Basic Information

Insect: Pediacus dermestoides
Gene Symbol: -
Assembly: GCA_963942485.1
Location: OZ012625.1:58278147-58287863[+]

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 35 2.7 2.6e+03 -1.0 0.1 46 60 940 954 935 958 0.64

2 35 1.5 1.4e+03 -0.2 2.0 33 61 979 1007 967 1011 0.82

3 35 0.6 5.6e+02 1.1 0.6 33 57 1030 1054 1024 1060 0.78

4 35 0.48 4.5e+02 1.4 8.5 3 63 1110 1170 1108 1172 0.96

5 35 0.86 8.1e+02 0.6 0.5 21 43 1217 1239 1213 1258 0.79

6 35 1.8 1.7e+03 -0.5 0.1 20 55 1247 1282 1245 1285 0.80

7 35 0.088 83 3.7 1.8 27 57 1325 1355 1321 1362 0.78

8 35 1.1 1.1e+03 0.2 0.1 27 53 1540 1566 1531 1578 0.81

9 35 0.12 1.1e+02 3.3 0.9 21 56 1580 1615 1580 1617 0.90

10 35 1.7 1.6e+03 -0.4 2.7 26 47 1623 1644 1621 1648 0.76

11 35 3.4 3.2e+03 -1.3 4.0 30 62 1673 1708 1665 1711 0.61

12 35 2.2 2.1e+03 -0.7 3.2 38 60 1748 1770 1741 1774 0.84

13 35 5.1e-06 0.0048 17.3 8.3 24 63 1818 1857 1807 1858 0.92

14 35 5.5 5.1e+03 -2.0 0.4 30 53 1869 1892 1863 1904 0.71

15 35 5.7 5.3e+03 -2.1 0.9 33 52 1900 1919 1880 1931 0.56

16 35 4.9e-06 0.0046 17.4 6.3 32 64 1941 1973 1934 1974 0.92

17 35 0.0076 7.2 7.1 1.7 28 62 1986 2020 1978 2023 0.88

18 35 0.17 1.6e+02 2.8 3.5 25 47 2039 2061 2036 2068 0.78

19 35 0.0036 3.4 8.2 5.2 31 64 2073 2106 2066 2107 0.90

20 35 0.016 15 6.1 6.5 24 59 2118 2154 2117 2158 0.87

21 35 1.8 1.7e+03 -0.5 4.7 36 61 2158 2183 2143 2187 0.69

22 35 1.3 1.3e+03 -0.1 5.0 21 56 2164 2206 2159 2211 0.56

23 35 2.4e-07 0.00023 21.6 4.8 24 61 2209 2246 2206 2249 0.93

24 35 0.001 0.96 9.9 2.2 20 64 2255 2299 2253 2300 0.91

25 35 0.046 44 4.6 1.1 25 49 2312 2336 2307 2338 0.78

26 35 0.072 68 4.0 1.4 29 46 2343 2360 2340 2366 0.79

27 35 0.45 4.2e+02 1.5 5.8 28 50 2369 2391 2363 2412 0.74

28 35 0.25 2.4e+02 2.3 0.3 30 47 2398 2415 2394 2420 0.71

29 35 0.043 41 4.7 5.6 27 49 2422 2444 2412 2446 0.85

30 35 0.014 14 6.3 3.6 29 49 2451 2471 2448 2472 0.91

31 35 7.8 7.3e+03 -2.5 12.6 29 64 2478 2519 2475 2522 0.62

32 35 3.4 3.2e+03 -1.4 13.5 27 64 2503 2543 2499 2551 0.83

33 35 1.1 1.1e+03 0.2 4.2 29 53 2583 2600 2578 2631 0.67

34 35 1.3 1.2e+03 -0.0 1.4 37 58 2666 2687 2650 2693 0.58

35 35 0.92 8.7e+02 0.5 0.6 26 47 2790 2811 2781 2814 0.73

#	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	35	2.7	2.6e+03	-1.0	0.1	46	60	940	954	935	958	0.64
2	35	1.5	1.4e+03	-0.2	2.0	33	61	979	1007	967	1011	0.82
3	35	0.6	5.6e+02	1.1	0.6	33	57	1030	1054	1024	1060	0.78
4	35	0.48	4.5e+02	1.4	8.5	3	63	1110	1170	1108	1172	0.96
5	35	0.86	8.1e+02	0.6	0.5	21	43	1217	1239	1213	1258	0.79
6	35	1.8	1.7e+03	-0.5	0.1	20	55	1247	1282	1245	1285	0.80
7	35	0.088	83	3.7	1.8	27	57	1325	1355	1321	1362	0.78
8	35	1.1	1.1e+03	0.2	0.1	27	53	1540	1566	1531	1578	0.81
9	35	0.12	1.1e+02	3.3	0.9	21	56	1580	1615	1580	1617	0.90
10	35	1.7	1.6e+03	-0.4	2.7	26	47	1623	1644	1621	1648	0.76
11	35	3.4	3.2e+03	-1.3	4.0	30	62	1673	1708	1665	1711	0.61
12	35	2.2	2.1e+03	-0.7	3.2	38	60	1748	1770	1741	1774	0.84
13	35	5.1e-06	0.0048	17.3	8.3	24	63	1818	1857	1807	1858	0.92
14	35	5.5	5.1e+03	-2.0	0.4	30	53	1869	1892	1863	1904	0.71
15	35	5.7	5.3e+03	-2.1	0.9	33	52	1900	1919	1880	1931	0.56
16	35	4.9e-06	0.0046	17.4	6.3	32	64	1941	1973	1934	1974	0.92
17	35	0.0076	7.2	7.1	1.7	28	62	1986	2020	1978	2023	0.88
18	35	0.17	1.6e+02	2.8	3.5	25	47	2039	2061	2036	2068	0.78
19	35	0.0036	3.4	8.2	5.2	31	64	2073	2106	2066	2107	0.90
20	35	0.016	15	6.1	6.5	24	59	2118	2154	2117	2158	0.87
21	35	1.8	1.7e+03	-0.5	4.7	36	61	2158	2183	2143	2187	0.69
22	35	1.3	1.3e+03	-0.1	5.0	21	56	2164	2206	2159	2211	0.56
23	35	2.4e-07	0.00023	21.6	4.8	24	61	2209	2246	2206	2249	0.93
24	35	0.001	0.96	9.9	2.2	20	64	2255	2299	2253	2300	0.91
25	35	0.046	44	4.6	1.1	25	49	2312	2336	2307	2338	0.78
26	35	0.072	68	4.0	1.4	29	46	2343	2360	2340	2366	0.79
27	35	0.45	4.2e+02	1.5	5.8	28	50	2369	2391	2363	2412	0.74
28	35	0.25	2.4e+02	2.3	0.3	30	47	2398	2415	2394	2420	0.71
29	35	0.043	41	4.7	5.6	27	49	2422	2444	2412	2446	0.85
30	35	0.014	14	6.3	3.6	29	49	2451	2471	2448	2472	0.91
31	35	7.8	7.3e+03	-2.5	12.6	29	64	2478	2519	2475	2522	0.62
32	35	3.4	3.2e+03	-1.4	13.5	27	64	2503	2543	2499	2551	0.83
33	35	1.1	1.1e+03	0.2	4.2	29	53	2583	2600	2578	2631	0.67
34	35	1.3	1.2e+03	-0.0	1.4	37	58	2666	2687	2650	2693	0.58
35	35	0.92	8.7e+02	0.5	0.6	26	47	2790	2811	2781	2814	0.73

Sequence Information

Coding Sequence: ATGTCGTACATAAATCGTCATACAAGGGTGTTTGATTCTGGCCCTCGCAAAGAGGTGCTACCTATCAGATCTGAAGCTCGTATGAAGGTCTACATTTCATCAACTGATAATCGTGCTTGGTGTGATATTGTAGAAGATCGAAGACAACATATTTTAGAATACGCTGCCAGAAATAAAGATGGGTACTGCCCGGGAAAACTGTTTCCAATTGATGCTCTGGTTGAGGCTCTTCTCGCCTGTCAAGGATGCGATGTTGAGAAATTGAAGCAGAGAATTGAGTATTTGGAGAAGCTTATAAGCATTTATGAACAACTTGAGCTTACAGATGCACAAAAAAAGCAGTTTGATGatttgGACATAGACAACATTGATTCACTTGTCTCTCAAACTCGGTCAAGATTGTCTGAAACTGCCGGAATTGTAGTTGGTCCAGCCAAAACTACCGAAGTTCCAGGTTATTATGTCCCTAAGAAAGGCAAGAAACATAAACCTCGACCTTGTAAAAGAAAAACATGCAAACCAGTCTGCAAAGCACCTTGCGATAAAATGGAAGATACAACAGTATGTGTTGACCCCTGTAAACAACCCTGCCAAGCACCTTGTCAGGACGACGATGACCAACCGTGCATCAAACCTTGTAAAGATATCTGTAAGATACCGTGCCAGCTAGGTAAAGAAATATGCCACGAAGTGTGTAAAGAACCGTGTTTAAAACCATGTGAAGAGAAAGCAGTTGTTGAGAAGGAAGCAGTTGTTGAGAAGAAACCAGTTGTTAAGAAGGAAGCAGCTATTGAGGAGAAAGCGAGTCCACTTGTGAATGTATTACCGCCAGGAACTTCTAAAATATCCTCAGAATTGATTGAAGAAAAGGAGTCTTTTAAATCCGTGCCTAGCAAGCCGGCGGTTCTTCCTAAAATACCCTCTGAAAGTGATACCAgattagtttttgaaaaggaATCATTAACTGATATTCCAAGTAGTGTACCTACTAAAGTACCTGATATATTAAAAGAAGAGGATGAAGAGGAAAGCAAGGAGAAATTACTTCCTCCTCCTAGTATACCTAGCAAACACACTGATGAGATATCACCAACTACACCTGAAACATGTATTGGTGTTTGTGCCCCTAAGAAATTGACAGATGTGGTCGAAGCTCCAAAGTCGTCTGGGAATGCTCTTGTATCCAAAGCTTCATCTGAACCACATTTATCAGTTTCTAGTCCAAAGAAGACAGAAAGTAGTAGTGATGAGGCACCACTGCCACCAAAAATCTCCTCTACAGGAATTAAAGATgtagataaaaaaacaattttattctcGGAAACACCTAAACAAGAACTAAAGGAAGCATCTGATATAAGAGTTAAACCAGAAGTTAAAAAAGTAGAAATTCCCGTTGAAGAGATTTTATCTGCAAGAGCAATAAACTTAGACAAGTCTTCAGAAAGTATATTTAGCAAGTCTATGGAAGAATTGTGTATATGTAATGATGAATCGGAACCTGAGATTAAGAAATCCGCTGAAATCGTAAAACCAGTAAAAGAACTCAGGTTAGTCGAAGACAAAGCAGAGGAAGAGGAAATGTTGACTGCGGAGGAATCATCCTCAAACACGGAAGTATGCGCTTGTAATGAACCAGAAGAAGAAGAGGTGGAGGAGGAAGAAGTGGTACAACCAGAGGAACACGTTTCATTGGACAAATATGCAATACCGGAAGTGTTACCCCCTCTTGAGcccaaaaaaataaagaaaaagaagaagaagaagaagaaaacaAGAAGCCAAGGTTGTATACCTAAAAGTTGCTTAGATCTTCTAATGGCTTTTAATCAGTCAACCAAATCCGTTCAGTATATGCCGATGCCAGTCGCACAAACAAGAAGTCTAGATGTGAGGTCATGCTGTTGCGATCAGAAGGAACGTGCAAAAGAAGCTCCAGAAAAAATCGTTACGCCAAGACAacaaccaccaccaccaccatcaACACCAATAGTACAACATATTTATGCACCAGCGGCTGTACACGATAAACCTCCACCTTGGCCACAACAAGCAATGCTAGACGAAAGAAATTTATATGCTTATGCACATAGAAGTACCTGTTCAGATGCTTGTGTGCAATCTGAAGATATCGAAAATGAACAGCGTATGTATCAAAGAAAAGTTACTTTTGAGGATTTAAGAGATACAACACAAGAGCCTCAGCAAAAAGTGTGCGCGGCCAAAGCTGATTGGACAGCAAGGCAACAAGTGTTGGAACAAAAGCCAACTGGCTCAGGAATATGTTCTGCTAAGGCTCATTGGATGGCGAAGCAACAGGAACAGGAACCAAAGGCTTCAGGAATCTGCGCTGCCAAGGCTCAGTCTACAGCAAAGACACAAGCTTTAGAACCGGAGCGAAAGGATTCACACACCTGCTCTGCTAAAGCTCAGTGGAAGAGTGTACTGAAAGCTTTAGAACAGGAAATAATTCCACCAGAGGAGGTTCATTCGGCCACGTGCTCTGCCAAAGTTCACTGGATGTCTAAGCTACAAGCTTTGGAGCAGGAATTAGagAACAAGGAAATTTACTGCGCTGAACAACGCAAGGCTGCCGAAGAAGCAATTGAACAATTGGGCAGCattcaaaatgttttaaaagaaCGAGATGATTTAAAAAGGAAATTGGAACATTCTCTACTAGAGctaaaatctttaaaaaaaGCAGATCTGTCAACAGAAAAAGTGAGTTTAGACTGGCACAAGCCTTCGCAACATTCGCGTCATTCGTCTCCTACCGTCGATCTATCTTCAACTTGGTCTGCAGTTTCTTGTGAAGAAGAAATAAAGAGTCTAGAACGTGAAATTGAATTAATGAAATCGAGCAGTCATTCACCTGAAGAAGAGACGAAAATAATGCGTAAAGAAGTTGACGTGCTAAAAATGTACTGCAATAAACTATCGACAAtacaacaagaaaattacaGATTGAAATCTGAGTTGAAGAAAGCAAACGAACAACAACAGCACTCATCACATTTGCTTAATGAGTTGGGGCTCAAACTAGGCGACAATTTGAATGTCGGTAATGTACTTGAAGAGTTGTCAAAACTTAACAATACAAAAGCTGAAAGAGATGAACTGAAAGCTAAAGTAGGGGATTTGGAGAAAGAATTAGTTTCCTATAACGACTCTCCAGAAGATATCGAAATGTTTAAAAAGCGATCAATATTATTAGACGATGTAATTAAAGACCGCGACAGACTAAATAAGCACCTAGAGGAGGTACGTGGAGTGGAAGAGGAACTTAAAATGTTACGcagaaaatcttcaaaaatggACGATATGGAAAGACAGTTAAGAAGACAAATGGAAAACAATAATTACGCGAACGAAGAACTGGAAGCGTTGCGTTGTCAATGTTGTGAAGTTGAAACTGAGCTAGAGCACTACAAAGCTGAAGGCGATACATTACGCTCAAAATTAGTCTGCATGGAACACGAATTGGAAAGTCTAAAATGCCTATGTAAAGAATCAGAACTACTTAAAGTTGAGAAAGATCacatgaaaaaaaatcttgaagaAATGTACGGTATGCAAGAAGATTACGATGACATGCGCAACAAGTTAAAAGCTTTCAATGTTGTTAAATCCGAAAGGGATTcctataaaatgaaatatgagCAGATGATTGGTTTAGAGTGCGAGTGCGATATTCTTCGAGCACAAGTGGAAAAAGCTAAAGTTGTGGAGCACGAGCGGGATATGCTTGAAGCACAAGTAGAAGACTTGGAAGGCTGTATAAATGACCAGGAATACGAAATTAAAAAGTTGATAAGTCAAATAGATAGTTTAGCAAAATGTAGGGATGATCAGCAAATGAAAATGGCCTCTACCCTATCCAACATGAGAGCAGAATTGGAGAAAAAGGAATACATCATACAATCATCTGAGGAAAAATTGGCATCAATCCAAGATGACTTGAAGATATCCATACAAGGCGTCCATTCAGAAACAACTAATCTTAAATTGAAGAACGACAAACTTGAGAAAGAAGTAACTGATTTGCAACGTTTAAACAAACTTATGCTAATTGAGCTACAAGAAAAACAAGTTGTTATTGATGAGTATCAAAATCATGTTGAAGCTAATACCAAAGCCTTAAACATAGCACAATATGAAAATGAAAACCTACAACAACTCGTGAGTCAAAGCTCAACTGGTGATGAGCATTTCAAGGAACTTATAAGACAATCCAAGTGTGCTGTACAACGTGTTTGCGAGGAGTTAAGTAGACAATACCAAGAATGGGATTGCATAAAGAAGAAACAAGAGGAATCGAATATCTGCACGTGTTGTAAATGTGGTCAGCCACCATCAGATGACGACGATTCTGATAGTACATCCAATCCGTGTCCCTGTAATAGAACAGTGTGGGACTGTAAGAAAACACTCATATCTTCAGGTGACCACAAGGAGAAGAAAACTACTGGAAGTGCATGGGAAAAAGAAATGAAATATCCAACTGGATCTCAACAACCACCGCAAATAATTGAAGAAGATTGGAAAAAATGGGACTGCAAACAAAATGACAGAATGGATAAGTTGGAAAGTATGTTGAAGGACGCTACTGACCAAATTACAAAGTATAAGTGTACATGTGAGACAGCAACAGCTGAAAATATGGCGCTGAGACGGCATTCTAGTGAAGTACAAGAAGTAGCTAAAAATCAAATCGAAGATTTGGTAGATCATCTGAAGAAATGCAAAGATAGAGTTTCGGAATTGGAAGGTGATTTGCAAGACTGTGTGAAGGAGAAGGAAAACATGCGGGTTCAAATAACTGCAATGCAACTTCAAGTAGAGGCATCAGCAGGTGACTCagacaaaattcaaaaattacaagaacAACTGTGCAATTTAAAGCATGAAAATTTCGAGTTGGAAAATCAGTTAAAAAATAACGTAATAATATGTGCAAAACGTTTAACTAAAGCTGATGAAAAACTTGGTGATGTAGACGAGCTTCAGAATATGTTACAAAAAGCTCTTAGTGACCTACAAAATGCCAATGAAGAAAAACGTAAATTAAAAGAAGAATTAGATAAATCCTTACACGAAATTAatgatttaaaacaaataaggGATGcgttgaataaaaaattgcttgaaTCAAACGCAAATCTATCTGATCTGGTTAATAATATGGGACGAGTTCTTCCAGTACCTGAAACTTTAACCGACGAAGATCGTCTTAAAGACCAGAAGGAAAAAGAGGCATTAAAATCAGCTCTAGAAGACTTGGAAAATCAGATGAAAAACTTaaagaaaatagaaaagtCCGAACCATCGAAAGAATTAACTGAATCTATTAATGACTTAACGAAACGAGTTGAACATGAACAAAAACGAGCCGATGCAGCTGAAGAAGCCCTGCGAAAGTTGAAAGCAAGCGATCCAACTGCGATGTTGATGGATGAAATGGCGCAACTTAAAAAGAAACTTGCAGAACTCGAAGCTGAAAATAGTCAACTCAAACAAAATGTAACCATGTGCGAAAAAGAGACTGCCAATCTGAAACAACAACTCGCTGATTCAAGAGAAGGTAAACTTGACGTCAGCGATCTGAAAAATGAAATGGATCTTAAGatgaaagaaaatgaaaagcTCAAGGCTGATGCTGAACGCGCTGAAAAAGATGCTAACGTTGCGGCTGATAAATTAGACGCTGCACAGTCGGAGATAGCAAAATTGAAAGAAGAATTTGGTATGCTGGAAATTGATAAAACCAAGTTAAAGAAAGATTTGGACACAGCCTTAAACGAAGCTAAGAAACAGTCTGAAAAAGTTGATAGACTGgaagctgaaaacgctaagcTTAAGCAGCGAGTAGCTGATCTGGAAAAGGAGCTTGAGCGGTTAAAGAAAGAACTAGACGCATATTTGAATGACACACAGAAAGATTCAACCGAAGCTGGTAAGATACAAGATGAAGCTAACAAACTGAAACAAGAAAATGCTAAAGGGaagcaaaaaatatctgaCCTGGAGGGTGAAATAGCTAAACTGAAAAAAGAATTGGATTCCGCTTTAACTACGGCCAAGAAAGAAACTACCGATGTTGGGCAATTGCAGGATGAAATCAACAAATTGAAGCAACAACTATCCAAGGCTGaatcagaaaatcaaaagttGAAGGATAATTTAGATTCCGCATTGAATGACGCCAAAAGTAATCTTAAAGATATAGCAAAAACCGAggatgaaaataataaattaaagaaaaatataaaagatttaGAAGATCAATTAGCGAAATTGAAGAAAGAACTGGAACAAGCTCAAAATGATCTGAAGAAAACTGCTCCAGAAAAGGAAGAAAACAGTAAGCTAAAAGATAGGCTTAAACAACTGGAGGCTGAAAACGCGAAATTGAAAGAAGATTTCAACGAATCGTTAGATAAAGAAAAGAAGCATTTGTCGGGAGAATCGAACTTAACTGATTCTAATAATAAGTTAAAACAACTTAACAGCAAACTAGAAAGTGATAATGAAAAGTTAAAAAAGGATTTCAAAAATGCATCTGatgaaaatgcaaatttcaaaaagcGAATAGATAACTTAGAGAAAGAAAATAAGGATGCAAAGGCTGAGGCTGATGGTTTGAAAAAACGTTTGGCAGATTTACAAAACGAAAACACCAAATTAAAGTCAGAAGTCGATGATTTGAAAAAGCAGTTAGAGCAAATGAAAAGTGATAATGCAAAGAAATCTGATACAGAACGTCGTAAGTCTATTGATAATGAAGGAAAATTAAAAGAGAGTGTGACTAACCTCGAAAACGAAAATGCCAAATTGCGTAAAGATTTAGCTGCTGCCCGAGACGAAATAATCAAATTGAAAGCACAAATCGACCAACTCAACAAAGACATAGACAAACTGAAAAAAGATTCAGCAGCTGCTGATGGACTGAAAAAAGAACTAGACAAACTAAAGAAAGAGAATGATAAGCTAAATAAAGACATAAAAGATGCAGGCGATGATACCGAGTTGAAAAAACGCCTTGCTGATTTACAGAAAGAAAATGATCAACTTAACAAAGATATGAAAACCGTGGGTGATGATAAGGAGTTAAGGAAACGACTGGCTGATTTACAGATAGAGAACGCAAAGCTGAGTAAAGAAGCAAAAGCTGCAGGTGATAACATTGACTTGAAGAAACAGCTCGCAGATTTACGAAAGGAAAACGATAAGTTAAGTAGAGACGCAAAAGCTGCTGGTGATGACAGTGAGCTGAAGAAACAGCTTGAAGATTTACGGAAGGAAAACGAGAAGCTAAACAAAGAAGCAAAAGTTGCAGGCGATGATGCGGAATTGAAGAAACGCCTGGCggaattagaaaaagaaaacGAGAAACTAAATAGAGAAGCAAAGGCTGGAGGTGATGACGCGGAATTGAAGAAGAGGTTAGCGGATTTGgagaaagaaaatgaaaaactcAATAAAATAGTAGAAGCTGGCGCCGATGATGACGAATTGAAGAAACAACTAGAAGATTTACGGAAGGAAAACGAAAAGCTTAGTGAATCAAAAGGTGATGAGGATAATCTGAAGAAGCAATTAGAAGAATTAAAGAAAGAAAACCAAAGTCTAAATGCGAGTATGAAAGCTGCTGGTGACGAAGATGAATTGAAGAAACGGCTTGCTGAATTAGAACAAGAAAACAAGAAGTTAAACAATGATTTGAAATCTGCGGGAGATAGCGATGCTTTGAAGAAACAGTTGGAGCAACTTAAGAAGGAACGTGATAAATTAAAAGAAGATGCTGTAGGGACATACTCTAAAAAAGAATGCGAAGATGAAATTGCTAAATTGAAAAAGGAATACAATGATACAATTGCCTCTTTGAAAAAGCAATTTGACAGAGATCAGAAGAATCTATTAGATAAAAATGCGGAGAGTATTGGCAAAATGCAGAAGTCTAGTGTTGAAAGTATAAACGATATTATTAGTAAGTACGAGAAAGAGATTAAAGCACTACAAGATGAACTACGAGCAACAAGAGAGCAACTTGAGGGATTGTTAAAAGAAAAGGAAAAAGACACAGATGTGGAAAAAGAAGATGAATCTAAGAAATCGAGTAAACCTGATATTTGTGAATGTGGTGAAATGTTTGAAAaagtattagaaaaaattctttCGAAGGGCATACAGaaagtCTCGGCAGATGAGTTAAATTTAGCTCATACCGTTATATCCAGCGCAACAgcgaagaaaataaaaagtccACTAGtaccaaaaagaaaaaaatctcctGAAAGAAACATAATGCAAAGGCAGAGTGATACTCACGATAAGGttatttacatacaaaaaagtgttCAAATGAAAAAAGAAGAATTGGAAAAGATGAAGAAACAAATACAACTACAAAAACAGAGATTATCACTTCCGATAACAACAACTCACCCTCCAATAGCCTTCCCTTTTACGATGGAGGATGAAAGAATCAAGCTTAGAAATTTAGAAGCGGCTGTTGAGCGTGAAAAACTGAACACACAGAATTTAAGGAGGATTCTAGAAAAAGAGAAAGGACGATCTCCCAGAGGACGAAGAGCTTCCCACAATAACGATtcaCAAATTTTGGATCCTTCAACGGACCGACGTGCACCACAATATCAAACTTCATTCTATACTGATATTAGTGCTATAGCAAATcaaATCGAAGGGAAACAGCCAGTGGAATTGAGGAGAGTCAAAGTACCATGTAAGAAAATGTCGAAACTGCGCGGATCTGATAAGTAA
Protein Sequence: MSYINRHTRVFDSGPRKEVLPIRSEARMKVYISSTDNRAWCDIVEDRRQHILEYAARNKDGYCPGKLFPIDALVEALLACQGCDVEKLKQRIEYLEKLISIYEQLELTDAQKKQFDDLDIDNIDSLVSQTRSRLSETAGIVVGPAKTTEVPGYYVPKKGKKHKPRPCKRKTCKPVCKAPCDKMEDTTVCVDPCKQPCQAPCQDDDDQPCIKPCKDICKIPCQLGKEICHEVCKEPCLKPCEEKAVVEKEAVVEKKPVVKKEAAIEEKASPLVNVLPPGTSKISSELIEEKESFKSVPSKPAVLPKIPSESDTRLVFEKESLTDIPSSVPTKVPDILKEEDEEESKEKLLPPPSIPSKHTDEISPTTPETCIGVCAPKKLTDVVEAPKSSGNALVSKASSEPHLSVSSPKKTESSSDEAPLPPKISSTGIKDVDKKTILFSETPKQELKEASDIRVKPEVKKVEIPVEEILSARAINLDKSSESIFSKSMEELCICNDESEPEIKKSAEIVKPVKELRLVEDKAEEEEMLTAEESSSNTEVCACNEPEEEEVEEEEVVQPEEHVSLDKYAIPEVLPPLEPKKIKKKKKKKKKTRSQGCIPKSCLDLLMAFNQSTKSVQYMPMPVAQTRSLDVRSCCCDQKERAKEAPEKIVTPRQQPPPPPSTPIVQHIYAPAAVHDKPPPWPQQAMLDERNLYAYAHRSTCSDACVQSEDIENEQRMYQRKVTFEDLRDTTQEPQQKVCAAKADWTARQQVLEQKPTGSGICSAKAHWMAKQQEQEPKASGICAAKAQSTAKTQALEPERKDSHTCSAKAQWKSVLKALEQEIIPPEEVHSATCSAKVHWMSKLQALEQELENKEIYCAEQRKAAEEAIEQLGSIQNVLKERDDLKRKLEHSLLELKSLKKADLSTEKVSLDWHKPSQHSRHSSPTVDLSSTWSAVSCEEEIKSLEREIELMKSSSHSPEEETKIMRKEVDVLKMYCNKLSTIQQENYRLKSELKKANEQQQHSSHLLNELGLKLGDNLNVGNVLEELSKLNNTKAERDELKAKVGDLEKELVSYNDSPEDIEMFKKRSILLDDVIKDRDRLNKHLEEVRGVEEELKMLRRKSSKMDDMERQLRRQMENNNYANEELEALRCQCCEVETELEHYKAEGDTLRSKLVCMEHELESLKCLCKESELLKVEKDHMKKNLEEMYGMQEDYDDMRNKLKAFNVVKSERDSYKMKYEQMIGLECECDILRAQVEKAKVVEHERDMLEAQVEDLEGCINDQEYEIKKLISQIDSLAKCRDDQQMKMASTLSNMRAELEKKEYIIQSSEEKLASIQDDLKISIQGVHSETTNLKLKNDKLEKEVTDLQRLNKLMLIELQEKQVVIDEYQNHVEANTKALNIAQYENENLQQLVSQSSTGDEHFKELIRQSKCAVQRVCEELSRQYQEWDCIKKKQEESNICTCCKCGQPPSDDDDSDSTSNPCPCNRTVWDCKKTLISSGDHKEKKTTGSAWEKEMKYPTGSQQPPQIIEEDWKKWDCKQNDRMDKLESMLKDATDQITKYKCTCETATAENMALRRHSSEVQEVAKNQIEDLVDHLKKCKDRVSELEGDLQDCVKEKENMRVQITAMQLQVEASAGDSDKIQKLQEQLCNLKHENFELENQLKNNVIICAKRLTKADEKLGDVDELQNMLQKALSDLQNANEEKRKLKEELDKSLHEINDLKQIRDALNKKLLESNANLSDLVNNMGRVLPVPETLTDEDRLKDQKEKEALKSALEDLENQMKNLKKIEKSEPSKELTESINDLTKRVEHEQKRADAAEEALRKLKASDPTAMLMDEMAQLKKKLAELEAENSQLKQNVTMCEKETANLKQQLADSREGKLDVSDLKNEMDLKMKENEKLKADAERAEKDANVAADKLDAAQSEIAKLKEEFGMLEIDKTKLKKDLDTALNEAKKQSEKVDRLEAENAKLKQRVADLEKELERLKKELDAYLNDTQKDSTEAGKIQDEANKLKQENAKGKQKISDLEGEIAKLKKELDSALTTAKKETTDVGQLQDEINKLKQQLSKAESENQKLKDNLDSALNDAKSNLKDIAKTEDENNKLKKNIKDLEDQLAKLKKELEQAQNDLKKTAPEKEENSKLKDRLKQLEAENAKLKEDFNESLDKEKKHLSGESNLTDSNNKLKQLNSKLESDNEKLKKDFKNASDENANFKKRIDNLEKENKDAKAEADGLKKRLADLQNENTKLKSEVDDLKKQLEQMKSDNAKKSDTERRKSIDNEGKLKESVTNLENENAKLRKDLAAARDEIIKLKAQIDQLNKDIDKLKKDSAAADGLKKELDKLKKENDKLNKDIKDAGDDTELKKRLADLQKENDQLNKDMKTVGDDKELRKRLADLQIENAKLSKEAKAAGDNIDLKKQLADLRKENDKLSRDAKAAGDDSELKKQLEDLRKENEKLNKEAKVAGDDAELKKRLAELEKENEKLNREAKAGGDDAELKKRLADLEKENEKLNKIVEAGADDDELKKQLEDLRKENEKLSESKGDEDNLKKQLEELKKENQSLNASMKAAGDEDELKKRLAELEQENKKLNNDLKSAGDSDALKKQLEQLKKERDKLKEDAVGTYSKKECEDEIAKLKKEYNDTIASLKKQFDRDQKNLLDKNAESIGKMQKSSVESINDIISKYEKEIKALQDELRATREQLEGLLKEKEKDTDVEKEDESKKSSKPDICECGEMFEKVLEKILSKGIQKVSADELNLAHTVISSATAKKIKSPLVPKRKKSPERNIMQRQSDTHDKVIYIQKSVQMKKEELEKMKKQIQLQKQRLSLPITTTHPPIAFPFTMEDERIKLRNLEAAVEREKLNTQNLRRILEKEKGRSPRGRRASHNNDSQILDPSTDRRAPQYQTSFYTDISAIANQIEGKQPVELRRVKVPCKKMSKLRGSDK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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