Basic Information

Insect: Andrena marginata
Gene Symbol: -
Assembly: GCA_963932335.1
Location: OZ010661.1:3887055-3898970[+]

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 0.27 2.6e+02 2.0 0.4 30 55 60 85 54 92 0.60

2 47 0.17 1.7e+02 2.6 2.1 33 56 108 131 106 133 0.82

3 47 0.0011 1.1 9.7 2.2 30 60 222 252 217 255 0.91

4 47 0.47 4.7e+02 1.2 0.9 28 50 282 304 280 319 0.73

5 47 3.9 3.9e+03 -1.8 0.1 44 62 325 343 304 353 0.56

6 47 0.0056 5.6 7.3 2.2 24 56 364 396 361 402 0.64

7 47 0.03 30 5.0 0.3 26 64 419 457 417 458 0.90

8 47 1.1 1.1e+03 0.0 1.2 27 62 462 493 456 495 0.68

9 47 0.0022 2.2 8.6 2.5 26 63 499 536 496 537 0.89

10 47 0.037 37 4.7 4.6 24 56 539 571 538 575 0.92

11 47 0.0031 3.1 8.1 4.6 26 65 576 615 573 615 0.90

12 47 0.032 32 4.9 2.0 24 64 602 642 601 643 0.91

13 47 0.41 4.1e+02 1.4 3.5 26 58 639 671 630 684 0.73

14 47 0.5 5e+02 1.1 2.3 21 59 655 693 652 697 0.76

15 47 0.0042 4.2 7.7 2.5 25 60 680 715 673 720 0.79

16 47 0.0024 2.4 8.5 2.0 25 64 694 733 690 734 0.84

17 47 0.0047 4.6 7.6 0.7 28 63 746 781 739 791 0.58

18 47 0.00027 0.27 11.5 6.1 26 64 779 817 777 818 0.92

19 47 0.00062 0.62 10.4 4.7 32 62 792 822 788 832 0.66

20 47 3.1e-05 0.031 14.6 4.4 26 60 842 876 830 881 0.91

21 47 0.62 6.2e+02 0.8 3.1 32 55 897 920 883 922 0.66

22 47 0.00014 0.14 12.5 8.5 21 64 907 950 906 951 0.94

23 47 0.0031 3.1 8.2 0.9 22 64 943 985 942 986 0.92

24 47 4.5e-06 0.0045 17.2 3.4 27 60 997 1030 993 1035 0.92

25 47 0.014 14 6.1 1.7 33 65 1031 1063 1028 1070 0.75

26 47 0.099 98 3.3 4.1 23 64 1042 1083 1037 1084 0.80

27 47 0.00011 0.11 12.7 4.3 28 60 1089 1121 1082 1126 0.89

28 47 0.036 36 4.7 2.3 32 62 1128 1158 1122 1160 0.73

29 47 1.8e-05 0.018 15.3 2.5 26 62 1164 1200 1162 1202 0.94

30 47 5.5e-05 0.055 13.8 6.1 25 64 1219 1258 1208 1259 0.75

31 47 0.1 1e+02 3.3 2.4 24 64 1274 1314 1266 1315 0.85

32 47 0.043 42 4.5 1.1 38 64 1330 1356 1314 1363 0.69

33 47 0.015 15 5.9 1.1 39 63 1373 1397 1365 1399 0.80

34 47 0.00071 0.71 10.2 2.4 22 64 1398 1440 1396 1441 0.79

35 47 0.00083 0.83 10.0 6.9 20 59 1445 1484 1444 1486 0.93

36 47 0.00013 0.13 12.6 5.0 23 61 1504 1542 1502 1546 0.91

37 47 2.9e-05 0.029 14.7 8.6 25 63 1562 1600 1552 1601 0.91

38 47 0.25 2.5e+02 2.1 7.0 23 64 1616 1657 1607 1658 0.77

39 47 0.0012 1.2 9.5 4.6 24 64 1645 1685 1635 1686 0.79

40 47 0.017 17 5.8 4.1 29 58 1685 1714 1680 1724 0.77

41 47 0.032 32 4.9 8.1 30 64 1717 1751 1712 1752 0.92

42 47 0.03 30 5.0 7.6 22 61 1730 1769 1724 1773 0.58

43 47 0.074 74 3.7 7.4 22 64 1831 1873 1823 1874 0.90

44 47 0.0063 6.3 7.2 0.3 28 60 1865 1897 1862 1902 0.89

45 47 0.00055 0.55 10.6 7.0 29 63 1915 1949 1899 1951 0.91

46 47 0.0085 8.5 6.8 3.8 37 64 1937 1964 1933 1965 0.89

47 47 3.3 3.3e+03 -1.6 0.8 36 51 2173 2188 2148 2196 0.76

#	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	0.27	2.6e+02	2.0	0.4	30	55	60	85	54	92	0.60
2	47	0.17	1.7e+02	2.6	2.1	33	56	108	131	106	133	0.82
3	47	0.0011	1.1	9.7	2.2	30	60	222	252	217	255	0.91
4	47	0.47	4.7e+02	1.2	0.9	28	50	282	304	280	319	0.73
5	47	3.9	3.9e+03	-1.8	0.1	44	62	325	343	304	353	0.56
6	47	0.0056	5.6	7.3	2.2	24	56	364	396	361	402	0.64
7	47	0.03	30	5.0	0.3	26	64	419	457	417	458	0.90
8	47	1.1	1.1e+03	0.0	1.2	27	62	462	493	456	495	0.68
9	47	0.0022	2.2	8.6	2.5	26	63	499	536	496	537	0.89
10	47	0.037	37	4.7	4.6	24	56	539	571	538	575	0.92
11	47	0.0031	3.1	8.1	4.6	26	65	576	615	573	615	0.90
12	47	0.032	32	4.9	2.0	24	64	602	642	601	643	0.91
13	47	0.41	4.1e+02	1.4	3.5	26	58	639	671	630	684	0.73
14	47	0.5	5e+02	1.1	2.3	21	59	655	693	652	697	0.76
15	47	0.0042	4.2	7.7	2.5	25	60	680	715	673	720	0.79
16	47	0.0024	2.4	8.5	2.0	25	64	694	733	690	734	0.84
17	47	0.0047	4.6	7.6	0.7	28	63	746	781	739	791	0.58
18	47	0.00027	0.27	11.5	6.1	26	64	779	817	777	818	0.92
19	47	0.00062	0.62	10.4	4.7	32	62	792	822	788	832	0.66
20	47	3.1e-05	0.031	14.6	4.4	26	60	842	876	830	881	0.91
21	47	0.62	6.2e+02	0.8	3.1	32	55	897	920	883	922	0.66
22	47	0.00014	0.14	12.5	8.5	21	64	907	950	906	951	0.94
23	47	0.0031	3.1	8.2	0.9	22	64	943	985	942	986	0.92
24	47	4.5e-06	0.0045	17.2	3.4	27	60	997	1030	993	1035	0.92
25	47	0.014	14	6.1	1.7	33	65	1031	1063	1028	1070	0.75
26	47	0.099	98	3.3	4.1	23	64	1042	1083	1037	1084	0.80
27	47	0.00011	0.11	12.7	4.3	28	60	1089	1121	1082	1126	0.89
28	47	0.036	36	4.7	2.3	32	62	1128	1158	1122	1160	0.73
29	47	1.8e-05	0.018	15.3	2.5	26	62	1164	1200	1162	1202	0.94
30	47	5.5e-05	0.055	13.8	6.1	25	64	1219	1258	1208	1259	0.75
31	47	0.1	1e+02	3.3	2.4	24	64	1274	1314	1266	1315	0.85
32	47	0.043	42	4.5	1.1	38	64	1330	1356	1314	1363	0.69
33	47	0.015	15	5.9	1.1	39	63	1373	1397	1365	1399	0.80
34	47	0.00071	0.71	10.2	2.4	22	64	1398	1440	1396	1441	0.79
35	47	0.00083	0.83	10.0	6.9	20	59	1445	1484	1444	1486	0.93
36	47	0.00013	0.13	12.6	5.0	23	61	1504	1542	1502	1546	0.91
37	47	2.9e-05	0.029	14.7	8.6	25	63	1562	1600	1552	1601	0.91
38	47	0.25	2.5e+02	2.1	7.0	23	64	1616	1657	1607	1658	0.77
39	47	0.0012	1.2	9.5	4.6	24	64	1645	1685	1635	1686	0.79
40	47	0.017	17	5.8	4.1	29	58	1685	1714	1680	1724	0.77
41	47	0.032	32	4.9	8.1	30	64	1717	1751	1712	1752	0.92
42	47	0.03	30	5.0	7.6	22	61	1730	1769	1724	1773	0.58
43	47	0.074	74	3.7	7.4	22	64	1831	1873	1823	1874	0.90
44	47	0.0063	6.3	7.2	0.3	28	60	1865	1897	1862	1902	0.89
45	47	0.00055	0.55	10.6	7.0	29	63	1915	1949	1899	1951	0.91
46	47	0.0085	8.5	6.8	3.8	37	64	1937	1964	1933	1965	0.89
47	47	3.3	3.3e+03	-1.6	0.8	36	51	2173	2188	2148	2196	0.76

Sequence Information

Coding Sequence: ATGGAGACGCGGAAGTCTCTGTCGCTTTGCCGGTGCGGCTGCAACGCCTCGTCGTCCCGCGAATCGATTGATCCACCGAACGAGCCGTGCTGTTGCTGCAGTTACAACCCCTTCAGCGACAATTCCAAAGAGTCGGAGATCTACGACCTCTCGTTTGCCCTGAGGAAGCTGAGCGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAGCGGCTGCAGCTTGAGAGCGAAAATAGGTCTCTGAAACAAGCCCTCCAGCCATTCGGTGTAAACGCGGATGAGATATTGAAGCCTGATCCGCTGCTGGTGCACTCGCGGGAAGAAATCGAAAGGCTGCAGAATGCAAACGCGGCCCTCGAAGATAAAGTGGCGGATCTGGAAGAAACCCTCGCCGAACGAGATTGCTGCGACGATCCGTGCTCGTCGGTGCACTGTCTCCGGGAGAAGATGAGATTCTTGCGGGAAGGTTTTGCtctcgaaaagaaagaATTCAGAGACATGATATCGCATCTGAAGTTGAAAATCGCGGAGGTAGAGGAGGACGTCAGCTGTCCGGCGATATATCGCCTGAGGGCGAAGCTCCGGGACCTGATGAAGGGCGGCCAAATGCCGGAACAGCCTGTCTCGAAGGTCGTGGAGAGATCGATAGAGACGCTGGGGGACCTTTCCAAGAGCTGCGACGATTTGCGCGTGGAGAACGATCGTCTCCTGGCCGAGCTGGAGGAGCTGCGTCGCGCGCTGGCGGGCCTTGAAGAGAAGGAGCTGCCCGCTCCCGACATCCAGTATCGAGCGATCCCGCAGAAAACGGCCGAAACCACCACGGTACCGGAGTACATAGACGTCTCAGAGCTGACGCAGAAGCTGAAGGACTGCGAGGAGGCCGTGGCCGACTTGAGGAGGCAGCTGGACGAGAAGAACAGCATCATCGATTCGTTGAATAAAGACCTGGAGACTATGGTCAGCCAGAAGGATCTGCTTGACGAGATAGCGGCCATGAAGGCGGAGCTCCAGGGCAGAGAGGACAAGATTGCCGAGCTCCTGAACCAGTTGAGACAGTCAGAGATAGACCTGCTCGGCCTGGGCAACTTGAAATCCCAGGTCGATGAGCTGCAGCCACATTTACAGGGTCTCGAGGCGGAGAAGGGCCAGCTTCTAGACGAGCTGAATAAATTACGGAACGCGTTGGCCGAGAGGAACGACCAGATAATCGGCATACTGGAGCAGAAGCAAAAGCTCGAGAAGGACTGCGCGGACGAGATGGCGGCTCTGCAGGCCAAGATGGACGAGTGTTTGGCTCGCGAGGCTGCCTTGAACACGGAGATCGACGATCTGAAGGGACGGGTGGCGGGTTTGCTAGAAGAAATAGAGCAGCGTAAAGCGCGAAACGCGGAGCTGGAGCAGTGCTGCGTGGACAGGGACGCCCTCGCGAAGACGCTGCAGGTGATGGAGGAGGAGCTGGCGGCATTGCGAGACGACCTCGCGTCCGCGACAGCTACGATAGCCAGTCTCCAGACAGAGCTAGACACATTGAGGGGCGAGAAAGAGGAGTTACTGAAGGAGCTGAACGAGATCAGGGGGCAAGTGGAGGCACTGACCAGTCAGCTGGCAGAGGAGAGGGCGGCCAAGGAAGCTCTGCAAAGGGACCTGGAAAGTAGCCGGGACGAGCTTGAAAAGCTACGGGCGGAAAATTCGAGCCTGAAGCAGCAGCTCGGCCCGGCGACGGAGGACAACGCGAAACTTCAGGCAGCGATGAAGAGCCTGGCTGAGGAGAACGAAAGTTTGAATGGGGAGCTCGAGAGCCTGAAGACGGAAAACAAGGGGCTGGCGGACAGACTGGAGGAGCTGGAGAATTTGAATAACGTCTTGAGGAACGATTACGAAAACGTGAAAAGGGCGCTGGACAATCTCGAGGCAGAGATCAACAGACTGGAGGGTTTGTTGAGTAAGACGACCGAGGAACGCGACGCTCTGCTGAATGAAAATGGGGATATTAAGAGACGATTGGAAGAGGCCATGGCGGAGAACGATGCTCTGAAGGCTGAATTGAACGACATTGGCCAACGACTCGATAAATTGGGATTAGAGAACGAGGAGCTGAAGAAGAACCTCGAGGCGATGAAGACTGAGAACGATTCGCTGAAGCAGGATATTGGGGGGTTGAGAAGCGAGCTGGATGGCGCGAGGAAGGAAGCAGAGGCGCTGAAAGCTGCCGGGGACTCGCTGAGGGCGGCGGACGAGGGCATGAAGGCGGAAGCTGAAAGGGTGGCGGCAGAAATTGGCTACCTAAGGAACGAGAAGGATCGTTTGACGAACGAGAATGCAGATCTGATGGCGAAGAATTTGCAGCTGGGACGTGAGCTCGACGACGCCAAGAAGGACGTTGAGAAATTGAAGGCCGACAATGCTACCTTGCAGGAAGAGCTGGATCGTTTGAGGCAGGAATTGGAGAAGTCAAAGAATGCGATGGACCAATTGAAGTCTGAGCTGGCGACGTCGAAAGAAGCCCTCGACAGGTGCGTGGGCGAGATGGAGAAGCTGAAAAACGAAGCCAACGATCTGAAGTCGCGGAACGAGACTTTGCAGGCGGAAATCCAGAAGTGCAAGGCGGAAGTCGAGAAGTGCAAGGCGGATGGAGACGCTCTGAGGGGCGATCTAGAGAAAACCAGGTTAGAATTGAGCGATGCGAAAGGGCAACTGGAAAAGGCGAACGACGAGCTGAAGAAACTAAAAGAAGAGAACAGTTCCCTGGACGAAAACTTGAAGCGACTGATTGCTGAGAACGACGCGCTGCAATCAGAGGCTGAGGGGCTGAGGAAAGAGGCGGAGAAGCTGAAGGAGGAAGCTGCGAAGCTCCAGGCGCAGGCGGCGCAAGGGCAGGGCGAAGGCGCCGCGTTGAAGGCTGAAATTGATGGGGTTAAGAGCGAAAGAGACGCTCTAGCGGGGGAATTAAGCAGGCTGAAGGACGAGCATGGTGCTTTGCAGAGCGAGAGGGATAAATTGAGCAAACGAGTGGCCGATTGTAatgcggagaacgagaaactgagAGCAGAGAGGGGCCAGCTGGAGGCTGAAAATGAGAAACTCAAGGGAGACATGAAGACGTGCGAGGAAGAAAACGGGAGGATGCAAGCAGAGTTGGAGCAGCTGGCGGGGCAAGTCGCTTCGTTGAATGACCAGTTAAATAAACTGAGAGCTCAACTGGCTGACGCGGAGAAGAAAATTCAGAACCTCGAGGCTCTGGTGACTCGTTTGCAGGGCGAGGGGGATCAATGTACCAAACAATTGGCCGATTGTAATTCGGAGAACGAGAAGTTGAGAGCAGAGAAAGGCCAGTTGGAGGCTGAAAATGAGAAACTCAAGGGAGACATGAAGACGTGCGAGGAAGAAAACGGGAGGACGCAAGCAGAGTTGGAGCAGCTGGCGGGGGAAGTGGCTTCGTTGAATGACCAGTTAAATAAACTGAGAGCTCAACTGGCTGACGCGGAGAAGAAAATTCAGTCCCTCGAGCCTCTGGTGACTCGTTTGCAGAGCGAGAATGATAAATTGCGAAACGACGTGCAAGCTTTGGAGGGCGAAACGAACGAGCTGAAGGCAAACCTGGGGAAAGAGAGGGATGGCAGTCAGAAAATGCAGGCTGACATGGTGATGTTGGAGGACAAGGTGCAGGATCTGATCGCGAAACTCGACGAGGCCAGGGCGCAGAATCAGGCTCTGAAGCAGGAGAATCAGGATCTTCGTGCAAAGCTGCAGGATGTGGAGCAGGAATTGTCCAGTTTGAGGACAGAATGTGCTGATGCGAAAACGGAGATCGCGAATCTGAAGAAGCTAGTTGCTGAACTGCAAGCGCAAATCGCTAAGCTGGAGGCAGATGTAGAGTATTGGAAATTGGAGAACTGCAAAGACAAGCTGGAAGTGGATAAACTGAAGGCCGATCTGGAGAAAGCGTTGAAGGACTTGAGCGAGTGTCAGACACTAAGAGCAGCGCAAGAGGCAGAATTCGATCGTCTTCTGAGCGAAAAGTCCGCGCTCGATAAAAAGCTCGGGGACTTGACATCGCAAGTCGAGCAGCAGAAGAAGGACCTGGCAGACGGAGAGGCAGCAAAGGGCGAGGGCGACGCAGAGGTCGCAGCCCTTAGAAGTGAACTCGCAGCACTGAAAAAGGAACTGGAGAACCTGCGAGCGGATAACAAGAAGTACAAAAGCCAAGCGGACGAACTGGCGAAGCAGCTCGCGGCGCTGAAGGACGAGCTCGATGCCTGCAAAGAAGAGGTGGCCGCGCTGAGAGACAGCAACAGCGCCTTGAGGGCAGAAGTAAACGCGCTGGGCGTCGAGAGGAACAAGTTACAGGACGAAAGGAACCAACTCAAGTCCCAGGTGGACGCTCTGAAAGCAGAGAACGCGACTCTCGACGAGGATCGCAAAAAGCTGGCGGAGGAGTCCAACAAGCTGAGAGGCGCTGGAGATGACCAAAAAATAGAAATCGATACCCTCAGGTCGGACCTGGCTGCGCAGAAAGCAGCTTCCCAGAAGCTGCAAGCAGACCTGCAGGACTGCGAAACAGAGAACGACAGGTTACAATCGCAATTGAACGAAATGAGGGGCGAGTTGGAGAGGCTGAAAGGAGAAGCCGATCGGTTGAACGCCGAGTCGGAGCGGCTGAAGGCGGCGCTCGCAGCCGCTGAGGCGCGAGTGAAAGCTCTGGAGGACCAGTTGGCTGAGCTGACCGCTGAGAAACAGGAGTTGCTGAACGAGCTCTACCGTTTAAGGGAAGAGGTGGACAATCTGCGGAAGGAAATGGAGAAGGGGAAGCTGGCGGGGGACGCGGCCGCGAAGGAGCTGGACGCTTTGAGGGCGGAGCTGAACGCCCTGAAGGCGGAATTGAGCAAGACTCGGGGGGAAAATGAAAAGTTGAAGAACGAGATGAAGAAGCTGAAGGGGGATCTGGAGAATGTGAACGACCAGCTGGAGACGTTGAGGGGCGAGAACGCTGCATTGAAGGGTGAGAATGGGAAGCTGTCGTCCGAGTTGGCTGCGACCAAGGTCAAGCTGACGGAGGCGGAAAATCGAATGAAGGATCTCGAGAGCGAGAGGGACGGCTTGCAGAAGAGGGTCGCGGTTTTGGAGGAGGCCGCGAAGGAACTGGGAATTTTGAAGAAACAATTAGAGGACGCCACGAACGAGCTGAATAGATTGAGGCAGGAGCTCGAGAAACTAAAGACGGAGCTGGAGACGTTGAAGGGCGAGAATGCTGCATTGAAGGATGAGAATGGGAAGCAGTCGTCCGAGTTGACTGCGATCAGGAGCAAGCTGAAGGAGGCAGTAAATCGAATGAAGGGCCTCGAGGATGAGAGGGACGGCTTGCAGAAGAGGCTCGCGGATCTGGAGAAGGTCGCGAAGGAACTGGGAATTTTGAAGAAACAATTGGAAGATGCCACGAACGAGCTGAATAGATTGAGGCCGGAGCTGAAGAAAGCGAAGGCGGAGCTGGAGAAAGCGAAGACGGAGCTGGATAACTTGAAGACAGAGCTGGATAACTTGAAGACAGAGAACGGGAGGCTGCAGGACGAGCTAAGCGAGGCGGAAAATAAATCGAAAGGATTAAGGGATGATTTGGCGAAGCTCAGAGCGGCCAATGATAAGTTGAAGAACGATAACGCCAGTTTGCAGTCCGATATAGCTGCGGTGAAGGCGGAGGGGGATAAACAGAAGGATTATGACGCTCAGTTGCAGACCGGCCTGGGCGAGTTGAGGAAGGAGTATGACGAGCTGCAAGCCGCGAATGCAGAATTGAAAGACGAGTTAAACCTCTGCCGGGAGGAGAACGAAAAATTGAAAGACGAATTGAACCACTGCCGGAAGGAGAACGAAACATTGCGCGGGGTACTGGACGAGTTGCAGAATGAGCATACCAGGCTGAAGCGGGCTTCGGCGAGGACGGTGGCGCCAAAGGAGACGGAAATGGACAAAGATATTGTGGATGACTGCGGGGATTTCATTAAGGCGAACGAATTGCTCAGGGGCAAATTTGAAAACCAAAATCAAGGTGTACAACGGGTCCGAGATTACATCAGTTTTTTGGAAGGTAAAGTTAAGGAGGAACCGAGAATGGCGGCCAAACCAGAGGAAGATATGGCGACAGATCCACAAATGAGGCAAGATATAGCAGATCTGCTGGAGAAATCTCATATGCTGTCCGAGAATATTTATCGAACAGAACAGGACATACAAAATATCGCTAACTTATTGAAGCAACTGCAGGGGGTTGGGGACCAACCAGCGGCCTTCGATGCTGATTCTTGGCTAAACTCACTAACTCTGACACAGTTAGCGGAGCTTCACGATAAAATTTGCCTGCTGACATCGGGCGTGGTGCAGCAAGATAGCGGCGCCGTGATGTGTGACTCCGTGGCTAACCGGGAGCAAGCGGATCCACTGAATGCAGATTACAATATTTTGAACAAACGGATAGCCGCTTTGCAGAGACAGATAGCGGAGAAGCAAATAGAAGCTGGATTGAAGCTGCAGGAGCTGAAGCGTGCTCTCCGCCAGGAACAGGCTAACCTGATTCGAATCTCCGAGGAAATGAATTTAGAGAGAAGGCGCAATTTAGCCCTTCAGCTCGCCATGGATGATTCAGCATAA
Protein Sequence: METRKSLSLCRCGCNASSSRESIDPPNEPCCCCSYNPFSDNSKESEIYDLSFALRKLSVMKCQMKKWRMERLQLESENRSLKQALQPFGVNADEILKPDPLLVHSREEIERLQNANAALEDKVADLEETLAERDCCDDPCSSVHCLREKMRFLREGFALEKKEFRDMISHLKLKIAEVEEDVSCPAIYRLRAKLRDLMKGGQMPEQPVSKVVERSIETLGDLSKSCDDLRVENDRLLAELEELRRALAGLEEKELPAPDIQYRAIPQKTAETTTVPEYIDVSELTQKLKDCEEAVADLRRQLDEKNSIIDSLNKDLETMVSQKDLLDEIAAMKAELQGREDKIAELLNQLRQSEIDLLGLGNLKSQVDELQPHLQGLEAEKGQLLDELNKLRNALAERNDQIIGILEQKQKLEKDCADEMAALQAKMDECLAREAALNTEIDDLKGRVAGLLEEIEQRKARNAELEQCCVDRDALAKTLQVMEEELAALRDDLASATATIASLQTELDTLRGEKEELLKELNEIRGQVEALTSQLAEERAAKEALQRDLESSRDELEKLRAENSSLKQQLGPATEDNAKLQAAMKSLAEENESLNGELESLKTENKGLADRLEELENLNNVLRNDYENVKRALDNLEAEINRLEGLLSKTTEERDALLNENGDIKRRLEEAMAENDALKAELNDIGQRLDKLGLENEELKKNLEAMKTENDSLKQDIGGLRSELDGARKEAEALKAAGDSLRAADEGMKAEAERVAAEIGYLRNEKDRLTNENADLMAKNLQLGRELDDAKKDVEKLKADNATLQEELDRLRQELEKSKNAMDQLKSELATSKEALDRCVGEMEKLKNEANDLKSRNETLQAEIQKCKAEVEKCKADGDALRGDLEKTRLELSDAKGQLEKANDELKKLKEENSSLDENLKRLIAENDALQSEAEGLRKEAEKLKEEAAKLQAQAAQGQGEGAALKAEIDGVKSERDALAGELSRLKDEHGALQSERDKLSKRVADCNAENEKLRAERGQLEAENEKLKGDMKTCEEENGRMQAELEQLAGQVASLNDQLNKLRAQLADAEKKIQNLEALVTRLQGEGDQCTKQLADCNSENEKLRAEKGQLEAENEKLKGDMKTCEEENGRTQAELEQLAGEVASLNDQLNKLRAQLADAEKKIQSLEPLVTRLQSENDKLRNDVQALEGETNELKANLGKERDGSQKMQADMVMLEDKVQDLIAKLDEARAQNQALKQENQDLRAKLQDVEQELSSLRTECADAKTEIANLKKLVAELQAQIAKLEADVEYWKLENCKDKLEVDKLKADLEKALKDLSECQTLRAAQEAEFDRLLSEKSALDKKLGDLTSQVEQQKKDLADGEAAKGEGDAEVAALRSELAALKKELENLRADNKKYKSQADELAKQLAALKDELDACKEEVAALRDSNSALRAEVNALGVERNKLQDERNQLKSQVDALKAENATLDEDRKKLAEESNKLRGAGDDQKIEIDTLRSDLAAQKAASQKLQADLQDCETENDRLQSQLNEMRGELERLKGEADRLNAESERLKAALAAAEARVKALEDQLAELTAEKQELLNELYRLREEVDNLRKEMEKGKLAGDAAAKELDALRAELNALKAELSKTRGENEKLKNEMKKLKGDLENVNDQLETLRGENAALKGENGKLSSELAATKVKLTEAENRMKDLESERDGLQKRVAVLEEAAKELGILKKQLEDATNELNRLRQELEKLKTELETLKGENAALKDENGKQSSELTAIRSKLKEAVNRMKGLEDERDGLQKRLADLEKVAKELGILKKQLEDATNELNRLRPELKKAKAELEKAKTELDNLKTELDNLKTENGRLQDELSEAENKSKGLRDDLAKLRAANDKLKNDNASLQSDIAAVKAEGDKQKDYDAQLQTGLGELRKEYDELQAANAELKDELNLCREENEKLKDELNHCRKENETLRGVLDELQNEHTRLKRASARTVAPKETEMDKDIVDDCGDFIKANELLRGKFENQNQGVQRVRDYISFLEGKVKEEPRMAAKPEEDMATDPQMRQDIADLLEKSHMLSENIYRTEQDIQNIANLLKQLQGVGDQPAAFDADSWLNSLTLTQLAELHDKICLLTSGVVQQDSGAVMCDSVANREQADPLNADYNILNKRIAALQRQIAEKQIEAGLKLQELKRALRQEQANLIRISEEMNLERRRNLALQLAMDDSA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00085909;
90% Identity: iTF_00084274;
80% Identity: -