLQEAQNESSCAALNRLRAKLKEMMQGGQEADQRVAMVVQRSIETLTELTENVDDLKAEIERLKAEIKRLKDLLKTCEDRKDVGVETIVVDAKPVEKPLVEMDVSELLNRIKELEALIAQLRKQLVDKDAAINDLQNQSFEVSSDNKRLSVDLDQMKVSFNAVMQEVKAMKDELKKRDVKVSELLRDLKASAIDILGLNRLQSEMDAIKPQMYNLGVERDQLLSELGKVRGVVSERNDQIIKILEERDKHVKALARASSVMQATVEPMIEKEAALKNEVQGLKDRIEQLERELAELKKKLAQLEAENAEIPGLVDKIKELENELGKLRSQLAEAKSRMDELEKELARLKAEKGELEKELGEVRKEIEKLKEELTEEKAAKEAAQKDLRDCRAENERLKAENERLINELNAVKAEADKMRNDLEKLREEMKDLKAENDQLNNLFAAAKNEIDKLRGELEKLKAENETLKNEVEKLNGDIGKLKTENDSLKAELDKLRNELAGLKDEVEKLKNTLAAAKAEAEKLKQDLEDMRQERDKLRAENDQIKSQLANAEAENEKLKSELEKLKGEIDKLKQENSDLKSERDKLQAELERLRNKLGELEAEMEKVKNTLSAAQAEVEKLKNDLEKMKTDLEKLKAENDQLKNDLADARAENARLRKELDELKGERDKLREENKNLKAEKDRLEAELNNIRGELDSIKGENERLKADLGKLKSEHEALKSEHEKLKKSLSDAEAKVKALEASNAELANKIAELKNQIDKLENELASEKAAKEAAIKELAAIKAELKALLAEMDKLKADCDKLKGQVDDLTKQLSDLRNDFDQLKSKYADLSAERDKLKAEVDKLKEENDRLRNDLEKFKAELDALKTENRTLKEENAKWKEENEKLKKAVSEADARIKTLEDEVRACEEEKARLRKEIEGLKDRVEEMKKELAAENAAKEAALKELGALKAELAALRAELDKVRAENTKLKTELDKVTSENGALRTENDKMKGEIERLKAEAEKLQNDLNTLRAESAKLKEDLEKLNAENKTLRAENDKLKGELDQLKLENAKLKDDLSAARSEVAKLKNDMDKLKSELDAMQAESNRMKGELDRLKSENAKLQEDLNGLKAENGKLKQELDKLNAENKAMRSENDKLKGELDQLKSENAKLKDDLSAARSEVGKLKNDLDKLKSELDAMQAENNRMKGELDRLKSENAKLQEDLNGLKAENGKLKQELDKLNAENKALRSENDKLKGELDQLKSENAKLKDDLSAARSEVGKLKNDLDKLKSELDAMQAENNKMKGELDRLKSENAKLQEDLNGLKAENGKLKQELDKLNAENKALRSENDKLKGELDQIKSENAKLKDDLSAARSEVGKLKNDLDKLKSELDAMQAENNKMKGELDRLKSENAKLQEDRNGLKAENGKLKGELDKLNAENNALKSENDKLKGELDQLKSENAKLKDDLSAARSEVGKLKNDLDKLKSELDAMQAENKKMKGELDRLKSEIGKLEDDLNTLKAENAKMKDDLAAAKAEVSKLKNDLDKLKSELNAVQGENNRMKRELDGLKAENTKLKSEVDKLKIDNKKLNKDLQNAKSDSDKLKAEVDNLKKSSNELKGLKKPRSETPRILDSEKAKDTGKKEAQIRVQRDVPSRKFFESDQRPSEIKKDQSSQGAGCGDYENANEQLRMNMNMQERAVQRIRDFTKYVLGERSSPPEIPQELRRRMSLIARKNLPEDIMQLLEESEFLSDSIFAAETDVQRLVELFEELKKLRDQDAQDVDGFGDAFDAESWLKTLTLTELAELHDRICLVTSCMVQQDINPEDYVDGIETEGICRPCSLPEEFTEDSIPDYEALNRRIGALQMQINKKQDEAAEKMSKMRKTMWREQENLIKLSEEMNAQKRRNLSMKIKINENIDAEGVKNEEKETAVLCDRKRLPRISAIKDDKFGAKKGNSGRFIGPNSNGCNIPVNRLPCFNPEENEPDSRSSSTPVRVQRQKPPPCAAPVKHADVPCCVKPCCPSAMNRDTLSDKKRDLNTGNN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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