Basic Information

Insect: Cryptocheilus praepositus
Gene Symbol: -
Assembly: GCA_033815515.1
Location: JAWWQZ010000261.1:4877005-4890616[-]

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 0.024 25 5.4 1.9 30 59 60 89 55 94 0.68

2 47 0.57 6e+02 1.0 0.6 35 56 110 131 103 137 0.65

3 47 0.14 1.5e+02 3.0 3.0 17 50 144 177 143 183 0.78

4 47 8e-05 0.084 13.4 1.1 33 60 225 252 217 257 0.87

5 47 4.3 4.5e+03 -1.8 0.4 31 46 269 281 259 307 0.57

6 47 1 1e+03 0.2 0.9 34 57 307 330 296 344 0.61

7 47 0.0015 1.6 9.3 2.8 28 63 413 448 409 450 0.88

8 47 0.22 2.3e+02 2.4 0.7 22 53 449 480 448 492 0.80

9 47 0.11 1.2e+02 3.3 5.8 26 62 491 527 488 530 0.66

10 47 0.00015 0.16 12.5 5.3 27 64 534 571 531 572 0.90

11 47 0.042 44 4.7 3.5 21 55 563 597 563 600 0.91

12 47 0.00044 0.46 11.0 1.9 34 62 604 632 602 634 0.93

13 47 5.2e-06 0.0054 17.2 9.0 24 65 629 670 628 670 0.96

14 47 0.91 9.5e+02 0.4 0.9 30 59 670 699 668 705 0.74

15 47 6.6e-05 0.068 13.6 10.2 21 64 710 753 706 754 0.96

16 47 2.4 2.5e+03 -1.0 4.7 32 61 756 785 753 788 0.75

17 47 0.00035 0.36 11.3 0.1 22 47 788 813 787 816 0.91

18 47 0.0037 3.8 8.0 3.3 32 63 815 846 813 848 0.85

19 47 0.00033 0.34 11.4 4.0 24 64 852 892 849 893 0.93

20 47 0.063 65 4.1 2.2 22 63 892 947 891 949 0.78

21 47 0.2 2.1e+02 2.5 1.6 22 62 920 960 918 963 0.77

22 47 0.17 1.7e+02 2.7 2.2 22 64 948 990 947 991 0.89

23 47 0.33 3.5e+02 1.8 5.1 26 62 980 1016 978 1018 0.90

24 47 0.05 52 4.4 4.5 21 63 1010 1052 1009 1053 0.88

25 47 0.0049 5.1 7.7 13.0 18 58 1053 1096 1051 1101 0.86

26 47 0.024 25 5.4 9.7 26 59 1099 1132 1094 1138 0.85

27 47 0.0025 2.6 8.6 5.7 35 64 1143 1172 1134 1179 0.60

28 47 0.0093 9.7 6.7 4.7 24 61 1209 1253 1205 1257 0.65

29 47 1.1 1.2e+03 0.1 0.0 23 56 1250 1283 1248 1290 0.75

30 47 8.3e-05 0.087 13.3 9.4 25 63 1294 1332 1293 1334 0.92

31 47 0.088 92 3.6 1.9 22 58 1329 1365 1328 1367 0.86

32 47 1.1e-05 0.011 16.1 1.0 20 62 1362 1404 1359 1407 0.95

33 47 0.032 34 5.0 3.2 26 60 1410 1444 1407 1467 0.82

34 47 8.8e-05 0.092 13.2 7.2 24 61 1471 1508 1469 1512 0.91

35 47 0.72 7.5e+02 0.7 2.3 32 62 1531 1561 1518 1564 0.79

36 47 0.073 77 3.9 4.6 28 56 1583 1611 1562 1619 0.55

37 47 0.066 69 4.0 1.2 22 62 1605 1645 1591 1647 0.60

38 47 0.00057 0.59 10.6 4.3 22 63 1640 1681 1633 1683 0.92

39 47 0.00027 0.28 11.7 3.5 25 62 1685 1722 1682 1724 0.90

40 47 0.015 16 6.1 4.8 27 60 1743 1776 1729 1781 0.79

41 47 0.00028 0.29 11.6 2.8 22 60 1780 1818 1778 1823 0.91

42 47 0.37 3.9e+02 1.6 0.1 35 64 1828 1857 1824 1858 0.85

43 47 0.00037 0.39 11.2 3.2 26 65 1847 1886 1835 1889 0.75

44 47 0.023 24 5.5 1.7 32 56 1895 1919 1890 1925 0.71

45 47 0.099 1e+02 3.5 0.1 34 52 1932 1950 1929 1961 0.73

46 47 0.00064 0.67 10.5 4.2 21 63 1979 2021 1973 2023 0.95

47 47 8.1 8.5e+03 -2.7 0.1 38 56 2216 2234 2215 2237 0.74

#	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	0.024	25	5.4	1.9	30	59	60	89	55	94	0.68
2	47	0.57	6e+02	1.0	0.6	35	56	110	131	103	137	0.65
3	47	0.14	1.5e+02	3.0	3.0	17	50	144	177	143	183	0.78
4	47	8e-05	0.084	13.4	1.1	33	60	225	252	217	257	0.87
5	47	4.3	4.5e+03	-1.8	0.4	31	46	269	281	259	307	0.57
6	47	1	1e+03	0.2	0.9	34	57	307	330	296	344	0.61
7	47	0.0015	1.6	9.3	2.8	28	63	413	448	409	450	0.88
8	47	0.22	2.3e+02	2.4	0.7	22	53	449	480	448	492	0.80
9	47	0.11	1.2e+02	3.3	5.8	26	62	491	527	488	530	0.66
10	47	0.00015	0.16	12.5	5.3	27	64	534	571	531	572	0.90
11	47	0.042	44	4.7	3.5	21	55	563	597	563	600	0.91
12	47	0.00044	0.46	11.0	1.9	34	62	604	632	602	634	0.93
13	47	5.2e-06	0.0054	17.2	9.0	24	65	629	670	628	670	0.96
14	47	0.91	9.5e+02	0.4	0.9	30	59	670	699	668	705	0.74
15	47	6.6e-05	0.068	13.6	10.2	21	64	710	753	706	754	0.96
16	47	2.4	2.5e+03	-1.0	4.7	32	61	756	785	753	788	0.75
17	47	0.00035	0.36	11.3	0.1	22	47	788	813	787	816	0.91
18	47	0.0037	3.8	8.0	3.3	32	63	815	846	813	848	0.85
19	47	0.00033	0.34	11.4	4.0	24	64	852	892	849	893	0.93
20	47	0.063	65	4.1	2.2	22	63	892	947	891	949	0.78
21	47	0.2	2.1e+02	2.5	1.6	22	62	920	960	918	963	0.77
22	47	0.17	1.7e+02	2.7	2.2	22	64	948	990	947	991	0.89
23	47	0.33	3.5e+02	1.8	5.1	26	62	980	1016	978	1018	0.90
24	47	0.05	52	4.4	4.5	21	63	1010	1052	1009	1053	0.88
25	47	0.0049	5.1	7.7	13.0	18	58	1053	1096	1051	1101	0.86
26	47	0.024	25	5.4	9.7	26	59	1099	1132	1094	1138	0.85
27	47	0.0025	2.6	8.6	5.7	35	64	1143	1172	1134	1179	0.60
28	47	0.0093	9.7	6.7	4.7	24	61	1209	1253	1205	1257	0.65
29	47	1.1	1.2e+03	0.1	0.0	23	56	1250	1283	1248	1290	0.75
30	47	8.3e-05	0.087	13.3	9.4	25	63	1294	1332	1293	1334	0.92
31	47	0.088	92	3.6	1.9	22	58	1329	1365	1328	1367	0.86
32	47	1.1e-05	0.011	16.1	1.0	20	62	1362	1404	1359	1407	0.95
33	47	0.032	34	5.0	3.2	26	60	1410	1444	1407	1467	0.82
34	47	8.8e-05	0.092	13.2	7.2	24	61	1471	1508	1469	1512	0.91
35	47	0.72	7.5e+02	0.7	2.3	32	62	1531	1561	1518	1564	0.79
36	47	0.073	77	3.9	4.6	28	56	1583	1611	1562	1619	0.55
37	47	0.066	69	4.0	1.2	22	62	1605	1645	1591	1647	0.60
38	47	0.00057	0.59	10.6	4.3	22	63	1640	1681	1633	1683	0.92
39	47	0.00027	0.28	11.7	3.5	25	62	1685	1722	1682	1724	0.90
40	47	0.015	16	6.1	4.8	27	60	1743	1776	1729	1781	0.79
41	47	0.00028	0.29	11.6	2.8	22	60	1780	1818	1778	1823	0.91
42	47	0.37	3.9e+02	1.6	0.1	35	64	1828	1857	1824	1858	0.85
43	47	0.00037	0.39	11.2	3.2	26	65	1847	1886	1835	1889	0.75
44	47	0.023	24	5.5	1.7	32	56	1895	1919	1890	1925	0.71
45	47	0.099	1e+02	3.5	0.1	34	52	1932	1950	1929	1961	0.73
46	47	0.00064	0.67	10.5	4.2	21	63	1979	2021	1973	2023	0.95
47	47	8.1	8.5e+03	-2.7	0.1	38	56	2216	2234	2215	2237	0.74

Sequence Information

Coding Sequence: ATGTCGGATCGACACTCAGCTTCCGTTTGCCCCTGCGGCTGCCATTCATTACGATCGTTAAAAACCGACGAACCACCTCATGAGGCATGCTGTTGCTGCGCGTACAATCCGTTCAACGATAATACGAAGGACGCGGAGATCTGCGATCTGTCTTTCGCCCTGAGGAAGTTGATGGTGATGAAGTGTCAAATGAAGAAATGGCGGATGGAGAAGCTGCAGTTGGAGAGCGAGAATAGATCGTTGAAGCAGGAACTGCGATCGCTCGGTGTAAACCCCGAACAAGACATAAAACCCGATCCACTCTTGAAGCATTATCGGGAAGAGAATGTGAAGCTGGAGAGTGCAAACGATACCTTGGAGCACAGAGTCAGGGATTTGGAGGAAACGTTGGCCGAACGTGACAAGTACAGAAATCCCTGTGACGAGGTTCAATACGCTCGGGATAAGATGAAGGCACTGAGAGAACGTTGCGCCGGTGAAAAGAAACAATTGAGGCAAGAAATGACGGAATTGAAACTGAAATTGGCCGAAGCAGAAGGCGACTCGTCCTGTGACGCTTTGAATCGGCTACGCGCTAAATTGCGCGAACTGATGAAGGGTGGCCAAAAGGCAGACCAACAGGTGTCGAAGGTGGTCGAGAAGTCGATTGAAGCCTTAGTCGATCTGTCTGAAGGCTGCGACGACCTCCGAGTTGAGAACGAAAAGTTACGCGCCGAGGTCGAGGATTTGCGCAACGCGCTGGAGCAATGTAAACTATCTGCCAAGCCGGAATATAGAATGGACATGGAAGACGAGGATAATCTGTTGAGTCAGCTGGAAGCGCTAAAAGCGCAACTGGCCGAGAAGGATGCGATGCTCGACGATCTTAAGAAGAAATTTGACGAGGAAAGAGCGACCGCGCTCAGGCTCAGCGAAGATCTCGATCAGATGACGGTCAGTTACAAGGCGCTGAAGGACCAAGTAGCTGCGTTGAAGGAAGAACTGCAGAAGAGAGACGATAAGATACTTGAACTCATCGCCGGCCTCCGGCAATCCGCGATCGATCTGTTGGGCATGGATCAAGTGAAGCAAGAAATAGACGAGATGAAGCCGCAGCTCTATAATCTTGAGATCGAAAGGAACAACCTGCTGGATGAGTTGGGAAAAATAAGAGGCGTCCTGTCTGAACGTAACGACCAAATAATCGCGATTCTCGAGGAAAAGGACAAGTTGCAGAGGGACTCTTCTGCCAAAGCGTCAGCGGCACAGGCGAGATTGGATGCACTTCTCGAACAAGAAGACGCCCTAAAGAAGGAAATTGATGATTTGCGAAAGCAAATTGCCGATCTGCAAGACGAACTAGCTAAACAAAAAGCTTATACGGCCGAACTTGAAGAACAGATCGCTGCAAGTGGAGATGCAGCGAGTAAGTTACAAGAAGCCTTGGACGAATTATCAGCCCTGAGAAACGAACTGGCATCGGCCCAGAAGAAAATCGACGACGCACAGTCAGAAATCGAGAAATTGAACAACGAAAAGCAAAAAGTGCTAGACGAACTCGAGGCGATGAAAGCTGAAGCCGAGAAACTGAAGAATAAATTAGCTGAGGTTGAAGCAGAAAAGGGAGAGTTGGAAAAGAGTTTGTCGGAATGCTCAGCGGAAATAGAAAAATTGCGGGCAGAAAATAATACGCTGAAAGAAGAAATTGATAaactgaaaatggaaaatgacgAGTTGAAGAAAAATCTGAAGAAAGCTATGGATGAAAATGAGATGCTGCAGGTAGAGAATCACAATTTGTCGGCAGCCAATAATGAATTCCCGTTGACGATCGAGCAGTTGCAACGAGAAAATGAGAGTCTGACCGGACAGTTGGAAGCCATGAGGCGAGAAAATGCCCAATTGAAGGACAAAGTTGATGGATTGGAGAACGAATTGAACGAACTGAAATCGGAAAACGACGCTTTGAAGAAGGAACTCGCAGAACTTATGAGGCAACAAGAAGATCTGAAGAACGAACTGACCGATTTGAGGGACAAATTAGCGGAGGCGAGCGACGAAGCCGACCGTTTGAGGAAAGAATTGCAAGAAGCTTTGTCGGACTTAGAAAACGCGAGACACGAACTGAACTCCTGTCAAACGGAGAACAATCGTTTGAAAGACGAGGCggagaaattgcaaaacaaaattgacgCGCTTGCAGACGAATTAAATAAACTAAAGGCAGAAAACGAGCAATTGCAAAACGACACGAACAATCTAAAGGCCGAGCTGGAAAAAGCAAAAGCAGAAGCGGAAGAAGCAAAACTCCAAGTGGACAATTTGAAGCAGGAACGCGCCGATTTGGAAAACCGCTTGAAAGAAACGGAAGGCGAACTCGGAAAGGCGAAGGCAGAAATCGACGCGCTGCAAGGCAAAGTCAACGACTTGATGGCCGAAAACGAAAGACTGACAACAGCAGCCGCGAAAGTTGACGAGTTAACCGCCGAAGTAGAGAAGCTGCAAAACGAATTAGAGAAGGCAAATGCCGAAAATGCTGCCCTCACATCCCAACTGGCAGATTTCGACAATTGTAAGGAACGCTTGCAAGAGGCTTtggacgaaattaaaaaattggaagccGCAAACTCTGCGTTGGAACGCGAAATTAATGGTCTTAAGTCCGAAAACGCAGCGTTGAAAAACGATCTCGAAAAAGCGTTGGccgaaatagaaaaattaacggCCGAACTCGACGCGTTGAAGAGCGAAATCGGAAGAGTTACGGATGAGTGGAACAAAGCGTTGGCCGACAATGATGTGTTGAAAGGAGAGCTGGACAATTTACGGCGGGCGAATGACAGTTTGCTGACCGAGTTGGAGAAGAACCGAGACAATTTGAGAACTATGGAGGAGGAGCTCGGAAAGCTGAAAGGTGAAAACGACGCGTTGAAGGCGGCGGGCGATTCGTCGGACGCCGAAAAGAACGCGCTGAAAAGTGATCTCGAGCGGTTGGCGGCGGCGAAAGAAGAATTAGAGGCGGAATTAAACGCACGTAATGAGGAATGTGACAGGTTAAAGGCAGAGCTGGACGGTGCAAAGAACGATCTTCAAAAGTTGAGCGCGGAGCTCGAGGGATTGAAGAACGAATTAGCCGATCTGCGACGCGACAAAGAGAAAATGGCCGAGGATTTGGAGAAATGTCGAGAGGAACTAAAGGATGCTCGGAGCGAGCTAGAAAGTTTAAAGGCGAAGTGCGAGGAGTTGCAGAATGAGCGCGACGCTTTGAAGGCGGAAAATGAACAGTTGAAAAATGACCTTGAGAAGGCACGCGGCGATAATGCGAATTtaacgaaagaattgaatgatcTGGCTGAGCAGCTACAGAGGCTACAAGCTGAGAATGCTGAACtgaacgaaaaattgaaagaagcaaCTGACGAAGCTAGAGAGGCATCGTCAAGACTGAAATTGCTTGAAGATGAACTTGCAAGGCTGAGACCCGAAAACGAAGATCTTCGCAGGCAGTTAGCTGCACTAGAAAATCAACTAAACAGTTTGACGGCTGAACTGAACGCCGAACGATTAGCGAAAGAGGACGCGTTGAAGGAATTAAACGCGTTAAAGGGCGAGTTGAAAAATTTGGTGATAAAGATGGACGCGTTGAAGAGCGAGAACGAAGGGTTGAAGAGACAGTTGGAAAAAGCGGAGGATGAATTGTTCAAGCTGCGGGAGGCAAACGCGGATATGAAGAGTGAAATAAGCATGCTGAAGGAACAGCTCGCAGCAATGCGGGATAAGGTTGACAAGTTGGAGCAGGACATTGAGTACTGGAAGACGGAGAATTGCAAAATCAAGATGGACGTCGATAAACTCAAGGCGGATTTGGAGGAGGCGATGAAAGCGTTGAGCGATTGTCAAGCGCAGAAACGAAAATTGGAGGAGCAAGTAAACAAACTAGAAGCAGAGAAAGCACAACTACAAACAGAACTGAACCAGCTCAGAGCTCAAATCGACGACCTGAATAAGCAGCTCGACGCAAAGAAGATGGTTGAAGCCAATATGGCGTCCTTGGAGGAAGAACTATCGGCGTTGAAGGCGGAATTAGCAAAAATTCGCGGTGAACGCGACAGACTGTTGTCCGACATTGACTCTCTAAATGGCCAACTCTCTCTTCTACAATCAGAACTCGACAAGCTGAAAGCCGAAAATGCAGCGTTGCGAGGTGATAACGAGCAGCTGAAAGTCGACTTAGCCAGTGCGAACGCGGAGAAAAATGGACTGAATTCGGAATTAGCTCGACTGAAGTCCGACTTGGACGGACTGAAAGCTGAAAACGATAGTCTGAAGGACTTGAAGGACAAGCTCGAACAAGAGCAGGGTAAATTGAGAGGTGAAGGTGACGGGCAGCGGAATGAAATTGACAAGCTGCGAAATGATTTATTTGCGGAGAAGAATCAGTCGGAAAAGTTGCGGGCCGATTTGGCTGGATGTCAGGCCGAAAACCAGCGACTTCAGAACGAGCTGGCTGAATTGAAGAAGAATTTGGCAGAGCTCAAGCAGGCAAGTGATGCACTGCGGGCAGAATTGGATGCGTCAAAGAAAATGATCGAGCAATTAAAGGACGCCGATGCGAAGTTGAAGGATGCTCTGGCGGAGAAGGCTAATCTTCTGGCGGAACTGAAGAATCTGAGAGCTGATGTCGAGAGACTGGGCAAGGATTTGGCGGCCGAAAAGGCGGCGAAAGACGCTGCGCTGAAGGAACTGACAAATGTTAAGGCGGAGTTAGCGACACTGAAAGCGGAACTGGAAAAAATGCGGGCAGAAAATGAGGCGTTGGGAACGGAATGCAATAAACTAAAGGCCGAGCTCGATCGTGTGAACAAAGAGCTGATGGGTGCGCAGGGTGAAAACGCAGCGTTAAAATCTGATCTCGACGCGATGGCGGCGGAACTTTCGAAATTGAAGAATACTGTTAGCGATCTCGAAGCAAAATTAAACAACGCGAATGCCGAGAATGGGAGGTTGAAGGCGGAGTTGGCAGAGGCGCGGAAAGAAGTTAAAATGCTCGAAGATCGGTTATCAGCCGCTGAAGCTGCAAAGCAAACATTGGAGCAGCAAGCTAAGGATCTGGAAGATCAAGTTAAGAATTTGAAGTCGCTCAACGATGGCTTGAAATCAAAACTCGATGCGACTGAAAAGGATTTGAACGCGGAGAGGGCAGCCAAAGAAGCTGCACTTCGCGAATTAGAAGCTCTGAAAAACACGTTAGGAGAACTGAGAGACCAACTGAAACAGCTTACGGCGGACAACGAAAAATTAGCCAATGAGCTAGGActcttaaaaacaaatttatcgAATGCGAATAGTGAGAACGAGAAGCTGCGTGCTGAAATCGACGGTCTCAAGGCTGCGTTGTCTCAATTGAAGGACGAGCTGGACAAGCTCAAGCAAAACAATGCGCAGTTAAAGAATGACTTGGACAAGGCAAAAGGCGATTGCGACGCGACGAATGCTGCGATCGACAAGCTAAACGCTGATAATGATAAGCTGAAGGCCGCGCTCGACAAAGCAAACGCCGAAAACGCTAAGTGCAAGGCCGAAGTAGACAGGCTGGCTGGTGAAAACGATGGGCTCAAGGCGGAACTAGATAAACTCCGCGCAGAAAATGCGGCTCTTAGACGAGACCTCGAGAAACTGCAGGCGGACGGCGCCGGGACGAAGAACGAATTTGATCGGCTGAAAGACGAGCTGGAGAAACTGAAGGCCGAAAATTCGCGGCTGAAGTCGGATTTGCAAAAAGCGTCCGGGGACAATTTGGCAAGAGGGAGCGATCTGGATAAGCTGAGAGCGGAGAATGAGAGACTCAAGGCTGAACTCGCTAGGGCGAAAATGGACATTGAAAGGTCGAGGACTGATTTGATGGGATTGAAAGATGATTTGGCATTGAGCGGAGACAGATCGAGAAACGAGCTGAACAGGATGAAGGATGCGAATCAGAGACTGAAGGATGATTATGACAAGCTGAAGAAAGATTATGAGGCGTTGCTACAAGATATTGATCGGTGTCGGGAGGAAAATAAGAAGTTAGACGATATGCTTCGAGAAGCGGAGCGTTCGAAAGGAAAGGAGGCGGGCGACTGCGGTGACTACATTAAGGCGGCTGAATTGCTGAGGAGAAAGATTGAAAAGCAGAGCGAAGGAGTAAGTCGCGTAAGAAATTACATAAGTTTCGCGGAAGGCAAGATTCCGGAGAAGCCCGTAATGGCCGAGAAGTTGGACGATCTTTTGGACGGCGGTGATTGGGTAACGCCGACGATCGGCGAACTcttgcaaaattcgcaaaaattatCCGAGAACATACACAACGCCGAGCTGGAAATACAAAACATCGACAACTTGTTAGACCAACTTGCAGCTTGTAAGAAGGTAAACTATCTTCCTCCGCGCAATCTGCTAACATCTGATATCTTCGCACTAACAAAAACGAAATACACCACTCAGGGGCTCGGCGCCGACGTAGTAGGATCCTTTGACGCGGAATCCTGGCTAAAATCGCTGACTCTGACGCAACTGGCCGAATTGCACGACAAAATTTGCCTCCTCACCTCGGACATGGTCCATCAGGACAGCATTCCCGTTCCTTGCGACGGAAATTATTCAGATGGGGGTCATGGACGACCCCTGAAGGAGGACTACGACACGCTAAACAAGAGGATCGCGGCACTGCAGAAGCAGATCGCTGGCAAACAAATGGAGGCGGCCTGGAAGCAGCAGGAGTTGACGCGGGCTCTTCGTCACGAGCAAGCCAATCTTATACGCATTTCAGATGAGATGAACCGTGAGAGGAAACGCAACTTGAGTCTGCAGCTTACCGCGAACGAGAACAATTTGCCGTGA
Protein Sequence: MSDRHSASVCPCGCHSLRSLKTDEPPHEACCCCAYNPFNDNTKDAEICDLSFALRKLMVMKCQMKKWRMEKLQLESENRSLKQELRSLGVNPEQDIKPDPLLKHYREENVKLESANDTLEHRVRDLEETLAERDKYRNPCDEVQYARDKMKALRERCAGEKKQLRQEMTELKLKLAEAEGDSSCDALNRLRAKLRELMKGGQKADQQVSKVVEKSIEALVDLSEGCDDLRVENEKLRAEVEDLRNALEQCKLSAKPEYRMDMEDEDNLLSQLEALKAQLAEKDAMLDDLKKKFDEERATALRLSEDLDQMTVSYKALKDQVAALKEELQKRDDKILELIAGLRQSAIDLLGMDQVKQEIDEMKPQLYNLEIERNNLLDELGKIRGVLSERNDQIIAILEEKDKLQRDSSAKASAAQARLDALLEQEDALKKEIDDLRKQIADLQDELAKQKAYTAELEEQIAASGDAASKLQEALDELSALRNELASAQKKIDDAQSEIEKLNNEKQKVLDELEAMKAEAEKLKNKLAEVEAEKGELEKSLSECSAEIEKLRAENNTLKEEIDKLKMENDELKKNLKKAMDENEMLQVENHNLSAANNEFPLTIEQLQRENESLTGQLEAMRRENAQLKDKVDGLENELNELKSENDALKKELAELMRQQEDLKNELTDLRDKLAEASDEADRLRKELQEALSDLENARHELNSCQTENNRLKDEAEKLQNKIDALADELNKLKAENEQLQNDTNNLKAELEKAKAEAEEAKLQVDNLKQERADLENRLKETEGELGKAKAEIDALQGKVNDLMAENERLTTAAAKVDELTAEVEKLQNELEKANAENAALTSQLADFDNCKERLQEALDEIKKLEAANSALEREINGLKSENAALKNDLEKALAEIEKLTAELDALKSEIGRVTDEWNKALADNDVLKGELDNLRRANDSLLTELEKNRDNLRTMEEELGKLKGENDALKAAGDSSDAEKNALKSDLERLAAAKEELEAELNARNEECDRLKAELDGAKNDLQKLSAELEGLKNELADLRRDKEKMAEDLEKCREELKDARSELESLKAKCEELQNERDALKAENEQLKNDLEKARGDNANLTKELNDLAEQLQRLQAENAELNEKLKEATDEAREASSRLKLLEDELARLRPENEDLRRQLAALENQLNSLTAELNAERLAKEDALKELNALKGELKNLVIKMDALKSENEGLKRQLEKAEDELFKLREANADMKSEISMLKEQLAAMRDKVDKLEQDIEYWKTENCKIKMDVDKLKADLEEAMKALSDCQAQKRKLEEQVNKLEAEKAQLQTELNQLRAQIDDLNKQLDAKKMVEANMASLEEELSALKAELAKIRGERDRLLSDIDSLNGQLSLLQSELDKLKAENAALRGDNEQLKVDLASANAEKNGLNSELARLKSDLDGLKAENDSLKDLKDKLEQEQGKLRGEGDGQRNEIDKLRNDLFAEKNQSEKLRADLAGCQAENQRLQNELAELKKNLAELKQASDALRAELDASKKMIEQLKDADAKLKDALAEKANLLAELKNLRADVERLGKDLAAEKAAKDAALKELTNVKAELATLKAELEKMRAENEALGTECNKLKAELDRVNKELMGAQGENAALKSDLDAMAAELSKLKNTVSDLEAKLNNANAENGRLKAELAEARKEVKMLEDRLSAAEAAKQTLEQQAKDLEDQVKNLKSLNDGLKSKLDATEKDLNAERAAKEAALRELEALKNTLGELRDQLKQLTADNEKLANELGLLKTNLSNANSENEKLRAEIDGLKAALSQLKDELDKLKQNNAQLKNDLDKAKGDCDATNAAIDKLNADNDKLKAALDKANAENAKCKAEVDRLAGENDGLKAELDKLRAENAALRRDLEKLQADGAGTKNEFDRLKDELEKLKAENSRLKSDLQKASGDNLARGSDLDKLRAENERLKAELARAKMDIERSRTDLMGLKDDLALSGDRSRNELNRMKDANQRLKDDYDKLKKDYEALLQDIDRCREENKKLDDMLREAERSKGKEAGDCGDYIKAAELLRRKIEKQSEGVSRVRNYISFAEGKIPEKPVMAEKLDDLLDGGDWVTPTIGELLQNSQKLSENIHNAELEIQNIDNLLDQLAACKKVNYLPPRNLLTSDIFALTKTKYTTQGLGADVVGSFDAESWLKSLTLTQLAELHDKICLLTSDMVHQDSIPVPCDGNYSDGGHGRPLKEDYDTLNKRIAALQKQIAGKQMEAAWKQQELTRALRHEQANLIRISDEMNRERKRNLSLQLTANENNLP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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