Basic Information

Insect: Phylloecus linearis
Gene Symbol: -
Assembly: GCA_030142575.1
Location: JARQTE010000251.1:1437804-1446007[-]

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 0.7 5.5e+02 0.7 2.8 18 63 83 128 79 130 0.81

2 43 1.3 1e+03 -0.2 0.1 34 59 151 176 143 179 0.77

3 43 2.8e-05 0.022 14.7 0.3 29 57 218 246 211 250 0.87

4 43 1.8 1.4e+03 -0.6 0.2 28 61 406 439 402 443 0.71

5 43 0.00036 0.28 11.2 0.5 26 62 471 507 460 509 0.90

6 43 0.52 4.1e+02 1.1 1.1 28 61 513 546 510 576 0.75

7 43 0.0017 1.3 9.1 0.6 33 61 595 623 593 626 0.91

8 43 3.5e-05 0.028 14.4 0.8 29 64 633 668 628 676 0.60

9 43 0.081 64 3.7 1.0 22 54 689 721 684 731 0.75

10 43 0.18 1.4e+02 2.6 6.6 25 62 734 771 729 773 0.87

11 43 0.00038 0.3 11.1 2.2 24 62 761 799 758 802 0.93

12 43 0.0088 6.9 6.8 0.4 21 61 793 833 793 837 0.89

13 43 0.018 14 5.8 0.6 29 64 829 864 823 865 0.77

14 43 0.0048 3.8 7.6 1.1 27 63 883 919 879 921 0.88

15 43 0.0016 1.3 9.1 1.5 31 63 908 940 904 942 0.89

16 43 0.042 33 4.6 4.2 29 64 934 969 931 970 0.91

17 43 0.023 18 5.4 3.6 26 62 966 1002 962 1005 0.87

18 43 0.29 2.3e+02 1.9 4.0 22 62 983 1023 977 1028 0.68

19 43 0.013 10 6.2 6.6 22 63 1018 1059 1005 1061 0.82

20 43 4.9e-05 0.039 14.0 5.3 26 64 1057 1095 1054 1096 0.91

21 43 0.053 42 4.3 2.1 25 65 1133 1173 1116 1173 0.87

22 43 0.079 63 3.7 4.9 22 62 1151 1191 1146 1208 0.50

23 43 0.23 1.8e+02 2.2 0.4 21 59 1213 1251 1211 1255 0.83

24 43 0.0009 0.71 9.9 0.7 26 61 1253 1288 1250 1292 0.91

25 43 0.015 12 6.0 2.6 29 63 1305 1339 1297 1341 0.85

26 43 0.012 9.4 6.3 13.2 22 65 1312 1369 1311 1369 0.96

27 43 0.00033 0.26 11.3 5.5 22 59 1347 1384 1341 1390 0.61

28 43 0.00043 0.34 11.0 7.5 21 62 1483 1524 1482 1526 0.93

29 43 0.0018 1.4 9.0 0.1 29 64 1554 1589 1549 1590 0.92

30 43 0.028 22 5.1 8.7 22 57 1610 1645 1608 1652 0.88

31 43 0.024 19 5.4 0.4 25 63 1648 1686 1646 1688 0.90

32 43 0.0052 4.1 7.5 1.7 36 57 1694 1715 1686 1723 0.86

33 43 0.3 2.4e+02 1.8 6.4 24 62 1724 1762 1714 1785 0.72

34 43 0.5 4e+02 1.1 0.5 27 62 1787 1822 1784 1822 0.84

35 43 0.0089 7 6.8 2.9 25 62 1813 1850 1810 1853 0.90

36 43 0.13 1e+02 3.0 0.2 23 62 1839 1878 1837 1881 0.92

37 43 1 8.1e+02 0.1 0.1 29 60 1873 1904 1865 1909 0.81

38 43 0.049 39 4.4 3.0 30 63 1909 1942 1903 1949 0.69

39 43 0.0052 4.1 7.5 1.7 30 63 1944 1977 1936 1979 0.74

40 43 0.45 3.6e+02 1.3 0.2 38 63 1985 2010 1980 2012 0.83

41 43 1.7 1.4e+03 -0.6 0.9 33 53 2022 2042 2014 2054 0.73

42 43 0.0026 2.1 8.4 9.8 21 64 2081 2124 2079 2134 0.87

43 43 0.012 9.8 6.3 0.0 26 58 2283 2315 2278 2320 0.84

#	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	0.7	5.5e+02	0.7	2.8	18	63	83	128	79	130	0.81
2	43	1.3	1e+03	-0.2	0.1	34	59	151	176	143	179	0.77
3	43	2.8e-05	0.022	14.7	0.3	29	57	218	246	211	250	0.87
4	43	1.8	1.4e+03	-0.6	0.2	28	61	406	439	402	443	0.71
5	43	0.00036	0.28	11.2	0.5	26	62	471	507	460	509	0.90
6	43	0.52	4.1e+02	1.1	1.1	28	61	513	546	510	576	0.75
7	43	0.0017	1.3	9.1	0.6	33	61	595	623	593	626	0.91
8	43	3.5e-05	0.028	14.4	0.8	29	64	633	668	628	676	0.60
9	43	0.081	64	3.7	1.0	22	54	689	721	684	731	0.75
10	43	0.18	1.4e+02	2.6	6.6	25	62	734	771	729	773	0.87
11	43	0.00038	0.3	11.1	2.2	24	62	761	799	758	802	0.93
12	43	0.0088	6.9	6.8	0.4	21	61	793	833	793	837	0.89
13	43	0.018	14	5.8	0.6	29	64	829	864	823	865	0.77
14	43	0.0048	3.8	7.6	1.1	27	63	883	919	879	921	0.88
15	43	0.0016	1.3	9.1	1.5	31	63	908	940	904	942	0.89
16	43	0.042	33	4.6	4.2	29	64	934	969	931	970	0.91
17	43	0.023	18	5.4	3.6	26	62	966	1002	962	1005	0.87
18	43	0.29	2.3e+02	1.9	4.0	22	62	983	1023	977	1028	0.68
19	43	0.013	10	6.2	6.6	22	63	1018	1059	1005	1061	0.82
20	43	4.9e-05	0.039	14.0	5.3	26	64	1057	1095	1054	1096	0.91
21	43	0.053	42	4.3	2.1	25	65	1133	1173	1116	1173	0.87
22	43	0.079	63	3.7	4.9	22	62	1151	1191	1146	1208	0.50
23	43	0.23	1.8e+02	2.2	0.4	21	59	1213	1251	1211	1255	0.83
24	43	0.0009	0.71	9.9	0.7	26	61	1253	1288	1250	1292	0.91
25	43	0.015	12	6.0	2.6	29	63	1305	1339	1297	1341	0.85
26	43	0.012	9.4	6.3	13.2	22	65	1312	1369	1311	1369	0.96
27	43	0.00033	0.26	11.3	5.5	22	59	1347	1384	1341	1390	0.61
28	43	0.00043	0.34	11.0	7.5	21	62	1483	1524	1482	1526	0.93
29	43	0.0018	1.4	9.0	0.1	29	64	1554	1589	1549	1590	0.92
30	43	0.028	22	5.1	8.7	22	57	1610	1645	1608	1652	0.88
31	43	0.024	19	5.4	0.4	25	63	1648	1686	1646	1688	0.90
32	43	0.0052	4.1	7.5	1.7	36	57	1694	1715	1686	1723	0.86
33	43	0.3	2.4e+02	1.8	6.4	24	62	1724	1762	1714	1785	0.72
34	43	0.5	4e+02	1.1	0.5	27	62	1787	1822	1784	1822	0.84
35	43	0.0089	7	6.8	2.9	25	62	1813	1850	1810	1853	0.90
36	43	0.13	1e+02	3.0	0.2	23	62	1839	1878	1837	1881	0.92
37	43	1	8.1e+02	0.1	0.1	29	60	1873	1904	1865	1909	0.81
38	43	0.049	39	4.4	3.0	30	63	1909	1942	1903	1949	0.69
39	43	0.0052	4.1	7.5	1.7	30	63	1944	1977	1936	1979	0.74
40	43	0.45	3.6e+02	1.3	0.2	38	63	1985	2010	1980	2012	0.83
41	43	1.7	1.4e+03	-0.6	0.9	33	53	2022	2042	2014	2054	0.73
42	43	0.0026	2.1	8.4	9.8	21	64	2081	2124	2079	2134	0.87
43	43	0.012	9.8	6.3	0.0	26	58	2283	2315	2278	2320	0.84

Sequence Information

Coding Sequence: ATGAGCCACGAGACTTCCTGTTTATGCGGATGCTTCGTTCCACCATGTGTAAAGTCACCAGAGCCACCGCACGAGCCGTGTTGTTGTTGTGACTATAATCCGTTCAGTGACAATTCAAAAGAGTCCGAGATATACGACTTGAATTTTGCCTTGAGGAAGCTCACGGTCATGAAGTGTCAGATGAAGAAATGGCGCATGGAACGTCTCCAGCTTGAGAGCGAGACGAGATTGCTCAAGGAAGCTCTTCAGTCCCGAGgtatgAAAGTCGACGAGGTCCTTAAACCTGACCCACTGGTTCTACATTATCGGGAGGAAAATGAGAGATTGGAGAATGCCAAGAATCTTCTTGAGGACAGGATCAAGGACCTTGAAGAAACTCTTGCAGAAAGAGATTCCTTTGAAGATTCGTGCGAGGCTGTGCATTACTATAGAGAGAAGATTGAGATTCTGAGAGTACAACacgctgaagaaaaaaagcaACTCAGAGATACGATTTCGGATTTGAGAGTAAAACTGGCAGGGACAGAGGATGACAGTTCTTGTGCCGCGTTGAATCGTCTTCGAGCTAAATTGAGAGAACTGATGAAAGGAGGTCAGAGAGCTGATCAGCAAGTTTCCAAGGTGGTCGAACGTTCCATAGAGACGCTGGTACAATTGTCGACGAGTTGCGACGACCTGAAAGCCGAAAACGAACGGCTCCTACGGGAAGTCGAGACTCTAAGGAGGATGTTAGGATATCCAGAATCCCAAGAGTTTCAAGAAGCGGCGGTATTTCGAAAATCTCCAGAGGAGGAGATCAAATCGGAATCTGCTGATCGACATATAATGAACGATTTTGTGAGCGATTCCGTAGGAACAGAGAAGACGGAATACGACGATGACATTTTGGGCGTTGTTGAAAGAAAAGTAGCCAGAGAGGATATTGACCAAAATAACGCATCATTgtccaaaataaaagaaagcgaaTCCTTTATTGCGAATTTGAAGAGACAACTCGCTGACAAGGATGTCTTGATAAACGATTTGCAAAGAGAATTACTGGAGCATCGAGCACGATCTGCTGATATGGCTGTCGATCTGGATAAGATGACTGTCAATACGAAAGCTCTGATGGCTGAAGTAGCTGCTATGAAAGATGAGCTTATGAAAAGGGACGAAAagGTTACCGAGCTTCTTGGAGAGTTGAGAAAGTCCACGGTTGATCTTCTTGGAATGAACAAATTGCAGAGCGAGATAGAGCTGATGAAGCCGCAGTTTTATGATCTTCAGCTTGAACGTGATCAACTGCTTGATGAGCTTGGTAAAGTTCGCGGTGTTGTGTCCGAGAGGAATGATCAGATCATCAAGGTCCTGGAACAAAGGGAAAGAGATGCGAATAATTGCGAGTCGAAACTGGTCGCCATGCAAACTACGATTGACGGTTTGCTGGCGCAGGAAGCTTTGCTGAAGAAGGAGAACGATGctctgaaaaagaaagttataGATTTGGAGGATGAGATAGGTGAGCTTAAAGCTAGTATGACGAGTGACGACGCAGATGGACTGTTGGCTAGAATACGTGAACTCGAGGAGGAGTTTGAGAGAGTTAGTAAGGAGGTTGCAAGCAGTAAAGATACCATAAAGGACTTGGAAGATTTGATAGCAGCAATTAAAGCTGCGAAGGATAACCTAGCTAAGGAATTGCTCGAAGCTGAAGAGAATCTAAATAGATGCAAGAAGGATTTAGCGATGGAGGTAGGTGCAAAGGATGATGTCCTTAAAGTCCTGGCTGACTCGAAGACTCGACTTGACAAGTTGGAAGATGAAAACTCGCGCTTGGTTAATCAGGCGGATTCTATGAGAAAGGATAATGATAAGCTCAGAGACGAAAGTAGAACATTTCTACAGGATATGAATGGAATCAGAGAGGAAAGTGAGGTCCTGACGGcagagaatattaatttaaaagcaGAGAATGATAGACTGAAGAAGTTTGTTGATGAATTGAAAGCTCAAATTGACAAGCTTAAAGCTGATTTGGATAAAGTGACCGGCGACTTGGAGATGTTTCGCCAGGACAATGCAAAGCTCAAGGACGATActaaaaagtttgaatttgAGAAGGATAGACTGGAAGATGATCTTTTAAAGTTACgagaagaaattgataagTTGAGACCCGCGAATGTTGTCCTGAAGGGCGATAACGCTAGATTCGTGACCCAGGTTGATGAGCTTTTGGCGGAACTGGCTAAGCTTAAGGACGAAAGGGATAAATTAAAGGTAGAGGTACGGGAAGGTAAAGAGCACGAGGAAGCTCTCAGGTTGGAGCTTGATAAGTTGAAAGGAGAGAATGATAAACTCAGGTCCGAAATCGAGCGGTTCGGGGATGAGTTGGATAAATTAAGGGTGGAAAATGACGGTCTCCATTGGCAACTGAAGTCCCTCAAGGGTGAGAATGATAAACTAACGGTAGAGCTTACTGATATGAAGGACTCGCTTAAAAAATTGATGGCGGATAATGATGCACTTACTGATGAACTTCGAAAgcttaaaatagaaaatgcgACCTTGAATGATCAGGTCGATGCGTTTAAGgtcaataatgaaaaacttcAATTCGAATTGGATGACGCTAAAAATCAGTTAAATGATGCTAAAGCTGGCGGTGATAATCTGCAAACGCAAGTAGATAGTTACAAAAGTGAGAACAACGAGCTTaaaaaagttttggaaaaagtTCAAGGCGATCTAGATAATTTGAGGGATGAAACAGATAAACTGAGATCAGAGAACGCTGCCCTCTTAGGAGAACTGAATAAATTAAAGGCCCAATATGAAACTTGTCAACTTGAACTGGATAAATTGAAACTGGAaaatgaatcattaaaaatagatCTGAatgctataaaaaatgaaaatacttcCTTAAGAAATGACCTCAAGGAATCACAGGCTGAAAACGAAAAGCTCAAAACGGATCTAGAAAATATGAAGAGCCAATTGGGAAGTCTGGAGTTCGAAAAAAATGCTCTTAAGGAAGCTAACGAGGGACTGAGATCCGACTTAAACATGGCAAAGGACGAAttggaaaatataagaaacagaAATGAGAATTTGAAGGGTGAGATAGAGAAGTTAAAATCCGAAAATGGAAATCTTGAGAAGAAGTTGACGGAGCTCAAGGGGAAGCTGGACGAGACGGAAAGTGAACTGGACAAGCTCAAAGAAGAGAACGGCACTCTTAAGAGGGAAATGGGCAACCTAAAGGCGGAGAAGGATTCTTTAAAAGAAGAGCTCGCGAAAGTAAAGGAGGAAAGTGAAATGTGGAAAGAGAAAGTAGAAGCTCTGGAGGTCCTGGACGAGAAGCACAAGGCTGAGAGCGAGAGACTTAAAGCATCTGGCGACGTTGCGAAGCTCGAATACGACAATTTGAAATCAGATTTTGAGACACTCAAACAGAATAGGGATAAACTGAAGGATGAACGggatcaatttgaatttcagaGAAATGCCCTTAAGGGAGAATTGAGTAAACTGAACGAGCAGCTCGATGGTCTGGCTGCTGAAAGGGACAGGCTAAGGAGCGATCTTGATCAGATGAACAGTCGCAACAACGCTTTGAAGGGAGAATTGGATGCGTGTATCATGGAAAAGGATAAACTAAGGCTGGACCTCGATAGTCTCAAGGGTATAGTAGATGAGCTGAAGAATCAGAAGCAGGGAATGATGGCGGAGATTGAGAAATTAGGAAAGGAACTCGATGATTCTAGAAATGCAATAAAGTCCCTTGAAGCTGAGGCTGCTGTTTtgcgcaatgaaaaaaatcggTTAGCTAAAGATTGTAATGACTTGAGAACCGAGTTGGACGGAGTAAAGAGTGCTAAGGAAGATGCTGAGAAGGAATTGGAAGCTTTGAAGAGTAGCTTGAATGATCTTCtgagcaaaataataaagctgAAGGAGGAGATTGATAAGTTACAGTCGGAGAAAGAGAATCTGGCGGATGAACTGGATGTCGTGAGGGAGTTATTAAAGAATTCTCAGGATGAGAACAAAAGGTTACATAATGAAATTGCTAAGCTGAAGAATGAGCTTCAGGTTCTTAAAGACGAAAACGAAAAACTTCGGGAAGAGATAGCTAAACTGGAAGCTGACATCGAATACTGGAAAATCGAGTGCTGCAAGCATAAGGCAGAAATAGATAAATTGAATGGGGATATTGAAAAGCTGAAGAAGGAATTGTCTGACAGTCGTGCTAAACTAAAGGATCTTGAGGATCAACTTGCTGCTCAGGTTAGTATAAAATCGAAGCTCACGCAGGATATTGATAAACTCAAGAAAGATTTGGAGTCCGAAAAAGGAGCACTTCAAGCTGCAAAGGACGAATCTTCCAAAGCAGCAGTTTCTTGCAGAGAGGAGTTGGAAGCTCTGAAGTCAGAGTTAACCAAGTTAAGAGGAGAGAACAATAAGTTGAAAAGCGAAACTAGCGGTCAGGAGAATCAATTGGCAGCCCTTAAAGACGAATTAGAAAAGCTGCGTAAAGAAGCCTCTGAACTTGAAACTGAAAATGATCGTTTGAAGAACGATTTTAATAGGAAAATGGCCGAGATCGATGGGCTATACAATGAACTTAACCTTGTTAAGGCCGAAACTGAAAGTTCGAAGGGTGAGGGTGTAAATCTTAAAGGAGAAGTCGATAAAGTAACTTATGATAATAATCGTCTAAAACGTGACCTCGATGCCCTGAAAGCTGAAAATGAGAAACTTGTAGCTGCATTAACTGCAGCTAGGAATGACTCTGAAAAGTTTAAAGCCGATTTGGCTGAATGCAAATTTGAGAGCGAAAAGCTTAAGGCTGAAATTAATAGACTGAACGGCGAATTGAACAAGCTGAATGAAGAGACCAAGAAATTGAAGGCCGAACTCGAGGAGCTTAAAAAGAGTTTGTCGAGTGCTGAGGACagaatgaagaaatttcaaggaCAAGTGGACGCCCTGGAAACTGAAAGGGAAAAGCTTATTGGCGAATTGAATAACGTCAGGACAGGAAATGATAAGTTGACCAAGGAATTATCGAGTAACAAATCTGGCAAGGACGAAGCGCTGAAGGAGAACGCAGCTCTGAAATCCGAAATAGCAGCCCTTAGGGAAGAACTGAAAAAGAGCCGTGGAGAGGAGGCGAACCTGAAGCAAGAGTTGGAAGGTCTTAGAAAGCAACTGTCGGATCTGAAAAGTGAACTGGATAAGATCAAAGAGGAGAACGTAGGATTGACGACAGCGAAGGACAAGATGAAAGAGGAAATACAGGCGTTCAAGGTTGAAAATGGCAACCTCAAAGCGGCTCTTGACAAGGTTAAAGGTGAATTCAATGCGGCTAAGTTGGAACACGAGAATGCTATAAAGCAGTTAAAGGATATGAATGATAATCTGAGAAAGGACGTTGTCAGTGCGCAGGATAGAGCGAAAGGTCTGGAGAATCAGCTAGGGTCTTTGGAGGACGAGaagaatagaatgaaaaaagaaaattcgatgTCGAAGGATCAAATCGAAAAGCTTGAGAAAGATTTAGTTGCGGCGGGAGCCGCGAAAGACGTGGCTTTGCGAGAGCTCGAAGCCTTGAAGAACACTTTAGCTGGCTTAAGGGATGATTTAGCTAACTGCAAGACTGACAAGGACAAGCTTCACCTGGAGTTGGACGAGATGAAGAGACGCTACACGGATTGGAAGGGCGACCTGGATAAGATGGGCGCAGAGAGGGAAGCTTTGAAGAACCAAGTTGACAAGCTCAACCTGGAACTGGATGAAGTACGAAACGAGTACGCCAACTTGAAGAGTGATTTCGATAAACTCAAGGAAGAGCTTCGGATCGCTAGACAAGACAATGCTAAACTTAATCGAGATATTGATGCCCTTAGAGAAGAAAGGGATAAACTTAAGGGGCAACTACTGAAAATTCCGAAAGTTGATTCCAAGGCAGAACTTGATCGCCTGAAAACTAAAATCGGTAAGTTAGAAGCTGAGCTAGATAAGGCTAGGAAAGATCTCAGCGAGTCCAATGCGGAACACGAGAGGTCCAAGAAAGACCTTGATAAAGTAAAAGCCGATAATGATGCGTTGAATGCAGAAAAAGCTCGATTGAAAACTATGCCTGAAAAGAGGCTTGATAAAGAATTGGATAAGCAGTCCGAGCAAGGGATCGATAAAGGGTCTGATAAGAGGTCTGAAAAGGCATTGGACGAAAGCTTCGATAAGACGTCTGACAAGAAACCTGAAGATGACAAAGCATTGAGAAAGGAGCATTCAAAATTGTTGGAAGATTTCGAGAAATTACGTAACGAAAATGAAAGGCTGAAAGCCGATTTGcagaatatgaaaaaagagCTTGAGAAATGTCgtaaagaaaatgacaaattaaGGAAAGTATCGAATGCTGGAACAAAGCTGGATACGGACCATTCAAAGAAATACACGTCTGCCAAAAAAGAGGATATccgaaaagtaaaaaaaccTGAAATACAAGCGTTACATCAAATGAATGCTGTTCTTTCAAcTGAATCCGTAACATCGATAAAACCAGATAGTAAAATTCCATCGGGGGAAATTACGGACGATTGTGGAGATTACATAAGAGCCAATGAAATccttatacaaaatatagatGAACAAAACGAagGAATAAAACGTATTCGCAATTATATTGGCTTTATTGAGGGAAAAACGACAATGCGACCAATAATGGTACAAAAACTTGACATCCACGAGAAATCAAATGCTGACGTAATAAAGATTTCTCGAGTAAGAGGAATTTTAATAGAATCGCAGAAACTtgctgaaaatattcaaaatgccGAGatggaaattcaagaaataggCAATTTACTTGACCAAATCAATGGCTTCAGaattgaaaatgagaaactGAGAAAGCAAATAGACAATCTCGAGAAGCAGCTCGCTGGTTTCGGTGTGGACGTACCAAAGGTGATGGAAACTAAAGAGGATAGTCGCGACATATTCGATGCCGAATCCTGGCTTAagTCGCTTACATTAACGCAATTGGCTGATCTTCACGAGAGGATATGCAAGCTGACGTCTTCGATGGTCGAAGAAGATTTAAATCCTGAAGACTTCACGGATGATCAAGATGACGTGGCGATTTGCAAACCTTGCGAAATCTCCTGCGTCTCCTGGAATCTGCACGAAGATCCAAGAAAAGATGAGCGTGAGAATCTAAACAAAAGAATCGCAGCATTACAAAGACTTATAATGGATAAACAATTGGATGCTGCGCGCAAGATCGAGGACATGAAGAAAACTCTGCGTGAAGAGCAAGCCAACCTGATGCGATTATCTCAAGAGATGAAtttagaaaagaaacgaaatttcgaaattcatcgGACAATGGAAAATTCGCCATGTTGGATAAACAATTGTAAAGCTGCATGCCGAATTGATCCTAAACACGTATATCTTGGAGCCTTCTACAATTTATCAGGATCTATGTCCCAAGGTCATACAGAAAATACAGTTGGCAATACTTGCAAGCgtctatacaaaaattcgtcGAACTCCCCTAAGAGAaatgaattgaatgaaaatccGATAAGTGATACACGATCTCGAAACAATgataagaaaagataa
Protein Sequence: MSHETSCLCGCFVPPCVKSPEPPHEPCCCCDYNPFSDNSKESEIYDLNFALRKLTVMKCQMKKWRMERLQLESETRLLKEALQSRGMKVDEVLKPDPLVLHYREENERLENAKNLLEDRIKDLEETLAERDSFEDSCEAVHYYREKIEILRVQHAEEKKQLRDTISDLRVKLAGTEDDSSCAALNRLRAKLRELMKGGQRADQQVSKVVERSIETLVQLSTSCDDLKAENERLLREVETLRRMLGYPESQEFQEAAVFRKSPEEEIKSESADRHIMNDFVSDSVGTEKTEYDDDILGVVERKVAREDIDQNNASLSKIKESESFIANLKRQLADKDVLINDLQRELLEHRARSADMAVDLDKMTVNTKALMAEVAAMKDELMKRDEKVTELLGELRKSTVDLLGMNKLQSEIELMKPQFYDLQLERDQLLDELGKVRGVVSERNDQIIKVLEQRERDANNCESKLVAMQTTIDGLLAQEALLKKENDALKKKVIDLEDEIGELKASMTSDDADGLLARIRELEEEFERVSKEVASSKDTIKDLEDLIAAIKAAKDNLAKELLEAEENLNRCKKDLAMEVGAKDDVLKVLADSKTRLDKLEDENSRLVNQADSMRKDNDKLRDESRTFLQDMNGIREESEVLTAENINLKAENDRLKKFVDELKAQIDKLKADLDKVTGDLEMFRQDNAKLKDDTKKFEFEKDRLEDDLLKLREEIDKLRPANVVLKGDNARFVTQVDELLAELAKLKDERDKLKVEVREGKEHEEALRLELDKLKGENDKLRSEIERFGDELDKLRVENDGLHWQLKSLKGENDKLTVELTDMKDSLKKLMADNDALTDELRKLKIENATLNDQVDAFKVNNEKLQFELDDAKNQLNDAKAGGDNLQTQVDSYKSENNELKKVLEKVQGDLDNLRDETDKLRSENAALLGELNKLKAQYETCQLELDKLKLENESLKIDLNAIKNENTSLRNDLKESQAENEKLKTDLENMKSQLGSLEFEKNALKEANEGLRSDLNMAKDELENIRNRNENLKGEIEKLKSENGNLEKKLTELKGKLDETESELDKLKEENGTLKREMGNLKAEKDSLKEELAKVKEESEMWKEKVEALEVLDEKHKAESERLKASGDVAKLEYDNLKSDFETLKQNRDKLKDERDQFEFQRNALKGELSKLNEQLDGLAAERDRLRSDLDQMNSRNNALKGELDACIMEKDKLRLDLDSLKGIVDELKNQKQGMMAEIEKLGKELDDSRNAIKSLEAEAAVLRNEKNRLAKDCNDLRTELDGVKSAKEDAEKELEALKSSLNDLLSKIIKLKEEIDKLQSEKENLADELDVVRELLKNSQDENKRLHNEIAKLKNELQVLKDENEKLREEIAKLEADIEYWKIECCKHKAEIDKLNGDIEKLKKELSDSRAKLKDLEDQLAAQVSIKSKLTQDIDKLKKDLESEKGALQAAKDESSKAAVSCREELEALKSELTKLRGENNKLKSETSGQENQLAALKDELEKLRKEASELETENDRLKNDFNRKMAEIDGLYNELNLVKAETESSKGEGVNLKGEVDKVTYDNNRLKRDLDALKAENEKLVAALTAARNDSEKFKADLAECKFESEKLKAEINRLNGELNKLNEETKKLKAELEELKKSLSSAEDRMKKFQGQVDALETEREKLIGELNNVRTGNDKLTKELSSNKSGKDEALKENAALKSEIAALREELKKSRGEEANLKQELEGLRKQLSDLKSELDKIKEENVGLTTAKDKMKEEIQAFKVENGNLKAALDKVKGEFNAAKLEHENAIKQLKDMNDNLRKDVVSAQDRAKGLENQLGSLEDEKNRMKKENSMSKDQIEKLEKDLVAAGAAKDVALRELEALKNTLAGLRDDLANCKTDKDKLHLELDEMKRRYTDWKGDLDKMGAEREALKNQVDKLNLELDEVRNEYANLKSDFDKLKEELRIARQDNAKLNRDIDALREERDKLKGQLLKIPKVDSKAELDRLKTKIGKLEAELDKARKDLSESNAEHERSKKDLDKVKADNDALNAEKARLKTMPEKRLDKELDKQSEQGIDKGSDKRSEKALDESFDKTSDKKPEDDKALRKEHSKLLEDFEKLRNENERLKADLQNMKKELEKCRKENDKLRKVSNAGTKLDTDHSKKYTSAKKEDIRKVKKPEIQALHQMNAVLSTESVTSIKPDSKIPSGEITDDCGDYIRANEILIQNIDEQNEGIKRIRNYIGFIEGKTTMRPIMVQKLDIHEKSNADVIKISRVRGILIESQKLAENIQNAEMEIQEIGNLLDQINGFRIENEKLRKQIDNLEKQLAGFGVDVPKVMETKEDSRDIFDAESWLKSLTLTQLADLHERICKLTSSMVEEDLNPEDFTDDQDDVAICKPCEISCVSWNLHEDPRKDERENLNKRIAALQRLIMDKQLDAARKIEDMKKTLREEQANLMRLSQEMNLEKKRNFEIHRTMENSPCWINNCKAACRIDPKHVYLGAFYNLSGSMSQGHTENTVGNTCKRLYKNSSNSPKRNELNENPISDTRSRNNDKKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01130570;
90% Identity: iTF_00770131;
80% Identity: -