Basic Information

Insect: Calameuta pallipes
Gene Symbol: -
Assembly: GCA_030142375.1
Location: JARQSW010000370.1:1548839-1556866[-]

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 46 2.9 2.5e+03 -1.2 0.9 30 57 57 84 52 91 0.72

2 46 1.4 1.2e+03 -0.2 2.3 37 64 102 129 99 130 0.82

3 46 0.91 7.9e+02 0.4 0.5 37 60 154 177 151 180 0.86

4 46 0.00045 0.39 11.0 0.2 29 52 218 241 211 244 0.89

5 46 5.4 4.7e+03 -2.1 0.1 36 58 312 334 300 340 0.57

6 46 2.1 1.8e+03 -0.8 0.1 27 63 344 380 343 382 0.79

7 46 0.0002 0.17 12.1 0.4 25 60 409 444 406 447 0.92

8 46 0.88 7.6e+02 0.4 2.1 21 42 457 478 456 517 0.72

9 46 0.0092 8 6.8 1.2 30 61 536 567 529 570 0.92

10 46 4.4e-05 0.038 14.2 0.9 24 61 579 616 576 620 0.87

11 46 0.0023 2 8.7 6.2 20 64 624 668 621 669 0.94

12 46 0.0018 1.6 9.0 1.7 23 56 669 702 664 705 0.58

13 46 3.1e-06 0.0027 17.9 1.7 21 62 702 743 702 746 0.93

14 46 0.021 18 5.6 6.4 21 63 737 779 737 809 0.89

15 46 0.022 19 5.6 2.3 28 64 779 808 770 825 0.57

16 46 0.043 37 4.6 0.6 27 52 827 852 821 865 0.81

17 46 0.041 35 4.7 0.9 39 64 860 885 849 886 0.74

18 46 0.034 30 4.9 5.7 29 63 878 912 875 918 0.91

19 46 0.023 20 5.5 6.6 21 63 891 933 890 935 0.95

20 46 0.013 11 6.3 3.5 22 63 927 968 926 970 0.93

21 46 0.011 9.7 6.5 6.7 24 65 950 998 946 1004 0.72

22 46 1.4e-05 0.012 15.8 2.2 28 64 1003 1039 998 1040 0.90

23 46 5.8e-05 0.05 13.8 2.5 21 64 1010 1053 1010 1054 0.89

24 46 0.015 13 6.1 2.7 28 65 1076 1113 1073 1113 0.91

25 46 0.024 21 5.4 0.7 23 62 1106 1145 1103 1148 0.72

26 46 0.0017 1.5 9.1 1.8 20 62 1152 1194 1151 1197 0.92

27 46 5.7e-05 0.049 13.8 1.0 26 61 1193 1228 1190 1232 0.91

28 46 0.18 1.6e+02 2.6 1.7 30 62 1239 1271 1233 1273 0.71

29 46 0.0073 6.3 7.1 6.1 22 62 1252 1306 1252 1309 0.82

30 46 6.9 6e+03 -2.5 6.6 42 62 1342 1362 1326 1418 0.66

31 46 0.015 13 6.0 5.1 24 65 1405 1446 1391 1446 0.92

32 46 0.00044 0.38 11.0 4.0 21 62 1423 1464 1422 1467 0.90

33 46 0.024 21 5.4 5.5 29 63 1494 1528 1465 1530 0.65

34 46 0.088 76 3.6 2.1 26 62 1547 1583 1543 1588 0.67

35 46 0.0026 2.3 8.5 0.5 25 62 1588 1625 1580 1627 0.92

36 46 0.94 8.2e+02 0.3 0.4 38 59 1636 1657 1632 1660 0.83

37 46 0.0039 3.4 8.0 6.0 22 63 1662 1703 1660 1705 0.95

38 46 0.16 1.4e+02 2.8 0.4 26 62 1687 1716 1682 1726 0.46

39 46 0.057 49 4.2 0.6 27 62 1727 1762 1724 1765 0.88

40 46 0.057 49 4.2 2.0 28 63 1812 1847 1781 1849 0.72

41 46 0.014 12 6.2 3.3 22 61 1848 1880 1843 1884 0.46

42 46 0.11 92 3.4 1.6 28 60 1920 1952 1889 1957 0.66

43 46 0.01 8.8 6.6 4.5 21 62 1955 1996 1953 1999 0.79

44 46 0.00083 0.72 10.1 9.2 20 64 2033 2077 2029 2087 0.86

45 46 0.0021 1.8 8.8 1.1 32 57 2213 2238 2199 2241 0.82

46 46 6.4 5.5e+03 -2.3 0.6 35 53 2349 2367 2340 2377 0.71

#	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	46	2.9	2.5e+03	-1.2	0.9	30	57	57	84	52	91	0.72
2	46	1.4	1.2e+03	-0.2	2.3	37	64	102	129	99	130	0.82
3	46	0.91	7.9e+02	0.4	0.5	37	60	154	177	151	180	0.86
4	46	0.00045	0.39	11.0	0.2	29	52	218	241	211	244	0.89
5	46	5.4	4.7e+03	-2.1	0.1	36	58	312	334	300	340	0.57
6	46	2.1	1.8e+03	-0.8	0.1	27	63	344	380	343	382	0.79
7	46	0.0002	0.17	12.1	0.4	25	60	409	444	406	447	0.92
8	46	0.88	7.6e+02	0.4	2.1	21	42	457	478	456	517	0.72
9	46	0.0092	8	6.8	1.2	30	61	536	567	529	570	0.92
10	46	4.4e-05	0.038	14.2	0.9	24	61	579	616	576	620	0.87
11	46	0.0023	2	8.7	6.2	20	64	624	668	621	669	0.94
12	46	0.0018	1.6	9.0	1.7	23	56	669	702	664	705	0.58
13	46	3.1e-06	0.0027	17.9	1.7	21	62	702	743	702	746	0.93
14	46	0.021	18	5.6	6.4	21	63	737	779	737	809	0.89
15	46	0.022	19	5.6	2.3	28	64	779	808	770	825	0.57
16	46	0.043	37	4.6	0.6	27	52	827	852	821	865	0.81
17	46	0.041	35	4.7	0.9	39	64	860	885	849	886	0.74
18	46	0.034	30	4.9	5.7	29	63	878	912	875	918	0.91
19	46	0.023	20	5.5	6.6	21	63	891	933	890	935	0.95
20	46	0.013	11	6.3	3.5	22	63	927	968	926	970	0.93
21	46	0.011	9.7	6.5	6.7	24	65	950	998	946	1004	0.72
22	46	1.4e-05	0.012	15.8	2.2	28	64	1003	1039	998	1040	0.90
23	46	5.8e-05	0.05	13.8	2.5	21	64	1010	1053	1010	1054	0.89
24	46	0.015	13	6.1	2.7	28	65	1076	1113	1073	1113	0.91
25	46	0.024	21	5.4	0.7	23	62	1106	1145	1103	1148	0.72
26	46	0.0017	1.5	9.1	1.8	20	62	1152	1194	1151	1197	0.92
27	46	5.7e-05	0.049	13.8	1.0	26	61	1193	1228	1190	1232	0.91
28	46	0.18	1.6e+02	2.6	1.7	30	62	1239	1271	1233	1273	0.71
29	46	0.0073	6.3	7.1	6.1	22	62	1252	1306	1252	1309	0.82
30	46	6.9	6e+03	-2.5	6.6	42	62	1342	1362	1326	1418	0.66
31	46	0.015	13	6.0	5.1	24	65	1405	1446	1391	1446	0.92
32	46	0.00044	0.38	11.0	4.0	21	62	1423	1464	1422	1467	0.90
33	46	0.024	21	5.4	5.5	29	63	1494	1528	1465	1530	0.65
34	46	0.088	76	3.6	2.1	26	62	1547	1583	1543	1588	0.67
35	46	0.0026	2.3	8.5	0.5	25	62	1588	1625	1580	1627	0.92
36	46	0.94	8.2e+02	0.3	0.4	38	59	1636	1657	1632	1660	0.83
37	46	0.0039	3.4	8.0	6.0	22	63	1662	1703	1660	1705	0.95
38	46	0.16	1.4e+02	2.8	0.4	26	62	1687	1716	1682	1726	0.46
39	46	0.057	49	4.2	0.6	27	62	1727	1762	1724	1765	0.88
40	46	0.057	49	4.2	2.0	28	63	1812	1847	1781	1849	0.72
41	46	0.014	12	6.2	3.3	22	61	1848	1880	1843	1884	0.46
42	46	0.11	92	3.4	1.6	28	60	1920	1952	1889	1957	0.66
43	46	0.01	8.8	6.6	4.5	21	62	1955	1996	1953	1999	0.79
44	46	0.00083	0.72	10.1	9.2	20	64	2033	2077	2029	2087	0.86
45	46	0.0021	1.8	8.8	1.1	32	57	2213	2238	2199	2241	0.82
46	46	6.4	5.5e+03	-2.3	0.6	35	53	2349	2367	2340	2377	0.71

Sequence Information

Coding Sequence: ATGACTCAGGAGACTTCCTGTTTATGCGGATGCTTTGTTCCGCCATGCTCCAAATCGCCGAACCCACCGCACGAGCCATGTTGTTGCTGTGAATACAATCCGTTCAGTGACAATTCGAAAGAGTCCGAGATATACGACTTGAATTTTGCCTTGAGGAAGCTCACGGTCATGAAGTGTCAGATGAAGAAATGGCGCATGGAACGTCTTCAACTTGAGAGCGAGACAAGATTGCTTAAGGAAGCTCTTCAGTCCCGAGgtgtGAAATTCGACGAGGCTCTTAAGCCTGACCCATTGGTTCTCCATTATCGGGAGGAAAATGAGAGATTGGAGAATGCCAAGAATCTGCTCGAGGATAGGATCAAAGATCTTGAAGAGACACTTTCAGAGAGAGATTCCTTTGAAGATTCGTGCGAGGCTGTGCATTACTATAGAGAGAAGATTGGGATCCTGAGAGCACAACACGCTGAAGAAAAGAATCAACTCAGGGAGATGATTTCGGAATTGAGAATCAAACTGGCACAGACGGAGGATGACAGTTCCTGTGCCGCGCTAAATCGTCTTAGAGCTAAATTAAGAGAACTGATGAAAGGAGGTCAAAGAGCTGATCAGCAAGTTTCTAAGGTAGTCGAACGCTCCATAGAGACACTGGTTCAATTGTCGACGAGTTGCGATGACCTGAAAGCCGAAAACGAACGTCTCCTACGGGAAGTGGAGGCTCTGAGGGGGATGTCACGATATCCAGAATCCAAGGAGTTTCAGAAAGCGAGTGCATTTGAAGAACGTCTTCCAGAGAAGGAGATCAGCGTAGAACCCGCTGATAAGGATGCCTTGATAAATGATTTGCAAAGAGAATTAATAGAGCACCGAGCCCGATCTGCTGATTTGGCTGTTGATCTGGATAAGATGACTGTCAGTACGAAAGCTCTGATGGCTGAAGTAGCTGCGATGAAAGATGAGCTTaagaaaagggatgaaaagATTACTGAGCTTCTTGGAGAGTTGACAAAGTCCACGGCTGATCTTTTTGGGATGCACAATTTGGAGAGCGAGATAATGGAGATGAGGCCGCAGTTATATGATCTTCAGATTGAGCGTGATCAACTGCTCGACGAGCTTGGTAAAGTTCGGGGTGTTGTGACCGAGAGGAATGATCAGATAATCAAGATCctggaaaaaagagaaagggataCGAATGATTGCGAGTCGAAACTGGTCGCTATGCAAACGAGGATTGATGGTTTGCTGGCGCAGGAAGCTTTGttaaagaaggaaaacgaaGCCCTGAAAAAGACAGTCATGGATTTGGAGGATGAGATGGGTGAGCTTAAAGCTGTTATAGGTCACGTGCCGGATACTAGTGACGACGCGGATAGAATGTTGGCTAGAATACGTGAACTCGAGGACGAGCTTGAGAAAGTTAGTAAGGAGCTTGCAAGTAGCAAGGATACTAGAAAGGACTTGGAAGATTTGATAGAATCAATGAAAGTTGCGAAGGATAATTTGGCTAATGAATTGTTTCAAGCTAAAGAGAATCTAAATAGTTGTAAGAAGGATTTGGCAATAGCGAAAGGTGAAAGGGACGATGCCCTTAAACTCCTGGCCGACTTGAAGACTCAACTCGATGTgttgaaagatgaaaattctcGCTTGGCTAATCTGGCGGATTCTATGAGAAAGAATAATGATGAGCTCAGAGACAAAAGTAAGAGCTCTTTAAAGGATATGAATGGAATCAGAGAGGAGAATGAGGTCCTGACGGcagagaatattaatttaaaagcagAGAATGATAGACTGAAGAAGCTCGTTGATGAGCTGAAAGCTGAAATCGACAAGCTTAAAGCTGATATCGATAAAGTGACCAACGACCGGGAGATGCTTCGTCGGAACAATGAAAAGCTCAATGACGATATTAAAAAGTATGAGGTCGAGAAGGATAGATTGGAAAATGATCTTTCAAAGTTACGAGAGGAACTTGATAAGTTGAAGTCTGCGAATGATGCCCTGAAGGATGATAACGATAGACTCATGTCTCAGGTTGATGAGCTTTTGGCGGAACTGGCTAAGCTTAAGGACGAAAGGGATAAATTAAAGGTGGAGGTGGATAAGGGTAAAGAGCATGAGGAAGCACTCAGGTCGGAGCTTGATAAGTTGAAAGGAGAGAATGATAAACTCAAGTCCGAAATCGGGCGGCTCGGGGATGAGTTGGATAAATTAAGGGCGGAAAATGACGGTCTCTACTCGCAAGTAAGGTCCCTCAAAGGTGAGAATGATAAACTGACCGAAGAGCTGACTGACGTTAAGGACTCACTAAAAAAATTGGCGGCGAATAATGATGCACTAAACGATGAAATACGAAAACTTCAATTGGAAAATGCCACCCTCAATGATCAGGTCGATGCATTTAAGGTTCAGAACGAGAAGCTTCAATCCGACTTAGATGATACTAAAAATCAGTTAGATCTGGCTAAAGCTGGCGGTGACAATTTGCAAGCGCAAGCGGATGGTTACAAAAATGAGAACGATGagctgaagaaaaatttggaaaaagctCAAGgcgatttaaataattcaagggCTGAAATAGATAGATTGAGATCAGAGAATGCTGCGCTCTTAGGAGAACTTAATAAGCTAAAATCTGAATGCGAAGCTTGTCAACTGGAACTGGATAAATTGAAACTGGAAAATGATTCTTTGAAAACCGATCTGAAtgctataaaaaatgaaaatatgtcattaaaaaatgagcTCAAGAAATCACAAGACGAAAACGAGAAACTCAAAGCCGACctagaaaatatgaagatcCAATTGGGAAGTGTGGAGTCTGAAAGAAATGCTCTTAGGGAAGCTAATGAAAGTCTGAGGTCGGACTTAAGCAAGGTAAAGGACGAGCTGGAAAATATAAGGaacgaaaataagaatttgaagGGTGAGGTAGAGACGTTAAAAACAGAGAATGGGAATCTCAAGGATAAGTTGATGGAGCTCAAAGGGAGGTTGGACGATACGGAAAGTGAGCTGGACAAGCTCAAAGGAGAGAACAGTACTCTCAAGAGGGAAGTGGGCGACCTGAAGGCGGAAAAGGATTCTCTGAAAGAAGAGCTGGCGAAAGTAaaggaagaaagtgaaaagtGGAAAGAGAAAGCAGAAGCTCTGGAGGTCTTGGACGAGAAGCGCAAGGCTGAGTGCGAGAGACTTAAAGCATCCAGCGATGGATACGACAACTTAAAATCTGATTTTGAGACGCTCAAACAGGATAAGGATAAACTGAAGGGCGAACGGGATCAATTGGAGGTTCAGAGAAATGCTCTTAGTGAAGAATTAAGTAAACTAAACGAGCAGCTCAATGGCCTCGCAGCTGAAAGGGACAAGCTGAAGAGCGATTTTGATCACATGAAGAGTCGCAACGACGCTCTGAAAGGAGAATTGGATGCGTGTATCATGGAAAGGGATAAATTACGGTCGGAGCTCGATAGTCTCAAGGGTGTAGTAGATGAGGTGCAGAATCAGAAGCAGGCAATGATGTCGGAGATTGAGAAATTGAGAAAGGAACTGGATGATTCTAGAAATGCAATCAAGTCTCTTGAAGCTGAGGCTGCTGCTCTGCGCAACGACAAGAGTCAGTTAGCCAAAGACATTAATGATTTAAGAAAGGAGCTGGACAGAGTGAAGAGTGCCAAGGAAGACGCTGATAAGGAATTGGAGGCTTTGAAGGGTAGTCTGAGCGATCTTCTTAACGAAATAATAAAGCTCAAAGAAGAGATTGATAAGTTACAGTCGGCGAAAAACAAACTGGAGGATGAATTGGCTGTCGAGAGGGGATCTTTAACGAATTGTCAAAATGAGAACAATGGGTTACATAATGAAATCGATAAGTTAAAGAAAGAGCTTCATGCTTTTAAAGACGAAAGCGAACAATTCCTTGAAGAGATAGCTAAATTGAAAGCTGACCTCGAATACTGGAAAATCGAGAACTGCAAGCAGAAGGCTGAAATCGATAGGTTGAATGGAGATATCGAAAAGCTGAAGAAGGAGTTGTCTGACTGCCGTGCTAAGGTAAAGGATCTTGAGGATCAGCTTGCTGTCCACGCTGATCTAAAATCGAAGCTTATGCAGGATATCGATAAACTCAAGAAAGATTTAGAGTCCGAAAAAGCGGCCCATCAAGCTACAAAGGACGAAGCTTCCAAAGCATCTGTTGGTTTCAAAGAAGAGCTGGAGGCTTTGAAGTCAGAATTAACCAAGATAAGAGGCGAGAACAACAAATTGAAAAGCGAGATTAGTGATCGGGAGAATCAAATGGCAGCGCTTAAAGACGAATTAGAGAAGCTCCGTAAAGAAGCCTCTACTCTTAGAACGGAAAATGATCGTTTTAAAGGcgaatttgataagaaaaaggcCGAAGCCGATAGATTGCAGAACGAACTTAACAAGGTTAAGGCTGAAGCTGACAGTTCGAAGGGCAAAGGTATAAATCTTAAAGGAGAAATCGATAAACTAACTTCTGACAATAATCGACTAAAGAGTGACCTCGATGCCCTGAAAGCTGAAAATGAGAAGCTTGCAGCCGCGTTGACTGCAGCTAGAAATGACTCTGAAAAGTTCAAGGCCGATTTGGCTGAATGCAAATCTGAGATAGACAAACTTAAGGCTGAAATTAATAGATTGAACGGGGAATTGAGCAAGCTGAATGACGAAACGAAGAAATCTAAGGCTGAACTCGAGGACCTTAAGAAGAGTCTGTCGAGTGCCGAGGACAGAATGAAGAAGCTTCAAGGACAGGTCGATGCCCTCGAAACTGAAAGAGGAAAGCTTATTGGTGAATTAAATGGGGTCAGGTCAGAAAATGATAAGTTAGCTAAGGAATTATCGAGTAATAAACTTGGCAAGGATGAAGCGCTGAAGGAGAACACAGCTCAGAAATCCGAAATAGCTGCCCTTAGGGAAGAACTAAGCAAGGTTCGTGGAGAGGAGGCGAGACTGAAGCAAGAGTTGGAAGGTCTCAGAAAGCAACTGTCAGATTTGAAAAGTGAACTGGACAAGATCAAAGAGGAGAACGTAGGATTGAAGAAAGCGAATGATAAGATGAAAGCGGAACTAGAGTCGTTCATGGCTGAAAACGGCCACCTCAAAGAGGCCCTTGACAAAGTTAAAGGTGAATTCAATGCGGCCAAATTAGAATACGAGAACGGTATAAAGCAGTTAAAGGATATGAATGATAATCTGAGAAAGGACGTAGCCAGTGCGCAGGATAAAGCGAAAAGTCTGGAGAATCAGCTAGGGTCTCTCGACGGAGAAAAGAATAGAATGGAAAAGGAGAGTTTGCTGTCGAAGGGTCAAATCGGAAAGCTGGAGAAAGATTTAGTTGCGGCGGGAGCCGCGAAAGATGCGGCTTTGCGAGAGCTTGAAGCCCTGAAGAACACTTTAGCTGGcttaagggatgatttagCTAAGTGCAAGGCTGACAAGGACAAGCTTCACCAGGAGTTGGACGAGATGAAGAGACGTTCCGCGGATTGGAAGGGCGACTTGGATAAGTTGCGGGCGGAGAAGGAAGCTTTGAAGAGTCAGGTTGACAAGCTCAACGGGGAACTGGATAAAGTACGCAACGAGAACGCCAACTTGAAGACTGAACTTGATCGCTCTTCGCTGTCGAAGGGTCAAATCGGAAAGCTGGAGAAAGATTTAGTTGCGGCGGGAGCCGCGAAAGATGCGGCTTTGCGAGAGCTTGAAGCCCTGAAGAACACTTTAGCTGGcttaagggatgatttagCTAAGTGCAAGGCTGACAAGGACAAGCTTCACCAGGAGTTGGACGAGATGAAGAGACCTTCCGCGGATTGGAAGGGCGATTTGGATAAGTTGCGGGCGGAGAAGGAAGCTTTGAAGCGCCAGGTTGACAAGCTCAACGGGGAACTGGATAAAGTACGTAACGAGAACGCCAACTTGAAGACTGAACTTGATCGCCCTAAAGCTAAGATCGATAAGGTGCAAGCTGATGATCATGCGttgattgaagaaaaaacGCGATTGAAACCTGTGTCTGAAAAAAGACTTGATAAGGAACTTGATAAGGGGCCCTCAAAGGCATCGGACAAGAAGGTTGAAGATGACAAAGCTTTGAGGAAGGAGCATTCAACGTTATTGGAAGATTTTAAAAGATTGcgcaaagaaaatgaaagactGAAAGCTGAGTTGCAGAATATGAAGAAAGACCTTGAAAAATGTCGTAGGGAAAATGATAAGTTAAGAAAAGCATCAGGTGATGGAGCAATgcctaaaattcaaaatgtaaaaagactTGAGAAAAAATCGGCAGCAAAATCCGCAATATCCATAGCAGTCGATAGTAAAGTTTCATCAGCAGAAATTACAGACGATTGTGGAGATTACATAAGAGCCAATGAAATCCTTACACAAAATATAGATGAACAAACCGATGGAATAAATCGTATTCGCGAATACATTGGCTTTATCGAGGGAAAAACTGCGATGCGACCAATAATGGTGCAAAAAATCGGCAACGACACGAAACCAAATgtcgatgaaataaaaattgctcgACTCAGAGGTATATTGATGGCGTCGCAAAAACTtgctgaaaatattcaaaacgcCGAGatggaaattcaagaaattggaaatttactTGACGAAAATGAGAAACTGAAAAAGCAAATCGACAATCTCCAAAAACAGCTCGCTggatTCGGTGTCGACGATCCAGAGATGATGGAAACTAAAGAGGAAGGTGGCGACATATTCGATGCGGAATCCTGGCTCAagtcACTTACTTTAACGCAATTGGCTGATCTTCACGAGAGGATATGCAGCTTGACATCTTCAATGGTCGAGGAAGATTTAAATCCTGATGACTTCATGGACGATCAGGATGATGTAACAATTTGCAAACCCTGCGGAACCTCCCGCGTGTCCTCCAACATACAAAAAGATCCAAGAAGATACGAGCGTGACAATTTAAACAAGAGAATCTCAGCATTGCAAAGACTGATAATGGATAAGCAATTGGATGCTGCGAGCAAGATCGAAGACATGAAGAGAACACTACGAGAGGAGCAGGCTAGCCTAGTGCGACTATCTCAAGAGATGAATctagaaagaaaacgaaattacgaaattcatcaaacaatggaaaattcgCCATGTTGGATAAACGATTGTAAAGCTGCGTGCCGAGTTGATCCCGAACACGTACATCCTGAACCCTTCTTCAATGTATCAGGATGTGTAACTCAACCCCTTACAAAAAGTACGGCTGACAATATTTGGAAGAGTCAATACGAAAATTCATCGGGCGCCACTAAGcctaatatattaaatgaaaatccaataaGCGATACCCGACCTCGGAACAGCGATAAGAAAAGATAA
Protein Sequence: MTQETSCLCGCFVPPCSKSPNPPHEPCCCCEYNPFSDNSKESEIYDLNFALRKLTVMKCQMKKWRMERLQLESETRLLKEALQSRGVKFDEALKPDPLVLHYREENERLENAKNLLEDRIKDLEETLSERDSFEDSCEAVHYYREKIGILRAQHAEEKNQLREMISELRIKLAQTEDDSSCAALNRLRAKLRELMKGGQRADQQVSKVVERSIETLVQLSTSCDDLKAENERLLREVEALRGMSRYPESKEFQKASAFEERLPEKEISVEPADKDALINDLQRELIEHRARSADLAVDLDKMTVSTKALMAEVAAMKDELKKRDEKITELLGELTKSTADLFGMHNLESEIMEMRPQLYDLQIERDQLLDELGKVRGVVTERNDQIIKILEKRERDTNDCESKLVAMQTRIDGLLAQEALLKKENEALKKTVMDLEDEMGELKAVIGHVPDTSDDADRMLARIRELEDELEKVSKELASSKDTRKDLEDLIESMKVAKDNLANELFQAKENLNSCKKDLAIAKGERDDALKLLADLKTQLDVLKDENSRLANLADSMRKNNDELRDKSKSSLKDMNGIREENEVLTAENINLKAENDRLKKLVDELKAEIDKLKADIDKVTNDREMLRRNNEKLNDDIKKYEVEKDRLENDLSKLREELDKLKSANDALKDDNDRLMSQVDELLAELAKLKDERDKLKVEVDKGKEHEEALRSELDKLKGENDKLKSEIGRLGDELDKLRAENDGLYSQVRSLKGENDKLTEELTDVKDSLKKLAANNDALNDEIRKLQLENATLNDQVDAFKVQNEKLQSDLDDTKNQLDLAKAGGDNLQAQADGYKNENDELKKNLEKAQGDLNNSRAEIDRLRSENAALLGELNKLKSECEACQLELDKLKLENDSLKTDLNAIKNENMSLKNELKKSQDENEKLKADLENMKIQLGSVESERNALREANESLRSDLSKVKDELENIRNENKNLKGEVETLKTENGNLKDKLMELKGRLDDTESELDKLKGENSTLKREVGDLKAEKDSLKEELAKVKEESEKWKEKAEALEVLDEKRKAECERLKASSDGYDNLKSDFETLKQDKDKLKGERDQLEVQRNALSEELSKLNEQLNGLAAERDKLKSDFDHMKSRNDALKGELDACIMERDKLRSELDSLKGVVDEVQNQKQAMMSEIEKLRKELDDSRNAIKSLEAEAAALRNDKSQLAKDINDLRKELDRVKSAKEDADKELEALKGSLSDLLNEIIKLKEEIDKLQSAKNKLEDELAVERGSLTNCQNENNGLHNEIDKLKKELHAFKDESEQFLEEIAKLKADLEYWKIENCKQKAEIDRLNGDIEKLKKELSDCRAKVKDLEDQLAVHADLKSKLMQDIDKLKKDLESEKAAHQATKDEASKASVGFKEELEALKSELTKIRGENNKLKSEISDRENQMAALKDELEKLRKEASTLRTENDRFKGEFDKKKAEADRLQNELNKVKAEADSSKGKGINLKGEIDKLTSDNNRLKSDLDALKAENEKLAAALTAARNDSEKFKADLAECKSEIDKLKAEINRLNGELSKLNDETKKSKAELEDLKKSLSSAEDRMKKLQGQVDALETERGKLIGELNGVRSENDKLAKELSSNKLGKDEALKENTAQKSEIAALREELSKVRGEEARLKQELEGLRKQLSDLKSELDKIKEENVGLKKANDKMKAELESFMAENGHLKEALDKVKGEFNAAKLEYENGIKQLKDMNDNLRKDVASAQDKAKSLENQLGSLDGEKNRMEKESLLSKGQIGKLEKDLVAAGAAKDAALRELEALKNTLAGLRDDLAKCKADKDKLHQELDEMKRRSADWKGDLDKLRAEKEALKSQVDKLNGELDKVRNENANLKTELDRSSLSKGQIGKLEKDLVAAGAAKDAALRELEALKNTLAGLRDDLAKCKADKDKLHQELDEMKRPSADWKGDLDKLRAEKEALKRQVDKLNGELDKVRNENANLKTELDRPKAKIDKVQADDHALIEEKTRLKPVSEKRLDKELDKGPSKASDKKVEDDKALRKEHSTLLEDFKRLRKENERLKAELQNMKKDLEKCRRENDKLRKASGDGAMPKIQNVKRLEKKSAAKSAISIAVDSKVSSAEITDDCGDYIRANEILTQNIDEQTDGINRIREYIGFIEGKTAMRPIMVQKIGNDTKPNVDEIKIARLRGILMASQKLAENIQNAEMEIQEIGNLLDENEKLKKQIDNLQKQLAGFGVDDPEMMETKEEGGDIFDAESWLKSLTLTQLADLHERICSLTSSMVEEDLNPDDFMDDQDDVTICKPCGTSRVSSNIQKDPRRYERDNLNKRISALQRLIMDKQLDAASKIEDMKRTLREEQASLVRLSQEMNLERKRNYEIHQTMENSPCWINDCKAACRVDPEHVHPEPFFNVSGCVTQPLTKSTADNIWKSQYENSSGATKPNILNENPISDTRPRNSDKKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00297284;
90% Identity: iTF_00251821;
80% Identity: -