Basic Information

Insect: Pimpla rufipes
Gene Symbol: -
Assembly: GCA_963932165.1
Location: OZ010642.1:12325922-12334563[+]

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 43 3.9 3.7e+03 -1.7 0.4 31 58 62 89 57 95 0.69

2 43 0.45 4.2e+02 1.4 0.3 32 56 108 132 103 134 0.72

3 43 8.8 8.2e+03 -2.8 0.1 40 55 161 176 147 183 0.58

4 43 0.0038 3.6 8.0 0.0 30 57 223 250 217 254 0.74

5 43 0.015 14 6.1 2.0 31 59 559 587 551 596 0.74

6 43 0.0047 4.4 7.7 5.9 28 63 601 636 589 638 0.80

7 43 0.0011 0.99 9.8 0.1 25 58 626 659 623 666 0.50

8 43 4.7e-05 0.043 14.1 2.9 22 64 686 728 685 729 0.95

9 43 0.0031 2.9 8.3 2.4 30 64 736 770 730 771 0.87

10 43 0.00032 0.3 11.4 6.5 24 63 765 804 764 806 0.92

11 43 0.00029 0.27 11.6 1.3 21 62 818 859 817 862 0.92

12 43 0.00066 0.62 10.4 2.8 22 58 861 897 859 903 0.89

13 43 7.5e-05 0.07 13.4 0.5 31 63 898 930 896 932 0.91

14 43 0.028 26 5.2 0.2 38 65 933 960 928 960 0.87

15 43 0.097 90 3.5 5.9 35 65 1000 1030 986 1054 0.67

16 43 0.019 18 5.8 1.1 29 60 1064 1095 1058 1110 0.50

17 43 3.1 2.9e+03 -1.3 0.4 41 57 1118 1134 1097 1142 0.63

18 43 0.0043 4 7.8 0.8 27 63 1139 1175 1135 1177 0.86

19 43 0.00034 0.31 11.4 2.4 24 63 1185 1224 1183 1225 0.93

20 43 0.32 3e+02 1.8 4.3 35 61 1231 1257 1226 1261 0.77

21 43 0.0086 8 6.9 3.5 26 60 1264 1298 1261 1300 0.89

22 43 2e-05 0.019 15.3 1.2 29 61 1295 1327 1294 1331 0.90

23 43 0.0015 1.4 9.2 0.6 25 62 1312 1349 1310 1352 0.89

24 43 0.31 2.9e+02 1.9 1.0 24 62 1353 1391 1350 1394 0.90

25 43 0.0086 8 6.9 5.9 25 61 1396 1432 1393 1439 0.63

26 43 0.0018 1.7 9.0 2.6 28 64 1427 1463 1426 1470 0.73

27 43 0.0014 1.3 9.4 1.2 29 62 1484 1517 1479 1520 0.77

28 43 0.095 88 3.5 4.6 22 64 1505 1547 1505 1548 0.92

29 43 3.5 3.2e+03 -1.5 0.3 40 62 1565 1587 1546 1597 0.54

30 43 0.013 12 6.3 5.3 25 62 1592 1629 1583 1631 0.94

31 43 0.074 69 3.9 12.3 15 63 1603 1658 1602 1660 0.96

32 43 0.016 15 6.0 5.5 24 64 1633 1673 1631 1674 0.92

33 43 0.0012 1.1 9.6 6.2 24 63 1661 1700 1658 1702 0.90

34 43 0.8 7.5e+02 0.5 6.7 32 63 1697 1728 1694 1730 0.83

35 43 0.0043 4 7.8 0.6 26 52 1754 1780 1751 1792 0.62

36 43 4 3.8e+03 -1.7 0.3 31 52 1801 1822 1787 1832 0.44

37 43 0.0022 2.1 8.7 5.1 22 59 1827 1864 1819 1870 0.76

38 43 0.4 3.8e+02 1.5 1.1 22 62 1862 1902 1861 1905 0.90

39 43 1.3 1.2e+03 -0.1 0.3 21 62 1917 1958 1916 1961 0.86

40 43 0.43 4e+02 1.4 4.6 25 60 1963 1998 1953 2002 0.76

41 43 1.3e-05 0.012 15.9 0.9 28 64 2048 2084 2045 2085 0.91

42 43 1.1 1e+03 0.1 0.1 29 51 2206 2228 2202 2240 0.72

43 43 5.9 5.5e+03 -2.2 2.1 26 53 2311 2346 2308 2357 0.79

#	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	43	3.9	3.7e+03	-1.7	0.4	31	58	62	89	57	95	0.69
2	43	0.45	4.2e+02	1.4	0.3	32	56	108	132	103	134	0.72
3	43	8.8	8.2e+03	-2.8	0.1	40	55	161	176	147	183	0.58
4	43	0.0038	3.6	8.0	0.0	30	57	223	250	217	254	0.74
5	43	0.015	14	6.1	2.0	31	59	559	587	551	596	0.74
6	43	0.0047	4.4	7.7	5.9	28	63	601	636	589	638	0.80
7	43	0.0011	0.99	9.8	0.1	25	58	626	659	623	666	0.50
8	43	4.7e-05	0.043	14.1	2.9	22	64	686	728	685	729	0.95
9	43	0.0031	2.9	8.3	2.4	30	64	736	770	730	771	0.87
10	43	0.00032	0.3	11.4	6.5	24	63	765	804	764	806	0.92
11	43	0.00029	0.27	11.6	1.3	21	62	818	859	817	862	0.92
12	43	0.00066	0.62	10.4	2.8	22	58	861	897	859	903	0.89
13	43	7.5e-05	0.07	13.4	0.5	31	63	898	930	896	932	0.91
14	43	0.028	26	5.2	0.2	38	65	933	960	928	960	0.87
15	43	0.097	90	3.5	5.9	35	65	1000	1030	986	1054	0.67
16	43	0.019	18	5.8	1.1	29	60	1064	1095	1058	1110	0.50
17	43	3.1	2.9e+03	-1.3	0.4	41	57	1118	1134	1097	1142	0.63
18	43	0.0043	4	7.8	0.8	27	63	1139	1175	1135	1177	0.86
19	43	0.00034	0.31	11.4	2.4	24	63	1185	1224	1183	1225	0.93
20	43	0.32	3e+02	1.8	4.3	35	61	1231	1257	1226	1261	0.77
21	43	0.0086	8	6.9	3.5	26	60	1264	1298	1261	1300	0.89
22	43	2e-05	0.019	15.3	1.2	29	61	1295	1327	1294	1331	0.90
23	43	0.0015	1.4	9.2	0.6	25	62	1312	1349	1310	1352	0.89
24	43	0.31	2.9e+02	1.9	1.0	24	62	1353	1391	1350	1394	0.90
25	43	0.0086	8	6.9	5.9	25	61	1396	1432	1393	1439	0.63
26	43	0.0018	1.7	9.0	2.6	28	64	1427	1463	1426	1470	0.73
27	43	0.0014	1.3	9.4	1.2	29	62	1484	1517	1479	1520	0.77
28	43	0.095	88	3.5	4.6	22	64	1505	1547	1505	1548	0.92
29	43	3.5	3.2e+03	-1.5	0.3	40	62	1565	1587	1546	1597	0.54
30	43	0.013	12	6.3	5.3	25	62	1592	1629	1583	1631	0.94
31	43	0.074	69	3.9	12.3	15	63	1603	1658	1602	1660	0.96
32	43	0.016	15	6.0	5.5	24	64	1633	1673	1631	1674	0.92
33	43	0.0012	1.1	9.6	6.2	24	63	1661	1700	1658	1702	0.90
34	43	0.8	7.5e+02	0.5	6.7	32	63	1697	1728	1694	1730	0.83
35	43	0.0043	4	7.8	0.6	26	52	1754	1780	1751	1792	0.62
36	43	4	3.8e+03	-1.7	0.3	31	52	1801	1822	1787	1832	0.44
37	43	0.0022	2.1	8.7	5.1	22	59	1827	1864	1819	1870	0.76
38	43	0.4	3.8e+02	1.5	1.1	22	62	1862	1902	1861	1905	0.90
39	43	1.3	1.2e+03	-0.1	0.3	21	62	1917	1958	1916	1961	0.86
40	43	0.43	4e+02	1.4	4.6	25	60	1963	1998	1953	2002	0.76
41	43	1.3e-05	0.012	15.9	0.9	28	64	2048	2084	2045	2085	0.91
42	43	1.1	1e+03	0.1	0.1	29	51	2206	2228	2202	2240	0.72
43	43	5.9	5.5e+03	-2.2	2.1	26	53	2311	2346	2308	2357	0.79

Sequence Information

Coding Sequence: ATGGCTCGCGATCATCGTGCCACATCCTGTTGTCTCTGCGGTTGCGACGCCCCGATGCCGGAAAATGTCACCGAGCCGCCGCACGAgccgtgctgctgctgcaattACAACCCGTTTAACGACGGCTCCAAGGAATCCGAGATTCACGATCTGTCGTTCGCTCTGCGTAAGCTGACAGTGATGAAGTGTCAGATGAAGAAGTGGCGCATGGAGCGTCTTCAGTTGGAGAGCGAGTGCAGATCGATGAAGGAAGCGCTTCAGTCCTTTGGCGTAAACGCGAAGGAAGGACTGAAAACGGATCCCCTGATCGTGCATTTCCGGGCCGAGGCTATGAGGTTGCAGAGCGCGAACGAGATACTCGAGGAGAAGATCAAAGTGCTCGAGGAAACATTGGCTGAACGTGATCTGAGCGAGGATCCTTGTAAAGGGGTTCAGATGATGAGAGACAGGATGAGGATGCTGAGGGATCAATTCGTTGGCGAGAAAAAACAGTTGAAAGACACCATAACGCAGCTGCGAATACAGTTGGCAGAGGCCGAAGACGACACATCGTGCGCTGCGTTGAACCGGCTGAGAGCGAAGCTGCGGGAGCTAATgaaggacggagagaaagCCGATCAACAGGTCACCAAAGTTGTGCAAAAGTCTATCGACACTTTGGTGGATTTGTCGAAGGGATGCGATGATTTGAAACTGGAGAACGAAAAGTTGCAAGGTGAAGTTCGTGCTTTGCGACAAGCTTTGAGGAACATGGGTGGTGACCAGAAACCGGATCACGTCGAAGACGATTTGTTGATTCATGTCGGAGCCGATAAATCGATTCACGCCGAACCCGATAAATCGGTTCATGACAAACCCGATAAATCGTTTCATGACGAAGCCGATAAAACGATTCACGACGAAGCCGATACTTCGATTCACGACGACACCGATAAAACGATTCACGTAGAACCCGATAAATCGATTCACGTGGAAGCCGATAAATCGATTCACGAAGAAGCCGATAAATCGATTCACGTGGAAGCCGATAAATCGATTCACGTGGAAGCCGATAAATCGACTCACGTGGAAGCCGATAAATCGCTTCATGACGAAGATGACAAAGCAAAAGCAAAGATGCCTCCTACAGAACCAGCGCTGAAGACGACGATTGTCGACAACGCCGAATGCGAAGATATGGTTGCTGATCTAAAAAGGAGTTTAGCCGAGAGTGAGATGATTATATCAGACTTGAGGACGCGGCTGCAGGACCGCGAAGGCGTGGTTAGAAGATTGACTGACGATCTCGATAGAATGGTCGTCAGTCACAAAGCTCTGTTGGCGGAAGTGTCCGACGCTAAGAACGAACTGATGAAACGGGACAAGAAGGTGACAGATCTGTTGCAGGACTTGGGCAGATCGTCTCTCGACATGTTGGGTATGAACGGCTTGAGAAACGAGATCGAAACGATGAAGCCCCAGCTCTACGACTTAGAAATCGAGAGGGACAAATTGTTGGATGAGTTGCACAAGATTCGCGGTGTTGTGTCCGATCGCAACGATCAGATAATTCAAGTCTTGGAAAAACGAGACAAGGATATCGGTGACTACGTGGCGAAAATCGAGGCTATGCAAGCCAGGATAGACGCGTTGCTTGGACAAGAAGCTTTATCCAGGAAAGAGGTGGAGGATGCCAAGGCACAAATTGAGAATCTTGAGGACGAAATTGCGCGACTAAAATCGCGCATAGACGAGCTGGAGAAAAGTTGCGAGGACACCGAGGGGCTGAGGAATAAAATGGAGGAACTGAACGAGGCGCTGAGAAAGATGCACGAGGAGAGCGACGCCCTGAAGGCCGAGAATGAAAATCTgactgcggcgaacgagaggcTGAGGGACGACGTGGGTAAGCtgaagagcgagagcgagaggcttTCCGCGGAGATTGATAAACTGCGGATGGAAAATGACAAACTCGGTGACACGGTTGACGGGctaaaaaaagatttggcTGATGCGAGGGCGGAGAACGATGTGCTGGATAAACAGCTGAGCGGGATGAAAGATGAGGATGAGAGGCGGAaagataatgaaaataatctgAAGGGTCGTTTGGATAATCTGACGGAGCAGGCGAAATCACTGAGTGCGGAAAACGCGAGCCTGAAGAGTGACTTGGACGAAGCGAAGGCCGAAGTCAGTGATTTGgagaaaaagttgaaaaatatAACGGAAGACTTTCGCAACCTGGAGGAAGAAAATAGAGCTCTTAATGAACGTGTAAATAATATAACTGAGGAATTGTCGGGAATGCGAGAAAAGAACGAGTCACTGAGACGAGAGTTGGAGGACCTAATGAAGGAAAACGAAAGGCTCAAAGGCGACGCGGAGAAACTGCGCGAGGCTTTGGAAAACATTAATCGAGAATTCGAACAGAGCAGGAAAGAACAGAACGACTACGAGGAGGAGATGAAACGTTTGAGAGCCGAGATCTCGTCTCTGAACGCGGATCTTGTTGATGCTAGGAAAGAAAATGCTGCTTTAAAGAcggaattaattgaattaaaaaacgacCTCGATAAGCTGACGATCGAGCTCGATGCTCGGCGTAATGAAAATTCCACTTTGCAATCTAAAGTGGATGCGCTGGAATTAGAAAATAATGACTTGAAACGAGTTGCCGGTGAACTTAAAGCCGAGTTAGGAAACGCTCAGGGTGAATTAGCGAAACTTCGGGACGAAAATAGTGGCCTGAGGGCCGAAGTTGCCAAACTCGAAGAAGCTAATGCAGGTTTGAAAGTCGATCTCGACAAGGCCAATTCGCTTAATGATCAATTGAGAGCCCAAGTGAGTTCTCTGACGAGTGACCTTGACGCGATGAGGGAAAAGTTGAATCGATTGGATGCGGACAACGGTGCACTGAATGCGGCGATCGAGAAGTTAAAGACAGACCACGACAACCTGATAGCCAACGCAGAGAAGTTGAGGGCAGATTTGGAAAATGCCAGACAGACGTTGGAAAACATGAGGGACGAAAATTCGACACTGAAGAACGAGATGGACAAACTGTTGAACGACAACGCGAGTCTGAAGGACAATCTGGACAAGCTAATCGAGGCGAACGGCCAATTGAAGAGCGAGGGGGCCGCGTGGAAGGCGGAGAACGAAAGATTAAAGGCAGCCGGGGACGGACAGATGAAGAACGAGAAGCGCCTGGAGGACGAGGTCAGCGATTTGAGacacgagagagacggaatgAAGTCCGAGCTGGATGAGTCGCGATCGGAAAACGCGGCTTTGAGGGGCGAGACGGATCGCTTGAAGCGGGATCTCGAGGATGCGATGGCAAACGGCGCGAGTGTCAAGGCCGCCCTGGAGGAATTGAAGCGGGAAAATGAGAAGGCGAAAGCTGACCTTGAAACCATCACAGCCGACCGGGATAAGCTGGCGGCGGAAGCGGCAAAACTGAAAGCCGACGCTGAAGCTCTCGGTGACAAAGTCAAAAGTTTGTCGGAAGAAGTACAAAAGCATATCGCTGAGGTGGAGCGGCTGAGAAGCGAGCTTGGCGATGCGAGGAAGAATATTGAGAGCCTGGAGTCCCGACTCGCTGCACTGCAGGCGGACAAGGCTCAGCTCGAAAAGGATGTGAGTGCACTCAACGCGGCGTGCGAGAATCTTAGAAGCGAGCTGAATTCGGAGAGGGACGCGAAGGAGGCCGCGCAGCAGGAGCTGATGGCCTTGAAGAAGGAGCTAAAGGAGCTGCTGGCTAAGCTCGATAGCCTCAAGTCCGAAAAAGACAATGTAGCAGCTGAGCGCGaggaattgaagaaaaagCTCGTTGAAATGCAGGACGAACTTTCGAAACTCTCGGCCGAAAATGTTGACCTTGCGAAGAGCTTAAAAAGTTTGAGCTCCGAGGTGGAACGACTGAAGAGCGAGAACGAAGATCTTCGGGCGGACGTCGAGCGGCTCCAGGAAGACGTGGATCACTGGAAAATGGAGAACTGCAAGTTGAAGATGGAGGTGGAGAAGTTGAggggcgatgttgagaaatTAAAGAAGGATTATGATGCTGCTCGCTCGAAGATAAAGGAGCTTCAGGAGCAATTAACCGACGAGGAAGCAGGGAAAAGAGATACAGCGCAGTCGATTGGTCGGCTGGAAAATGAAATATCATCATTAAAACAGGATCTGATTTCCGAGAAAGCTGCTAAGGAAAATACCCTTAAGCGGATTGCGGAGCTGGAGGAGGAACTCGATGCCTTAAAGGCTGAGCTTTCCAAGTGCAGAAACGAGAAGGAAGGGCTTGCCAAGGAAGTCGGGGACTTAAAGCAACATCAAGCGGTTCTCAAAAATGAGGCGGAAAAATTGCGGGACGAAGTGGCGGCTTTGCGAGGGCAGAATGACAAATTGAAGTCGGACCTGGACCGCTCGATGGCCGACTCGGATGGCGCCAGAGGCGACTACAAAAGATTGGAGGACACCTCGGAATCTTTGAAATCCGAGAACGCGGGACTGAAGGGCGAGCTGGAGAAGCTGAAAACGTCCAACGACGATTTGAGTGCCCAGCTTCGGTCTAACAAGAGTGAGAGGGAAAAATTACAGGCCGAGCTGGGCGAATCGAGGAACGAGGCTGCGAAACTCCGAGACGACCTCGAGAAAAGTCGCGCGGAAGTTGACAGTCTCAGGGGCGATTTGAGTAAAGCGAACGGCGAATTATCGGCAATGAAAAACGAGCACGAGAAACTGAAGGCAGCGTTGGAAAATGCGCGAAAATCTCTTGAAGATTCAGAGGCCAGGATGAAATCCATGGAAGGTCAATTGGATGCGGCGCaacaagaaaaacgaaagttgGTGGAGGATCTCGAGGTGTTGAGAAACGAAGCCGACAAGCTTCGAAAGGAACTATCGGGTGAGAAATTGGCCAAAGAAAATCTTCAGAAAGAAATTGCAGCGGTGAAGTCAGAGTTGGAAGCTCTGAAATCCGAGCTCGACAGAACCCGAGGTGATAACGAAGCATTGAAGAAAGAACTGAACACCTTGAAGAAACAACTGGAAGATTTGAAAGCGGCGAACGCGAGCTTGACTGCCGAGCTTGATAAGACGAAGCAGGAGTTAAACACGGTAAAACCGGAACtcgaaaaattgcgaaaggaacttgaaaaattgAGGCCCGAACTGGCGGCGCTGGAGGATGAACTAGCgaagaaaaatggagaaaccaaATCCGCGGGAGCTGAGAATGAGAGGCTGAAGAAATTGCTTGCGGACGGCGAGACTCGTGTCAAAGCTCTGGAAAATGAGCTCGCGGAGCTGCGAGCCGAGAAAGACAGGCTGGCAATGGAGATAACGGACTTGATAGGAGAAATCAGCAAACACGGCAAGAATTTGGCGAATGAAAAGGCAGCCCGTGAAGCTACGTCGAAAGAGCTCGAGGCGCTGAAAGATACGCTGGCTGGAATGAAAAGCGACTTGGACAAGTGCAGAGCGGAAATGGCAAAAATGAGGAAGGAACTCGACGGTGCCGAGGCAGAAGTAGCGAGACTGAGCGaggaatcaaataaattgaagGCAGAAAATAGCCGAGTGAAGGACGAacttgaaaaatcaaaagcgGATGGAAACAAATTGCTTTCCGACTTAGAAAAGTTCGAGGCGACGAGCGCTAAATTGCGGGCTGATCTCGAGGCCGCGAGATCCGAAGCTGAGAAATTAAAGGGTGATTTGGCGAGTGTCGCGGCTGACAGTGAGAAGTTGAAGAGCGACCTTGATAAAGAAAGGGCCGAGTCGAAAGAGTTGAAGGGCGAGTTCGATAAGCTGAAAACGGTGAACGATGTATTAAAGAGCGACGCGGGTCCGTCTAAAGCTGATATGGAGAAATTAAAGAGGGCCTTGGATGAGGCTAATGCCAGGATCGATAGCCTCAAGGACGAAGCCGAGCGCTCCGCGGCGGAGGCCTTAAAGTTGAAGAATGAATTGGACAAAACAAAAGCGGAGAGGGATAAATTGACCGACGAATCGCGTAAGGACAAAGACAATCTCGGTAATTTAATGCAAGAACTCGACAAGTCAAGAGGAAAGAGTGAGAAAATGAAAAGCGTCACCGAGAAGCCTGAAGTAGCGGAGGTGCGAAAACCAGCTGGATTCTCCGATACGGAAGCCGATGCCTTGAAGACCGAAATCGATCGTTTGAAGGCTGAAAATGCCAAGTTAAAGGCTGAGATTGGAGAATGTCAGGCGGAAAGAATTACTTTAAAGAATAACATCAAGAGGCTCCGAGCTGAAATCGATAAAAGGAGAAAAGAGTCGAGAGATACATCGGGCGCTGATGCTGCAAACCGCGCAGACTCAGCGGAATCCTTGAAAGTACCTGATGTTCCTGCGGACGAGTGTGAGGACTATGTAAGAGCCAATGAGTTGCTAGGAGGAATTCTGGCTGAGCAGAacaaagGTGTGGAGCGTGTTCGAGAATTCATCGGTCATATCGATGGCAGAGTTCCAAGGAAACCCGCGATGGCTGAAGGGCCTGACGAGGATCTGGACATCAGCGATTTTCTCGAACCTATGGTCATACAGACTCTGCAAAAGTCGCGACAACTGTCGAGTAACATTCTGAGCGTCGAGCTGGAGATACAGGCGATTGGAGACCGTCTGAACGATTGCAGAAAGGAGAACGACAGGCTGAGGAAATTACTGGAGGATCTCGGGGTCGACAATCAGGAGATCAAAGAGTTTCGCGACGAAGTGGGCGACGCTTTTGATGCCGAGACGTGGCTGAGGTCACTGACGCTGTTACAATTGGCTGAACTTCACGACCGCATCTGTTTGCTGACTTCGGAGCTGGTGCAACGAGACAGCGACGAAGTGGCTCATAAGACGGGAGCGGATGGATCGGTCGGCGTTGATGAAAACGACGATCCGCTCAAAGAGGACTATGAAGTCATGAACAAGCGAATAGCGGCTCTGCAGAAGCAAATAGCGGAGAAACAGGCCGAAGCCGCGAAAAAGGTTTACGACATGCGGCAAGCCCTTCGTCAGGAGCAGCTGCAGCTCATCAGAATCTCGGACGAGATGAACCGCGAGAGGAAACGAAATCTGGCGCTTCACCTCACGATCGATGGTTCCGCCTGCTGGGTCAACAAGTGTAATGCCGAATGTAGCGCGGATTTCAATGACTTGACTGATGTGGGCGATACTCGTGACACTTTGCCACACAAAGGCAAAATTGGGAAGGAGCCACGGAAAATTCAGATTGGAAAGGAGCCACGCAAAGACGGAATTGGAAAAAAGCCACGCAAAGACAAAGTTGCAAAGAAACGCTGA
Protein Sequence: MARDHRATSCCLCGCDAPMPENVTEPPHEPCCCCNYNPFNDGSKESEIHDLSFALRKLTVMKCQMKKWRMERLQLESECRSMKEALQSFGVNAKEGLKTDPLIVHFRAEAMRLQSANEILEEKIKVLEETLAERDLSEDPCKGVQMMRDRMRMLRDQFVGEKKQLKDTITQLRIQLAEAEDDTSCAALNRLRAKLRELMKDGEKADQQVTKVVQKSIDTLVDLSKGCDDLKLENEKLQGEVRALRQALRNMGGDQKPDHVEDDLLIHVGADKSIHAEPDKSVHDKPDKSFHDEADKTIHDEADTSIHDDTDKTIHVEPDKSIHVEADKSIHEEADKSIHVEADKSIHVEADKSTHVEADKSLHDEDDKAKAKMPPTEPALKTTIVDNAECEDMVADLKRSLAESEMIISDLRTRLQDREGVVRRLTDDLDRMVVSHKALLAEVSDAKNELMKRDKKVTDLLQDLGRSSLDMLGMNGLRNEIETMKPQLYDLEIERDKLLDELHKIRGVVSDRNDQIIQVLEKRDKDIGDYVAKIEAMQARIDALLGQEALSRKEVEDAKAQIENLEDEIARLKSRIDELEKSCEDTEGLRNKMEELNEALRKMHEESDALKAENENLTAANERLRDDVGKLKSESERLSAEIDKLRMENDKLGDTVDGLKKDLADARAENDVLDKQLSGMKDEDERRKDNENNLKGRLDNLTEQAKSLSAENASLKSDLDEAKAEVSDLEKKLKNITEDFRNLEEENRALNERVNNITEELSGMREKNESLRRELEDLMKENERLKGDAEKLREALENINREFEQSRKEQNDYEEEMKRLRAEISSLNADLVDARKENAALKTELIELKNDLDKLTIELDARRNENSTLQSKVDALELENNDLKRVAGELKAELGNAQGELAKLRDENSGLRAEVAKLEEANAGLKVDLDKANSLNDQLRAQVSSLTSDLDAMREKLNRLDADNGALNAAIEKLKTDHDNLIANAEKLRADLENARQTLENMRDENSTLKNEMDKLLNDNASLKDNLDKLIEANGQLKSEGAAWKAENERLKAAGDGQMKNEKRLEDEVSDLRHERDGMKSELDESRSENAALRGETDRLKRDLEDAMANGASVKAALEELKRENEKAKADLETITADRDKLAAEAAKLKADAEALGDKVKSLSEEVQKHIAEVERLRSELGDARKNIESLESRLAALQADKAQLEKDVSALNAACENLRSELNSERDAKEAAQQELMALKKELKELLAKLDSLKSEKDNVAAEREELKKKLVEMQDELSKLSAENVDLAKSLKSLSSEVERLKSENEDLRADVERLQEDVDHWKMENCKLKMEVEKLRGDVEKLKKDYDAARSKIKELQEQLTDEEAGKRDTAQSIGRLENEISSLKQDLISEKAAKENTLKRIAELEEELDALKAELSKCRNEKEGLAKEVGDLKQHQAVLKNEAEKLRDEVAALRGQNDKLKSDLDRSMADSDGARGDYKRLEDTSESLKSENAGLKGELEKLKTSNDDLSAQLRSNKSEREKLQAELGESRNEAAKLRDDLEKSRAEVDSLRGDLSKANGELSAMKNEHEKLKAALENARKSLEDSEARMKSMEGQLDAAQQEKRKLVEDLEVLRNEADKLRKELSGEKLAKENLQKEIAAVKSELEALKSELDRTRGDNEALKKELNTLKKQLEDLKAANASLTAELDKTKQELNTVKPELEKLRKELEKLRPELAALEDELAKKNGETKSAGAENERLKKLLADGETRVKALENELAELRAEKDRLAMEITDLIGEISKHGKNLANEKAAREATSKELEALKDTLAGMKSDLDKCRAEMAKMRKELDGAEAEVARLSEESNKLKAENSRVKDELEKSKADGNKLLSDLEKFEATSAKLRADLEAARSEAEKLKGDLASVAADSEKLKSDLDKERAESKELKGEFDKLKTVNDVLKSDAGPSKADMEKLKRALDEANARIDSLKDEAERSAAEALKLKNELDKTKAERDKLTDESRKDKDNLGNLMQELDKSRGKSEKMKSVTEKPEVAEVRKPAGFSDTEADALKTEIDRLKAENAKLKAEIGECQAERITLKNNIKRLRAEIDKRRKESRDTSGADAANRADSAESLKVPDVPADECEDYVRANELLGGILAEQNKGVERVREFIGHIDGRVPRKPAMAEGPDEDLDISDFLEPMVIQTLQKSRQLSSNILSVELEIQAIGDRLNDCRKENDRLRKLLEDLGVDNQEIKEFRDEVGDAFDAETWLRSLTLLQLAELHDRICLLTSELVQRDSDEVAHKTGADGSVGVDENDDPLKEDYEVMNKRIAALQKQIAEKQAEAAKKVYDMRQALRQEQLQLIRISDEMNRERKRNLALHLTIDGSACWVNKCNAECSADFNDLTDVGDTRDTLPHKGKIGKEPRKIQIGKEPRKDGIGKKPRKDKVAKKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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