Basic Information

Insect: Eufriesea mexicana
Gene Symbol: -
Assembly: GCA_001483705.1
Location: NW:9016-19032[+]

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 53 0.0014 0.69 9.1 2.0 30 60 25 55 19 59 0.89

2 53 4.9 2.4e+03 -2.2 1.9 28 49 84 105 81 141 0.64

3 53 0.097 48 3.2 4.7 29 63 170 204 168 206 0.85

4 53 0.26 1.3e+02 1.9 5.0 29 62 244 277 214 280 0.79

5 53 0.00031 0.15 11.2 4.3 24 63 298 337 297 338 0.91

6 53 0.011 5.5 6.3 2.6 37 62 353 378 341 381 0.54

7 53 0.0086 4.2 6.6 6.4 33 59 380 406 376 409 0.89

8 53 0.0017 0.84 8.9 1.0 27 64 402 439 401 440 0.92

9 53 0.032 16 4.8 3.4 24 57 427 467 424 475 0.59

10 53 0.029 14 4.9 7.1 21 60 487 526 478 531 0.90

11 53 2.4e-05 0.012 14.8 1.5 28 63 543 578 538 580 0.91

12 53 0.016 7.9 5.7 3.3 32 57 582 607 577 610 0.90

13 53 0.027 14 5.0 1.5 41 65 612 636 604 636 0.86

14 53 0.00028 0.14 11.4 4.4 25 59 631 665 628 671 0.65

15 53 0.0059 2.9 7.1 2.4 26 63 667 711 664 713 0.84

16 53 0.016 7.7 5.8 0.1 42 64 711 733 706 734 0.90

17 53 0.00067 0.33 10.2 5.8 32 62 729 759 720 762 0.86

18 53 0.00067 0.33 10.2 6.4 24 58 742 776 740 780 0.89

19 53 0.01 5.1 6.3 7.8 27 62 773 808 763 811 0.68

20 53 0.00078 0.39 9.9 2.3 27 64 815 852 812 853 0.92

21 53 0.0021 1.1 8.5 0.1 33 59 849 875 847 881 0.86

22 53 0.02 9.8 5.4 3.0 28 64 879 915 875 916 0.85

23 53 0.022 11 5.3 11.1 24 63 896 935 895 944 0.89

24 53 0.0019 0.94 8.7 0.6 22 65 936 979 935 979 0.92

25 53 0.0022 1.1 8.5 9.3 24 63 987 1026 984 1028 0.94

26 53 0.00071 0.35 10.1 0.4 22 65 1027 1070 1026 1070 0.86

27 53 0.00087 0.43 9.8 8.9 24 63 1078 1117 1071 1119 0.95

28 53 0.00026 0.13 11.5 0.7 25 64 1121 1160 1117 1161 0.78

29 53 0.0015 0.73 9.1 7.8 26 63 1171 1208 1168 1210 0.92

30 53 0.00034 0.17 11.1 1.1 25 64 1212 1251 1208 1252 0.78

31 53 0.016 7.8 5.8 1.6 29 64 1244 1279 1240 1280 0.79

32 53 0.6 3e+02 0.7 12.7 33 64 1283 1314 1259 1336 0.74

33 53 0.0054 2.7 7.3 0.3 25 60 1338 1373 1335 1376 0.85

34 53 0.0017 0.84 8.9 6.6 25 56 1394 1425 1383 1434 0.74

35 53 0.0029 1.5 8.1 0.2 29 60 1433 1464 1427 1468 0.88

36 53 0.0028 1.4 8.1 3.2 24 57 1456 1489 1448 1496 0.55

37 53 0.062 31 3.9 3.1 31 62 1505 1536 1499 1539 0.85

38 53 8.2e-05 0.041 13.1 4.0 18 63 1541 1586 1537 1588 0.92

39 53 0.034 17 4.7 1.3 32 64 1590 1622 1585 1623 0.85

40 53 0.038 19 4.6 3.1 25 59 1621 1655 1619 1657 0.74

41 53 0.00018 0.087 12.0 4.6 24 62 1676 1714 1673 1716 0.91

42 53 5.6e-05 0.028 13.6 4.2 26 62 1692 1728 1690 1731 0.92

43 53 0.00083 0.41 9.9 5.5 25 63 1733 1771 1731 1773 0.93

44 53 1.6 7.8e+02 -0.7 8.3 30 64 1794 1828 1771 1829 0.55

45 53 0.017 8.5 5.6 6.0 24 63 1816 1855 1812 1857 0.86

46 53 0.36 1.8e+02 1.4 3.3 29 59 1863 1893 1855 1897 0.63

47 53 1.9 9.3e+02 -0.9 7.4 28 61 1893 1926 1890 1930 0.87

48 53 0.085 42 3.4 2.4 28 56 1935 1963 1928 1967 0.67

49 53 2.4e-05 0.012 14.8 10.3 22 64 1964 2006 1962 2007 0.95

50 53 0.00062 0.31 10.3 3.7 29 63 1992 2026 1991 2028 0.91

51 53 1 5.1e+02 -0.1 1.2 22 57 2027 2062 2025 2066 0.86

52 53 0.024 12 5.2 11.0 17 64 2057 2104 2054 2105 0.91

53 53 0.027 13 5.0 3.1 30 56 2091 2117 2090 2124 0.82

#	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	53	0.0014	0.69	9.1	2.0	30	60	25	55	19	59	0.89
2	53	4.9	2.4e+03	-2.2	1.9	28	49	84	105	81	141	0.64
3	53	0.097	48	3.2	4.7	29	63	170	204	168	206	0.85
4	53	0.26	1.3e+02	1.9	5.0	29	62	244	277	214	280	0.79
5	53	0.00031	0.15	11.2	4.3	24	63	298	337	297	338	0.91
6	53	0.011	5.5	6.3	2.6	37	62	353	378	341	381	0.54
7	53	0.0086	4.2	6.6	6.4	33	59	380	406	376	409	0.89
8	53	0.0017	0.84	8.9	1.0	27	64	402	439	401	440	0.92
9	53	0.032	16	4.8	3.4	24	57	427	467	424	475	0.59
10	53	0.029	14	4.9	7.1	21	60	487	526	478	531	0.90
11	53	2.4e-05	0.012	14.8	1.5	28	63	543	578	538	580	0.91
12	53	0.016	7.9	5.7	3.3	32	57	582	607	577	610	0.90
13	53	0.027	14	5.0	1.5	41	65	612	636	604	636	0.86
14	53	0.00028	0.14	11.4	4.4	25	59	631	665	628	671	0.65
15	53	0.0059	2.9	7.1	2.4	26	63	667	711	664	713	0.84
16	53	0.016	7.7	5.8	0.1	42	64	711	733	706	734	0.90
17	53	0.00067	0.33	10.2	5.8	32	62	729	759	720	762	0.86
18	53	0.00067	0.33	10.2	6.4	24	58	742	776	740	780	0.89
19	53	0.01	5.1	6.3	7.8	27	62	773	808	763	811	0.68
20	53	0.00078	0.39	9.9	2.3	27	64	815	852	812	853	0.92
21	53	0.0021	1.1	8.5	0.1	33	59	849	875	847	881	0.86
22	53	0.02	9.8	5.4	3.0	28	64	879	915	875	916	0.85
23	53	0.022	11	5.3	11.1	24	63	896	935	895	944	0.89
24	53	0.0019	0.94	8.7	0.6	22	65	936	979	935	979	0.92
25	53	0.0022	1.1	8.5	9.3	24	63	987	1026	984	1028	0.94
26	53	0.00071	0.35	10.1	0.4	22	65	1027	1070	1026	1070	0.86
27	53	0.00087	0.43	9.8	8.9	24	63	1078	1117	1071	1119	0.95
28	53	0.00026	0.13	11.5	0.7	25	64	1121	1160	1117	1161	0.78
29	53	0.0015	0.73	9.1	7.8	26	63	1171	1208	1168	1210	0.92
30	53	0.00034	0.17	11.1	1.1	25	64	1212	1251	1208	1252	0.78
31	53	0.016	7.8	5.8	1.6	29	64	1244	1279	1240	1280	0.79
32	53	0.6	3e+02	0.7	12.7	33	64	1283	1314	1259	1336	0.74
33	53	0.0054	2.7	7.3	0.3	25	60	1338	1373	1335	1376	0.85
34	53	0.0017	0.84	8.9	6.6	25	56	1394	1425	1383	1434	0.74
35	53	0.0029	1.5	8.1	0.2	29	60	1433	1464	1427	1468	0.88
36	53	0.0028	1.4	8.1	3.2	24	57	1456	1489	1448	1496	0.55
37	53	0.062	31	3.9	3.1	31	62	1505	1536	1499	1539	0.85
38	53	8.2e-05	0.041	13.1	4.0	18	63	1541	1586	1537	1588	0.92
39	53	0.034	17	4.7	1.3	32	64	1590	1622	1585	1623	0.85
40	53	0.038	19	4.6	3.1	25	59	1621	1655	1619	1657	0.74
41	53	0.00018	0.087	12.0	4.6	24	62	1676	1714	1673	1716	0.91
42	53	5.6e-05	0.028	13.6	4.2	26	62	1692	1728	1690	1731	0.92
43	53	0.00083	0.41	9.9	5.5	25	63	1733	1771	1731	1773	0.93
44	53	1.6	7.8e+02	-0.7	8.3	30	64	1794	1828	1771	1829	0.55
45	53	0.017	8.5	5.6	6.0	24	63	1816	1855	1812	1857	0.86
46	53	0.36	1.8e+02	1.4	3.3	29	59	1863	1893	1855	1897	0.63
47	53	1.9	9.3e+02	-0.9	7.4	28	61	1893	1926	1890	1930	0.87
48	53	0.085	42	3.4	2.4	28	56	1935	1963	1928	1967	0.67
49	53	2.4e-05	0.012	14.8	10.3	22	64	1964	2006	1962	2007	0.95
50	53	0.00062	0.31	10.3	3.7	29	63	1992	2026	1991	2028	0.91
51	53	1	5.1e+02	-0.1	1.2	22	57	2027	2062	2025	2066	0.86
52	53	0.024	12	5.2	11.0	17	64	2057	2104	2054	2105	0.91
53	53	0.027	13	5.0	3.1	30	56	2091	2117	2090	2124	0.82

Sequence Information

Coding Sequence: ATGAAAGAGGGTCAGACGGCTGACCAGCAGGTTTCCAAAGTCGTGGAAAGATCGATCGAAACCTTGGTGGACCTCTCGAAGAGCTGCGGGGAACTTCGTTCGGAGAACGAACGCCTGCTCGCAGAGGCGGCTGAGCTTCGTGGTGCCCTGGCCAGGATGAAGGAGGAGCAGTTGGAATCTGCACCGTTGGAACTGGAGCCTATGATGAGAACCATCGACACGATCACGGTACCGGAATACGTCGACATCTCTGAGCTACTGGAGAAGCTGAAGAACTGCGAAGACACAGTGGCCGACCTGAGGAAACAGCTAGATGACAAGGACAGCTTGATAGACTCTCTGAACAAAGAATTGGAGACGATGGTCAGTCAAATGGGTCTGCAGGAGCAGATAGAAGCCATGGCTGAGGAACTTAAGAGGAAAGATGAGAAGGTACCGGTCGAAAGTAACATCACCGAGCTACTAAACACTCTAAGACAATCAGAGATAGACTTGCTCGGTTTAAGTGGTCTGAAATCCGATCTGGAGAACCTGAAACCAGAACTGCAAACTCTGAAACTAGAAAAATCCGAGTTGCTAGACGAATTATCCCGTCTACGTGAAGCACTGAAGGACAGGAACGATCAGATCATAGACATCCTAGAACAAAAGGACAAGCTCGAACGAGAACACCATGCCAGGCTCTCGGCACTGCAGTCTAGCCTCGACGAGGCGTTGGCCGGTCAAACGACCTTGAACCAGGAGATCGACGATCTGAAGGCTCAGATCGCCAATCTGACGAACGAGCTGGCCCAGTGTAACAGACGGAACGAGGAGCTCGAGGAGTGTTGTCAAGACAGGGATGCTCTTGCGGAGAAGGTTCTCGGCCTGGAAGACGATCTGGCTACCGCGAGGGACACGGTAGCGAATCTCGAGACAGAGGTGGAGACCCTGAGGTCGGACAAGGAAAAGTTGTCAGAGGAGCTGGACGAGGCGAGGAAACAGGTGGAGCTGCTGACCGGGGAGCTGGAAGACGAGATGGCTGCCAGGTCCACGTTGCAGAAGGATCTCGGGAGTGCTCGGGATGAGATTGAAAAGTTGCAGAAGGAGAATTTGGATCTAAGAGACCAGATCGAGAAACTTCGCGAAGCGTTGGGGGAGTCGGAGAAGCTGGCCGAGGAGAACGAAAAGTTAAGGGCTCAGTTAGAAGAGCTGAGGAGCGAGAACGAAGGTCTGACGAAGAGGATGGGCGAGCTGGACGATTTGAATAATCGACTGAAGAACGAGTACGACAGCATGAAGCAAGCGTTGGGCAATTTGGAAGCGGAGGTCAACAGGCTGGAGGATGAACTGAGCAGGGCGGTGCAAGAACGCGACGCGTTGCTGAATGAGAATAACGACATCAGAGGGCGGCTCGAACAGGCGATAGCTGAGAACGAGGCTCTGATAGCTAGACTGGACGAGGTCGCTGCACAACTTGATAAACTGAAGTTGGAGAAGGAAGAGCTACAGATGAGTCTCGACGAGATGGGGAAGGAGAACGATTTGCTGAAACGAGACGCGAAGGCGTTAAGGGACGACCTTGAGGAGCTGAAAGCTGCTGGCGACGCGCTGAGAGCGGCGGACGGGGACATGAAACTCGTATTGGACAAATTGGAACGGGACATGAAGGATCTGAAGGCGGAAAGGGACCGTCTGACGAGCGAGAATGCGGATCTAAAAAGTAAAATCTCGGAATTAGAAGGGAAACTAGCAGAGGCTAGAGAGAAGTTGGAGAAAGCGACGTCAGAGAATGCAGATTTGTTGAAGGAAGTGAAACGTCTGCAGGGTGAATTGGAGAAGGCTTTGGGCGATACAGAGCAACTGAGATTAGAGGTACAGTCGTTGACGGAAGGCCTGGACAAGTGCGTGGACGAGATGGAGAAGCTGATGACAGAAAACACCGAGCTTAAGTCAGAGAACGAGGCTTTGAAGTCCGAAAAGGATCGCTTGTCCGACGAGAATGCCGATCTGAAGATCAAGAATTTGGAGTTACAACAGAGGTTCGATGATATCACGAAAGAGTTGGATAAGTCGAAATTTGAAAACTCCGATCTGCTAGCTGAGATAGATCGTCTGAGAAATGAATTGGAAATCGCGCTGAACAACATCGAGCAATTGAAATCCGAGATAGGTTCGTTGAAAGAAGCCCTCGACAAGTGCGTGGGCGAGATGGAAAAGCTGAAAGTGGAGAACCAAGATCTCAAAACGGAGAATCACCAGCTCGAAACGGAGAATCACCAGCTCAAAACGGAGAATAACGGACTCAAAACGGAGAACCAGTCTCTGCAATCTGAAAGGGATTGTCTGGCAAACGAAAACGCCGATCTGAAGGCCATGAACTCGGAATTGCAGGAAAAATTGGAGAACGTAGCGAAAGAGCTGGATAAGACAAAGTCAGAGAATGCTGATTTGCTCGGCGAAATAAATCGTTTGGAACGGGAATTGAAGGAAGCCTGGGAGGACATCGATCAATTGAAATCCGAGATGGATTCGCTGAAAGAAGAGCTCGACAAGTGCGTAGGCGAGATAGAAAGGTTGAATGCAGAGAACAACGACCTCAAATCGACGAATCAGGATTTGAAGTCTGAAATTCAGGGGATTAGAGGCGAAGGGGACAGTTTGGCTGTGGAATTAAGTAAACTGAAAGACGAGAATTCGGTTTTGAAAGCTGAGAGGGACCTATTGAGCAAGCAATTGACAGACGCTTTGGCGGAAAACGAAAAACTGAGAATGGCCAAGGCTGAACTAAAGGCTGAGAACGAGAAGCTGAAAGAAGAGCTTGACAAGTGTGTGGATGAGATGCAAAGGCTGAATACCAAGAACAACGACCTTAAATCGGCGAATCAGGCTTTGAACATTGAAATTCAGGGAAATAAAGACGAACTGGATAGTTTGATCGTGGAATTAAGTAAACTGAAGGACGAGAATTCGGTTTTGAAAGCTGAGAGGGACCAATTGAGCAAGCAATTGACAGACGCTTTGGCGGAAAACGAAAAACTGAGAATGGCCAAGGCTGAACTAAAGGCTGAGAACGAGAAGCTGAAAGAAGAGCTTGACAAGTGTGTGGATGAGATGCAAAGGCTGAATACCGAGAACAACGACCTTAAATCGGCGAATCAGGCTTTGAACATTGAAATTCAGGGAATTAAAGACGAACTGGATAGTTTGATCGTGGAATTAAGTAAACTGAAGGACGAGAATTCGGTTTTGAAAGCTGAGAGGGACCAATTGAGCAAGCAATTGACAGACGCTCTGGCGGAAAACGAAAAACTGAGAACAGCCAAGGCTGAGCTAGAAGCTGAGATCGAGAAACTCAAAGAAGAGCTTGACAAGTGTGTGAACGAAATAGAAAGGCTGAATACCGAGAATAACGACCTTAAATCGGCGAATCAGGCTTTGAAGTCTGAAATTCAGGGACTTAGAGGCGAAGGAGACAGTTTGGCTGTGGAATTAAGTAAACTGAAGGACGAGAATTCGGTTTTGAAAGGTGAGAGGGACCAATTGAGCAAGCAATTGACAGACGCTCTGGCGGAAAACGAAAAACTGAGAACAGCCAAGGCTGAGCTAGAAGCTGAGATCGAGAAACTCAAAGAAGAGCTTGACAAGTGTGTGAACGAAATAGAAAGGCTGAATACCGAGAATAACGACCTTAAATCGGCGAATCAGGCTTTGAAGTCTGAAATTCAGGGACTTAGAGGCGAAGGAGACAGTTTGGCTGTGGAATTAAGTAAACTGAAGGACGAGAATTCGGTTTTGAAAGGTGAGCGAGACCAATTGAGCAAACAATTGACAGACGCTCTGGCAGAAAATGAAAAACTGAGAATAGCCGAGGCTGAGTTTGAAACTGAGAACGAGAAGCTGAAAGAAGAGTTGGGCGAGTGTAAGGGAGAGAATGACAGGTTGAAGGACGAGCTTGATAAATTAAGGGACCAATTGCGATCGTTGAACGACGAATTGGATGGGTTGAAGGGTCAGCTGGCTGAAGCTGAGGACAAGATTCGATCTCTGGAGCCGCTGGTCTCTAGTTTGCAGGCAGAGAACGATAAATTGCGAAACGATTTGGCGGCAGTGGAGGACGAGGCGAGAGGCTTGAGGACGAGAGTGGGTAGAGAAATGGACGACAATGAGAGGATGAGGAACGATATGAAGATACTGGAGGATCAGGTGCAAGAGCTGAGTAAGAAACTGGACAACGTTAGGGCCGAGAACGAGGCGTTGAAGCAGGAAAATCTGGCTCTCAAGGAGAGATTGGCAGTTGCTGAGGGATACTTGTCTGATTTGAAGATAGAATGCGCGGATTTGAAATCGGAAATCGCggatttgaagaaattaatagagGAATTGAGAGCGAAAATCGCGCAGCTGGAGGCAGATGTGGATCATTGGAAAATGGAGAATTGTAAGCTTCAGCTGGAGATCGATAAGTTGAAAGCTGATCTCGAGAAAGCGTTGAAAGATTTGAGCGAGAGTCAGGCTCTGAGAAAGGCTCAAGAGGCAGAGCTGAACCGTCTACAGACAGAGAAAGCCGATCTCCATAAAAAGCTAGCCGATCTAAGTTCCGAGATGGATCAGCAGAAGAGAGCTCTAGGGGCAGAGAAATCAGCCAAAGACAAAGCAAACTCAGAAATCTCTGCTCTGAAAGACGAGCTGGAAGCACTGaaaaaagaattagaaaaattgCGAGGGGACAACAACAAGTTGAGAAACGAAATCGACGATCTAGAGAAACTTCTCTCAGCAACGAGGAAAGAACTGAACGATGCCAAAGAAGAGATCGCTGCTCTGAGAAACGCGAACAGCGCGTTGCGATCCGAATTGGACGCTCTGGAGAGCTTAAAGAACGAGCACGACAAGCTGAAAACCGAGCTGGAAGCTGTGGAAGCTGAGAACGCGAGTCTCCGCGAGGCCACGAAGAACCTGGAGGACCAATACGGCAAGCTGAGAGGAGAAGGCGACGGCCAGAAGCTAGAGATCGACACGCTAAGATCAAACTTGGACGCAGAGAAGGCAGCTGCTGCCAAACTAAAGTCAGACCTCGAAACGTGCCAGGCTGAAAACGACAGGTTGCAAGCGCAGTTGAACGAGTTGAAGAAGGATTTAGACAAACTGAGAACAGAGAACGATCGCATGAAGAACGAGATCGATGACTTAAAGAAGGCTCTCGCGGACGCAGAGGCAAGGGTGAAGTCTCTCGAAGGCGAACTTTCAGATCTGCTAGCGGAGAAAGAGGAATTGGTCAACGAACTCTATCGTCTTCGAGATGAGCTGAAGAATCTCAAGAACGATCTGCAGAGGCAGACGACCGCCAAAGACGCGGCTACCAAAGAGCTAGCCGATCTCAAGGATGAACTGGCAAACCTGAGAGCAATGCTGAGCAAGAGTCGCGATGAAACCGAAACGCTAAAGAACGAGAACCAGAAGCTGACTATGGATTTAGACGAGTTGAACAAGCTATTGGAAGCTCTCAGAAACGAAAACACGAAGCTTCGGACCGAGAACAGTGATGTGACGAGCAAGAACGAAGAACTGACAGCGGAGCTGGCTAGAGTGAAGGATAAATTAAAAGACgctgaaaataatttgaataatctgATTAAGGAGAACAAGGATTTGAAGAACCAAATTGCTAATCTCGAGAATGTAATAAAGGAGCTCGAAGCTTTGAAGAAACAGTTGGAAGATGCTAAGAAGGAGCTAGATAAGCTGTTACCAGAGCTGGACAGGTTGAAGTTAGAGAAGGCAAAACTGGCAGAGGACTTGGTCAAGGCTACGAACGAATCGTCCAAGTTAAGGGGCGACTTGGATAAATTGAAGAAGGATCACGAAGCTTTGCAATCGGAATTAGGTGGTCTGAAGGAGGAGATGGAGAGACAGAAGGAGCGCGATACAGCGATGGAAAAGGAATTGGTCAGGTTGAAGAAGGAGAACGACCAGTTGAAGAATGGCAATGCGAAATTGAAAAACGAGTTAAAGGATTGCCAGGATGAGAATCAAAGGTTGCGAGGTGAACTCCAGGATTTGAAGGCGAATAATGCAAAGTTGCATAGTGATTTAAGCAAGGCGAAGAATGATGCTGATAGGTTGAAGGGTGATCTGGATAAATTGAAGAGCGATTATGCAGACTTAACGACAGAATTAGCTAATGCAAGGGAAGAGAAGAAGAGACAAAAGGAACACGATTCCACGTTAAGTGCAGATTTGGCGAAGATGAAGAAGGAGAACAACGAGCTGAAGAATGCAAACGCAAAACTGAAAAGCCAGTTATACGACTGCCAGAAggaattggaaaatttaaagaGAGAAAATGCGAAACTGAAGAAGGCTGCAGGTTTGATAACTACCACGGTAGCGTTTCGATTGTTTGGGCTTTCGTTATTCAAATTAGACGGCGAGGGGTCTTGGTCTTTTGACGAAGTAGCTTTGCAAATTCGAGCAGAGAGGCTAATGGACGGCTGTTTAATATTTGCCTCCAATGATTCTTTGATAGGATTAGGTAATATCGAGGGAATGAAGTATTGTCTTATAGTGAATTAA
Protein Sequence: MKEGQTADQQVSKVVERSIETLVDLSKSCGELRSENERLLAEAAELRGALARMKEEQLESAPLELEPMMRTIDTITVPEYVDISELLEKLKNCEDTVADLRKQLDDKDSLIDSLNKELETMVSQMGLQEQIEAMAEELKRKDEKVPVESNITELLNTLRQSEIDLLGLSGLKSDLENLKPELQTLKLEKSELLDELSRLREALKDRNDQIIDILEQKDKLEREHHARLSALQSSLDEALAGQTTLNQEIDDLKAQIANLTNELAQCNRRNEELEECCQDRDALAEKVLGLEDDLATARDTVANLETEVETLRSDKEKLSEELDEARKQVELLTGELEDEMAARSTLQKDLGSARDEIEKLQKENLDLRDQIEKLREALGESEKLAEENEKLRAQLEELRSENEGLTKRMGELDDLNNRLKNEYDSMKQALGNLEAEVNRLEDELSRAVQERDALLNENNDIRGRLEQAIAENEALIARLDEVAAQLDKLKLEKEELQMSLDEMGKENDLLKRDAKALRDDLEELKAAGDALRAADGDMKLVLDKLERDMKDLKAERDRLTSENADLKSKISELEGKLAEAREKLEKATSENADLLKEVKRLQGELEKALGDTEQLRLEVQSLTEGLDKCVDEMEKLMTENTELKSENEALKSEKDRLSDENADLKIKNLELQQRFDDITKELDKSKFENSDLLAEIDRLRNELEIALNNIEQLKSEIGSLKEALDKCVGEMEKLKVENQDLKTENHQLETENHQLKTENNGLKTENQSLQSERDCLANENADLKAMNSELQEKLENVAKELDKTKSENADLLGEINRLERELKEAWEDIDQLKSEMDSLKEELDKCVGEIERLNAENNDLKSTNQDLKSEIQGIRGEGDSLAVELSKLKDENSVLKAERDLLSKQLTDALAENEKLRMAKAELKAENEKLKEELDKCVDEMQRLNTKNNDLKSANQALNIEIQGNKDELDSLIVELSKLKDENSVLKAERDQLSKQLTDALAENEKLRMAKAELKAENEKLKEELDKCVDEMQRLNTENNDLKSANQALNIEIQGIKDELDSLIVELSKLKDENSVLKAERDQLSKQLTDALAENEKLRTAKAELEAEIEKLKEELDKCVNEIERLNTENNDLKSANQALKSEIQGLRGEGDSLAVELSKLKDENSVLKGERDQLSKQLTDALAENEKLRTAKAELEAEIEKLKEELDKCVNEIERLNTENNDLKSANQALKSEIQGLRGEGDSLAVELSKLKDENSVLKGERDQLSKQLTDALAENEKLRIAEAEFETENEKLKEELGECKGENDRLKDELDKLRDQLRSLNDELDGLKGQLAEAEDKIRSLEPLVSSLQAENDKLRNDLAAVEDEARGLRTRVGREMDDNERMRNDMKILEDQVQELSKKLDNVRAENEALKQENLALKERLAVAEGYLSDLKIECADLKSEIADLKKLIEELRAKIAQLEADVDHWKMENCKLQLEIDKLKADLEKALKDLSESQALRKAQEAELNRLQTEKADLHKKLADLSSEMDQQKRALGAEKSAKDKANSEISALKDELEALKKELEKLRGDNNKLRNEIDDLEKLLSATRKELNDAKEEIAALRNANSALRSELDALESLKNEHDKLKTELEAVEAENASLREATKNLEDQYGKLRGEGDGQKLEIDTLRSNLDAEKAAAAKLKSDLETCQAENDRLQAQLNELKKDLDKLRTENDRMKNEIDDLKKALADAEARVKSLEGELSDLLAEKEELVNELYRLRDELKNLKNDLQRQTTAKDAATKELADLKDELANLRAMLSKSRDETETLKNENQKLTMDLDELNKLLEALRNENTKLRTENSDVTSKNEELTAELARVKDKLKDAENNLNNLIKENKDLKNQIANLENVIKELEALKKQLEDAKKELDKLLPELDRLKLEKAKLAEDLVKATNESSKLRGDLDKLKKDHEALQSELGGLKEEMERQKERDTAMEKELVRLKKENDQLKNGNAKLKNELKDCQDENQRLRGELQDLKANNAKLHSDLSKAKNDADRLKGDLDKLKSDYADLTTELANAREEKKRQKEHDSTLSADLAKMKKENNELKNANAKLKSQLYDCQKELENLKRENAKLKKAAGLITTTVAFRLFGLSLFKLDGEGSWSFDEVALQIRAERLMDGCLIFASNDSLIGLGNIEGMKYCLIVN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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