Basic Information

Insect: Andrena camellia
Gene Symbol: -
Assembly: GCA_029448645.1
Location: CM055679.1:46989777-47001965[-]

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 0.29 3.2e+02 1.9 0.4 30 55 60 85 54 92 0.60

2 47 0.45 4.9e+02 1.3 1.7 33 56 108 131 106 133 0.79

3 47 0.0012 1.3 9.6 2.2 30 60 222 252 217 255 0.91

4 47 0.93 1e+03 0.3 0.5 28 53 282 307 280 319 0.71

5 47 2.6 2.9e+03 -1.2 0.1 44 62 325 343 305 353 0.54

6 47 0.043 47 4.6 0.8 30 63 363 396 361 398 0.92

7 47 0.013 14 6.3 1.1 26 63 419 456 417 465 0.74

8 47 0.8 8.7e+02 0.5 0.7 33 59 464 490 447 495 0.47

9 47 0.01 11 6.6 1.2 27 63 500 536 496 537 0.84

10 47 0.0037 4 8.0 1.5 24 57 539 572 538 578 0.91

11 47 0.00085 0.92 10.0 5.3 26 65 576 615 573 615 0.91

12 47 0.019 21 5.7 1.8 24 64 602 642 601 643 0.91

13 47 0.34 3.7e+02 1.7 1.6 25 57 638 670 630 678 0.70

14 47 0.0024 2.6 8.6 1.3 26 64 695 733 690 734 0.88

15 47 0.00067 0.73 10.3 1.1 27 63 745 781 735 789 0.64

16 47 0.00028 0.3 11.6 6.0 26 64 779 817 777 818 0.92

17 47 0.00018 0.19 12.2 2.7 26 61 842 877 833 881 0.90

18 47 1.2 1.3e+03 -0.0 0.7 37 60 885 908 883 911 0.62

19 47 0.0005 0.55 10.8 6.5 21 62 907 948 906 951 0.94

20 47 0.0079 8.6 6.9 0.6 22 64 943 985 942 986 0.93

21 47 0.0022 2.4 8.7 0.1 23 63 965 1005 963 1006 0.85

22 47 1.4e-05 0.015 15.8 4.6 27 60 997 1030 992 1035 0.91

23 47 0.083 90 3.6 2.9 22 62 1041 1081 1039 1084 0.85

24 47 9.7e-05 0.11 13.0 3.7 29 60 1090 1121 1082 1126 0.88

25 47 0.077 84 3.8 2.8 22 62 1132 1172 1130 1175 0.85

26 47 0.0001 0.11 13.0 3.7 29 60 1181 1212 1173 1217 0.88

27 47 0.15 1.6e+02 2.8 2.3 29 62 1216 1249 1211 1252 0.76

28 47 0.0004 0.44 11.0 0.3 26 62 1255 1291 1252 1293 0.92

29 47 6e-05 0.065 13.7 6.1 25 64 1310 1349 1299 1350 0.75

30 47 0.11 1.2e+02 3.2 2.4 24 64 1365 1405 1357 1407 0.86

31 47 0.18 1.9e+02 2.6 3.1 37 64 1420 1447 1404 1448 0.75

32 47 0.0027 2.9 8.4 1.9 32 63 1464 1495 1461 1497 0.85

33 47 0.0014 1.5 9.4 1.4 32 64 1492 1524 1487 1532 0.63

34 47 0.00091 0.99 9.9 5.1 21 59 1537 1575 1535 1577 0.73

35 47 0.00024 0.26 11.8 5.7 23 61 1595 1633 1593 1637 0.92

36 47 5.8e-06 0.0063 17.0 5.9 25 63 1653 1691 1649 1693 0.92

37 47 0.2 2.2e+02 2.4 6.8 20 63 1697 1747 1694 1749 0.60

38 47 0.1 1.1e+02 3.3 2.3 24 63 1729 1768 1727 1777 0.55

39 47 0.012 13 6.4 2.5 28 59 1775 1806 1769 1813 0.85

40 47 0.047 52 4.4 8.9 22 47 1821 1846 1806 1864 0.50

41 47 0.026 28 5.3 3.0 28 58 1862 1892 1857 1902 0.79

42 47 0.79 8.6e+02 0.5 6.6 28 60 1897 1929 1893 1933 0.57

43 47 1 1.1e+03 0.2 10.8 27 60 1917 1953 1908 1965 0.59

44 47 0.0021 2.3 8.7 0.5 28 60 1956 1988 1952 1992 0.90

45 47 0.0025 2.7 8.5 6.5 29 63 2006 2040 1990 2042 0.81

46 47 0.011 12 6.4 3.6 37 64 2028 2055 2023 2056 0.87

47 47 5.8 6.3e+03 -2.3 1.3 36 51 2264 2279 2244 2287 0.77

#	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	0.29	3.2e+02	1.9	0.4	30	55	60	85	54	92	0.60
2	47	0.45	4.9e+02	1.3	1.7	33	56	108	131	106	133	0.79
3	47	0.0012	1.3	9.6	2.2	30	60	222	252	217	255	0.91
4	47	0.93	1e+03	0.3	0.5	28	53	282	307	280	319	0.71
5	47	2.6	2.9e+03	-1.2	0.1	44	62	325	343	305	353	0.54
6	47	0.043	47	4.6	0.8	30	63	363	396	361	398	0.92
7	47	0.013	14	6.3	1.1	26	63	419	456	417	465	0.74
8	47	0.8	8.7e+02	0.5	0.7	33	59	464	490	447	495	0.47
9	47	0.01	11	6.6	1.2	27	63	500	536	496	537	0.84
10	47	0.0037	4	8.0	1.5	24	57	539	572	538	578	0.91
11	47	0.00085	0.92	10.0	5.3	26	65	576	615	573	615	0.91
12	47	0.019	21	5.7	1.8	24	64	602	642	601	643	0.91
13	47	0.34	3.7e+02	1.7	1.6	25	57	638	670	630	678	0.70
14	47	0.0024	2.6	8.6	1.3	26	64	695	733	690	734	0.88
15	47	0.00067	0.73	10.3	1.1	27	63	745	781	735	789	0.64
16	47	0.00028	0.3	11.6	6.0	26	64	779	817	777	818	0.92
17	47	0.00018	0.19	12.2	2.7	26	61	842	877	833	881	0.90
18	47	1.2	1.3e+03	-0.0	0.7	37	60	885	908	883	911	0.62
19	47	0.0005	0.55	10.8	6.5	21	62	907	948	906	951	0.94
20	47	0.0079	8.6	6.9	0.6	22	64	943	985	942	986	0.93
21	47	0.0022	2.4	8.7	0.1	23	63	965	1005	963	1006	0.85
22	47	1.4e-05	0.015	15.8	4.6	27	60	997	1030	992	1035	0.91
23	47	0.083	90	3.6	2.9	22	62	1041	1081	1039	1084	0.85
24	47	9.7e-05	0.11	13.0	3.7	29	60	1090	1121	1082	1126	0.88
25	47	0.077	84	3.8	2.8	22	62	1132	1172	1130	1175	0.85
26	47	0.0001	0.11	13.0	3.7	29	60	1181	1212	1173	1217	0.88
27	47	0.15	1.6e+02	2.8	2.3	29	62	1216	1249	1211	1252	0.76
28	47	0.0004	0.44	11.0	0.3	26	62	1255	1291	1252	1293	0.92
29	47	6e-05	0.065	13.7	6.1	25	64	1310	1349	1299	1350	0.75
30	47	0.11	1.2e+02	3.2	2.4	24	64	1365	1405	1357	1407	0.86
31	47	0.18	1.9e+02	2.6	3.1	37	64	1420	1447	1404	1448	0.75
32	47	0.0027	2.9	8.4	1.9	32	63	1464	1495	1461	1497	0.85
33	47	0.0014	1.5	9.4	1.4	32	64	1492	1524	1487	1532	0.63
34	47	0.00091	0.99	9.9	5.1	21	59	1537	1575	1535	1577	0.73
35	47	0.00024	0.26	11.8	5.7	23	61	1595	1633	1593	1637	0.92
36	47	5.8e-06	0.0063	17.0	5.9	25	63	1653	1691	1649	1693	0.92
37	47	0.2	2.2e+02	2.4	6.8	20	63	1697	1747	1694	1749	0.60
38	47	0.1	1.1e+02	3.3	2.3	24	63	1729	1768	1727	1777	0.55
39	47	0.012	13	6.4	2.5	28	59	1775	1806	1769	1813	0.85
40	47	0.047	52	4.4	8.9	22	47	1821	1846	1806	1864	0.50
41	47	0.026	28	5.3	3.0	28	58	1862	1892	1857	1902	0.79
42	47	0.79	8.6e+02	0.5	6.6	28	60	1897	1929	1893	1933	0.57
43	47	1	1.1e+03	0.2	10.8	27	60	1917	1953	1908	1965	0.59
44	47	0.0021	2.3	8.7	0.5	28	60	1956	1988	1952	1992	0.90
45	47	0.0025	2.7	8.5	6.5	29	63	2006	2040	1990	2042	0.81
46	47	0.011	12	6.4	3.6	37	64	2028	2055	2023	2056	0.87
47	47	5.8	6.3e+03	-2.3	1.3	36	51	2264	2279	2244	2287	0.77

Sequence Information

Coding Sequence: ATGGAGACGCGGAAGGCTCTGTCGCTTTGCCGGTGCGGCTGCAACGCCTCGTCGTCCCGCGAATCGATTGATCCGCCGAACGAGCCATGCTGTTGCTGCAGTTACAACCCCTTCAGCGACAATTGCAAAGAGTCGGAGATCTACGACCTCTCGTTTGCCCTGAGGAAGCTGAGCGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAGCGGCTGCAGCTCGAGAGCGAAAATAGGTCTCTGAAACAAGCCCTCCAGCCATTCGGTGTAAACGCGGATGAGATATTGAAGCCTGATCCGCTGTTGGTGCACTCGCGGGAAGAAATCGAAAGGCTGCAGAATGCAAACGCGGCCCTCGAAGATAAAGTGGTGGATCTGGAAGAAACCCTCGCCGAACGAGATTGCTGCGACGATCCGTGCTCGTCGGTGCACTGTCTCCGGGAGAAGATGAGATTCTTGCGGGAGGGTTTTGCtctcgaaaagaaagaATTCAGGGACATGATATCGCATCTGAAGTTGAAGATCGTGGAGGTAGAGGAGGACGTCAGCTGTCCCGCGATATATCGCCTGAGGGCGAAGCTCCGCGACCTGATGAAGGGCGGTCAAATGCCGGACCAGCCTGTCTCGAAGGTCGTGGAGAGATCGATAGAGACGTTGGGGGACCTTTCCAAGAGCTGCGACGATTTGCGTGTGGAGAACGATCGTCTCCTGGCCGAGCTGGAGGAGCTGCGACGCGCGCTGGCGGGCCTTGAAGAGAAGGAGCTGCCCGCTCCCGATATCCAGTATCGAGAGATTCCACAGAAAACGGCAGAAACCACCACGGTACCGGAGTACATAGACGTCTCAGAGCTGACGCGGAAGCTGAACGACTGCGAGGAGGCCGTGGCCGACTTGAGGAGGCAGCTGGACGAGAAGAACAACATCATCGATTCGTTGAATAAAGACCTGGAGACTATGGTCAGCCAGAAGGATCTGCTTGACGAGATCGCGGCCATGAAGGCGGAGCTCCACAGCAGAGAGGACAAGATCGCCGAGCTCCTGAACCAGTTGAGACAGTCAGAGATAGACCTGCTCGGTCTGGGTCACTTGAAATCCCAGGTCGACGACCTGCAGCCACATTTACAGGTTCTCGAGGCGGAGAAGGGCCAGTTTCTAGACGAGCTGCATAAATTACGGAAAGCGTTGACTGAGAAGAACGACCAGATAATCGACATACTGGAGCAGAAGCAAAAGCTCGAGAAGGACTACACGGACAAGATGGCGGCCCTGCAGGCCAAGATGGACGAGTGCTTGGCTCGCGAGGCTGCCCTGAACACGGAGATCGAGGATCTGAAGGGGCGGGTAGCGGGTTTGCTGGAAGAAATAGAGCAGTGTAAAGCGCGAAATGCGGAGCTGGAGCAGTGCTGCGTGGACAGGGATGCCCTCGCGAGCACGCTGCAGGTGATGGAGGAGGAGCTGGCGGCGTTGCGAGACGACCTCGCGTCCGCGACAGCTACGATAGCGAGTTTCCAGACAGAGCTAGACACATTGAGGGGCGAGAAAGAGGAGTTACTGAAGGAGCTGAACGAGATCAGAGGGCAAGTGGAGGCACTGACCAGCCAGCTGGCAGAGGAGAGGGCGGCCAAGGAAGCTCTGCAAAGGGACCTGGAAAGTGGCCGGGACGAGTTTGAAAAGCTGCGAGCGGAAAATACGAGCCTGAAGGAGCAGCTCGGCGCAGCGACGGAGGACAACGCGAAACTTCAGGCAGCGATGAAGAGCCTGGCTGAGGAGAACGAAAATTTGAAGGGGGAGCTCGAGAGCCTGAAGACGGAAAACAAGGGGCTGACGGACAGACTGGAGGAGCTGGAGAATTTGAATAACGTCTTGAGGAACGATTACGAAAACGTGAAAAGGGCGCTGGACAATCTCGAGGCAGAGATCAATAGACTGGAGGGTCTGTTGAGTAAGACGGCCGAGGAACGCGACGCTCTGCTGAATGAAAATGGGGATATTAAGAGACGATTGGAGGAGGCCATGGCGGTGAACGATGGTCTGAAGGCTGAATTGAACGACATTAGCCAACGACTCGATAAATTCGGATTAGAGAACGAGGAGCTGAAGAAGAACCTCGAGGCGATGAAGACTGAGAACGATTCGCTGAAGCAGGATATTGGGGGGTTGAGAAGCGAGCTGGATGGTGCGAGGAAGGAAGCAGAGGCGCTGAAAGCTGCCGGGGACTCGCTGAGGGCGGCGGACGAGGGCATGAAGGCGGAAGCTGAAAGACTGGCGACAGAGATCGGCCACCTAAGGAACGAGAAGGATCGTTTGACGAACGAGAATGCAGATCTGATGGCGAAGAATTTGCAGCTGGGACGTGAGCTCGATGACGCCAAGAAGGACGTTGAGAAATTGAAGGCCGACAATGCTGCCTTGCAGGAAGAGCTGGATCGTCTGAGGCAGGAATTGGAGAAGTCGAAGAATGCGATGGACCAATTGAAGTCTGAGCTGGCGACGTCGAAAGAAGCCCTCGACAGGTGCGTGGGCGAGATGGAGAAGCTGAAAAACGAAGCCAACGTTCTGAAGTCGCGGAACGACGCTCTGCAGGCGGAAATCGAGAAGTGCAAGGCGGAAATCGAGAAGTGCAAGGCGGAGGGAGACGCTCTGAGGGGCGATCTAGAGAAAACGAGGTTAGAATTGAGCGATGCGAAAGGGCAGCTGGAAAAGGCGAACCACGAGCTGAAGAAACTAAAAGAAGAGAATAGTTCCCTGGACGAAAACTTGAAGCGACTGATTGGTGAGAACGACGCGCTGCGATCAGAGGCTGAGGGGCTGAGGAAAGAGGCGGAGAAGCTGAAGGAGGAAGCTGCGAATCTCCAGGCGCAGGCGGCGCAAGGGCAGGGCGAAGGCGACGCGTTGAAGGCTGCAATTGATAGGATTAACAGCGAAAGAGACGCTCTAGCGGGGGAATTAAGCAGGCTGAAGGACGAGCATGGTGCTTTGCAGAGCGAGAGGGATAAATTGAGCAAACAAGTAACCGATTGTAATGCGGAGAACGAGAAACTGAGAGCAGAGAGGGGCCAGCTGGAGGCTGAAAATGAGAAACTCAAGGGTGACATGAAGGCGTGCGAGGAAGAAAACGGGAGGACGAAAGCTGAGTTGGAGCAGCTGGCGGGGCAAGTGGCTTCGTTGAATGACCAGTTAAATAAACTGAGAGCTCAACTGGCTGACGCGGAGAAGAAAATTCAGTCCCTCGAGCCTCTGGTGACTCGTTTGCAGGGCGAGGGGGATCAATGTAGCAAACAATTGGCCGATTGTAATGCGGAGAACGAGAAACTGAGAGCAGAGAAGGGCCAGTTGGAGGCTGAAAATGAGAAACTCAAGGGAGACATGAAGGCGTGCGAGGAAGAAAACGGGAGGACGAAAGCTGAGTTGGAGCAGCTGGCGGGGCAAGTGGCTTCGTTGAATGACCAGTTAAATAAACTGAGAGCTCAACTGGCTGACGCGGAGAAGAAAATTCAGTCCCTCGAGCCTCTGGTGACTCGTTTGCAGGGCGAGGGGGATCAATGTAGCAAACAATTGGCCGATTGTAATGCGGAGAACGAGAAACTGAGAGCAGAGAGGGGCCAGTTGGAGGCTGAAAATGAGAAACTCAAGGGAGACATGAAGGCGTGCGAGGAAGAAAAAGGGAGGACGAAAGCTGAGTTGGAGCAGCTGGCGGGGCAAGTGGCTTCGTTGAATGACCAGTTAAATAAACTGAGAGCTCAACTGGCTGACGCGGAGAAGAAAATTCAGTCCCTCGAGCCTCTGGTGACTCGTTTGCAGGGCGAGAATGATAAATTGCGAAACGACGTGCAAGCTTTGCATGGCGAAATGAACGTGCTGAAGGCAAACCTGGGGAAAGAAACGGATGGCAGTCAGAAAATGCAGGCCGACATGGTGATGTTGGAGGACAAGGTGCAGGATCTGATCGCGAAACTCGACGAGGCCAGGGCGCAGAATCAGGCTCTGAAACAGGAGAATCAGGACCTTCGTGCAAAGCTGCAGGATGTGGAGCAGGAATTGTCCAGTTTGAGAACGGAATGTGCTGATGCAAAAACGGAAATCGCGAATCTGAAGAAGCTAGTTGCTGAGCTGCAAGCGCAAATCGCTAAGCTGGAGGCAGATGTAGAGTATTGGAAATTGGAGAACTGCAAAGACAAGCTGGAAGTGGATAAATTGAAGGCCGATCTGGAGAAAGCGTTGAAGGACTTGAGCGAGTGTCAGACACTAAGAGCAGCACAAGAGGCAGAATTGAATCGTCTCCTGAGCGAAAAGTCCGCGCTCGATAAAAAGCTCGGCGACTTAACGTCGCAAGTCGAGCAGCAGAAGAAGGACCTGGCAGACGGAGAGGCAGCTAAGGGCAAGGGCGACGCAGAGGTTGCAGCCCTTAAAAGTGAACTCGCAGCATTGAAGAAGGAACTGGAGAACCTGAGAGCGGATAACAAGAAATACAAAAGCCAAGTGGACGATCTGGCGAAGCAGCTCGCGGCGCTGAACAACGAGCTCGATGCCTGCAAAGAAGAGGTGGCCGCGCTGAGAGACAGCAACAGCGCCTTGAGGGCAGAAGTAAACGCGCTGGGCATCGAGAAGAACAAGTTACAGGACGAAAGGAACCAACTCAAGTCCCAGGTGGACGCTCTGAGAGCAGAGAACGCGACTCTCGACGAGGATCGCAAGAAGCTGGCAGAGGAGTTCAACAAGCTGAGAGGCGCTGGAGATGGCCAAAAAGTAGAAATTGATACCCTCAGGTCGGACCTGGCCGCGCAGAAAGCAGCTTCTCAGAAGCTGCAAGCAGATCTGCAGGACTGCAAAACAGAGAACGACAGGTTACAATCGCAATTGAACGAAATGAGAAGCGAGTTGGAGAGGCTGAAAGGAGAAGCCGATCGGCTGAACACCGAGGCGGAGCGGCTCAGGACGGCGCTCGCAGCCGCTGAGGCGCGAGTGAAAGCTCTGGAGGGCCAGTTGGCTGACCTGACGGCTGAAAAACAGGAGTTGCTGAACGAGCTCTATCGTTTAAGGGAAGAGGTGGACAATCTGCGAAAGGAAATGGAGAAGGAGAAGCTGGCGAGGGACGCGGCCGTGAAGGAGCTGGACGCTTTGAGGGCGGAGCTGAACGCCCTGAGGGCGGAATTGAGCAAGACTCGCGGGGAAAATGAAAAGTTGAAGAACGAGATGAAGAAGCTGAAGGGGGATCTGGAGAATGTGAACGACCAGCTGGAGACGTTGAGGGGCGAGAACGCTGCATCGAAGGGCGAGAATGGGAGGCTGTCGTCCGAGTTGGCTGCGATCAAGGTCAAGCTGACGGAGGCGGAAAATCGAATGAAGGACCTCGAGGGCGAGAGGGACGGCTTGCagaagagggttgcggatctgGAGGAGGCCATGAAGGaactgggaattttgaagaaacAATTAGAGGACGCCACGAACGAGCTGAACAGATTGAGGTCGGAGCTCGAGAAACTGAAGGCGGAGCTGGAGACGTTGAAGGGCGAGAACGCTGCATTGAAGGATGAGAATGGGAAGCAGTCGTCCGAGTTGGCCGCGATCAGGAGTAAGCTGAAGGAGGCAGAAAATCGAATGAAGGACCTCGAGGGCGAGAGGGACGGCCTGCAGAAGAGGGTCGCGGATCTGGAGAAGGCCGCGAAGGaactgggaattttgaagaaacAATTAGAGGATGCCACGAAGGAGCTGAATAGATTGAGGCCGGAGCTGAAGAAAGCGAAGGCGGAGCTGGAGAAAGCGAAGGCGGAGCTGGAGAAAGCGAGGACGGAGGTGGAGAAATTGAAGACAGAGAACGGGAGGCTGCAGGGCGAGCTAAACGAGGCGGAAAATAAATCGAAAGGATTAAGGGATGATTTGGCGAAGCTGAGAGCGGCCAACGATAAGTTAAAGAATGATAACGCCAGTTTGCAGTCCGATATAGCTGCGTTGAAGGCGGAGGGGGATAAACAGAAGGATTATGACGCTCAGTTGCAGACCGGCCTGGGCGAGTTGAGGAAGGAGTATGACGAGCTGCAATCCGCGAACGCAGAATTGAAAGATCAGTTGAACCTCTGCCGGGAGGAGAACGAAAAATTGAAAGACGAGTTGAACCACTGCCGGAAGGAGAACGAAAACTTACGCGGGGTTCTGGACGAGTTGCAGAATGAGCATACCAGGCTGAAGCGGGCTTCGGCGAGGACGGTGGCGCCGAAGGAGACGGAAATGGACAAAGATATTGTGGATGACTGCGGGGATTTCATTAAGGCGAACGAACTGCTCAGGGGAAAATTTGAAAACCAAAATCAAGGTGTACAACGGGTTCGAGATTACATCAGTTTTTTGGAAGGTAAAGTTAAGGTGGAACCCAAAATGGCGGCCAAACCAGAGGAAGATATGGCGACAGATCCACAAATGAGGCAAGATATAGCAGACCTGTTGGAGAAATCTCATATGCTGTCCGAAAATATTTATCGAACAGAACAGGACATACAAAATATCGCTAACTTATTGAAGCAACTGCAGGGGGTTGGGGACCAACCGGCGGCCTTCGATGCTGATTCTTGGCTAAACTCACTAACTCTGACACAGTTAGCGGAGCTTCACGATAAAATTTGCCTGCTGACATCGGGCGTGGTGCAGCAAGATAGCGGCGCCGTGATATGCGACTCCGTGGCTAACCGGGAGCCAGCGGATCCACTGAATGCAGATTACAATATTTTGAACAAACGGATAGCCGCTTTGCAGAGACAGATAGCGGAGAAGCAAATAGAAGCTGGATTGAAGCTGCAGGAGCTGAAGCGAGCTCTCCGCCAGGAACAGGCTAACCTGATTCGAATCTCCGAGGAAATGAATTTAGAGAGAAGACGCAATTTATCCCTTCAGCTCGCCATGGACGATTCAGCCTAA
Protein Sequence: METRKALSLCRCGCNASSSRESIDPPNEPCCCCSYNPFSDNCKESEIYDLSFALRKLSVMKCQMKKWRMERLQLESENRSLKQALQPFGVNADEILKPDPLLVHSREEIERLQNANAALEDKVVDLEETLAERDCCDDPCSSVHCLREKMRFLREGFALEKKEFRDMISHLKLKIVEVEEDVSCPAIYRLRAKLRDLMKGGQMPDQPVSKVVERSIETLGDLSKSCDDLRVENDRLLAELEELRRALAGLEEKELPAPDIQYREIPQKTAETTTVPEYIDVSELTRKLNDCEEAVADLRRQLDEKNNIIDSLNKDLETMVSQKDLLDEIAAMKAELHSREDKIAELLNQLRQSEIDLLGLGHLKSQVDDLQPHLQVLEAEKGQFLDELHKLRKALTEKNDQIIDILEQKQKLEKDYTDKMAALQAKMDECLAREAALNTEIEDLKGRVAGLLEEIEQCKARNAELEQCCVDRDALASTLQVMEEELAALRDDLASATATIASFQTELDTLRGEKEELLKELNEIRGQVEALTSQLAEERAAKEALQRDLESGRDEFEKLRAENTSLKEQLGAATEDNAKLQAAMKSLAEENENLKGELESLKTENKGLTDRLEELENLNNVLRNDYENVKRALDNLEAEINRLEGLLSKTAEERDALLNENGDIKRRLEEAMAVNDGLKAELNDISQRLDKFGLENEELKKNLEAMKTENDSLKQDIGGLRSELDGARKEAEALKAAGDSLRAADEGMKAEAERLATEIGHLRNEKDRLTNENADLMAKNLQLGRELDDAKKDVEKLKADNAALQEELDRLRQELEKSKNAMDQLKSELATSKEALDRCVGEMEKLKNEANVLKSRNDALQAEIEKCKAEIEKCKAEGDALRGDLEKTRLELSDAKGQLEKANHELKKLKEENSSLDENLKRLIGENDALRSEAEGLRKEAEKLKEEAANLQAQAAQGQGEGDALKAAIDRINSERDALAGELSRLKDEHGALQSERDKLSKQVTDCNAENEKLRAERGQLEAENEKLKGDMKACEEENGRTKAELEQLAGQVASLNDQLNKLRAQLADAEKKIQSLEPLVTRLQGEGDQCSKQLADCNAENEKLRAEKGQLEAENEKLKGDMKACEEENGRTKAELEQLAGQVASLNDQLNKLRAQLADAEKKIQSLEPLVTRLQGEGDQCSKQLADCNAENEKLRAERGQLEAENEKLKGDMKACEEEKGRTKAELEQLAGQVASLNDQLNKLRAQLADAEKKIQSLEPLVTRLQGENDKLRNDVQALHGEMNVLKANLGKETDGSQKMQADMVMLEDKVQDLIAKLDEARAQNQALKQENQDLRAKLQDVEQELSSLRTECADAKTEIANLKKLVAELQAQIAKLEADVEYWKLENCKDKLEVDKLKADLEKALKDLSECQTLRAAQEAELNRLLSEKSALDKKLGDLTSQVEQQKKDLADGEAAKGKGDAEVAALKSELAALKKELENLRADNKKYKSQVDDLAKQLAALNNELDACKEEVAALRDSNSALRAEVNALGIEKNKLQDERNQLKSQVDALRAENATLDEDRKKLAEEFNKLRGAGDGQKVEIDTLRSDLAAQKAASQKLQADLQDCKTENDRLQSQLNEMRSELERLKGEADRLNTEAERLRTALAAAEARVKALEGQLADLTAEKQELLNELYRLREEVDNLRKEMEKEKLARDAAVKELDALRAELNALRAELSKTRGENEKLKNEMKKLKGDLENVNDQLETLRGENAASKGENGRLSSELAAIKVKLTEAENRMKDLEGERDGLQKRVADLEEAMKELGILKKQLEDATNELNRLRSELEKLKAELETLKGENAALKDENGKQSSELAAIRSKLKEAENRMKDLEGERDGLQKRVADLEKAAKELGILKKQLEDATKELNRLRPELKKAKAELEKAKAELEKARTEVEKLKTENGRLQGELNEAENKSKGLRDDLAKLRAANDKLKNDNASLQSDIAALKAEGDKQKDYDAQLQTGLGELRKEYDELQSANAELKDQLNLCREENEKLKDELNHCRKENENLRGVLDELQNEHTRLKRASARTVAPKETEMDKDIVDDCGDFIKANELLRGKFENQNQGVQRVRDYISFLEGKVKVEPKMAAKPEEDMATDPQMRQDIADLLEKSHMLSENIYRTEQDIQNIANLLKQLQGVGDQPAAFDADSWLNSLTLTQLAELHDKICLLTSGVVQQDSGAVICDSVANREPADPLNADYNILNKRIAALQRQIAEKQIEAGLKLQELKRALRQEQANLIRISEEMNLERRRNLSLQLAMDDSA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00085909;
90% Identity: iTF_00085909;
80% Identity: -