Basic Information

Insect: Cephus nigrinus
Gene Symbol: -
Assembly: GCA_030142395.1
Location: JARQSZ010000395.1:1550545-1558153[-]

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 45 2.7 2.4e+03 -1.1 0.5 30 56 57 83 52 89 0.77

2 45 1.7 1.5e+03 -0.5 1.8 37 62 102 127 99 130 0.80

3 45 9.1 8e+03 -2.8 0.2 39 57 156 174 152 177 0.72

4 45 0.00017 0.15 12.3 0.1 29 62 218 251 211 254 0.80

5 45 1.2 1.1e+03 -0.0 0.3 37 60 295 322 283 327 0.57

6 45 1.8e-05 0.016 15.4 0.9 25 62 395 432 392 435 0.91

7 45 5.8 5.1e+03 -2.2 2.5 22 41 444 470 442 506 0.50

8 45 0.071 62 3.9 0.3 33 61 525 553 523 556 0.90

9 45 0.00033 0.29 11.4 2.1 26 64 560 598 557 599 0.87

10 45 0.22 1.9e+02 2.3 2.0 21 63 597 639 597 641 0.89

11 45 0.092 81 3.6 3.6 22 60 612 650 611 652 0.92

12 45 0.0015 1.3 9.3 6.1 28 64 639 675 631 681 0.84

13 45 1.3e-05 0.012 15.9 0.7 22 62 682 722 681 725 0.93

14 45 8.2e-05 0.072 13.3 0.8 21 64 716 759 716 760 0.92

15 45 0.027 24 5.3 1.2 22 59 752 789 751 805 0.64

16 45 0.02 18 5.7 0.8 27 55 806 834 800 844 0.78

17 45 0.0048 4.2 7.7 0.8 38 64 838 864 829 865 0.86

18 45 0.0024 2.2 8.6 2.4 28 63 856 891 854 893 0.91

19 45 0.0022 1.9 8.8 6.8 24 63 873 912 870 914 0.88

20 45 0.096 85 3.5 1.2 29 63 913 947 912 949 0.86

21 45 0.0036 3.2 8.1 6.3 30 65 942 977 925 977 0.72

22 45 2.3e-05 0.02 15.1 1.5 28 64 982 1018 977 1019 0.90

23 45 0.00065 0.57 10.4 4.1 28 65 1055 1092 1052 1092 0.95

24 45 0.0014 1.2 9.4 0.4 20 63 1082 1125 1082 1127 0.95

25 45 0.0044 3.9 7.8 2.0 20 61 1131 1172 1131 1175 0.91

26 45 2.3e-05 0.02 15.1 1.3 26 61 1172 1207 1169 1210 0.91

27 45 0.006 5.3 7.4 2.2 29 63 1224 1258 1217 1260 0.87

28 45 0.00017 0.15 12.3 4.2 22 53 1266 1297 1261 1304 0.53

29 45 0.1 91 3.4 0.3 33 65 1312 1344 1308 1344 0.74

30 45 0.16 1.4e+02 2.8 2.7 28 63 1360 1395 1348 1397 0.63

31 45 0.00036 0.32 11.3 5.1 21 62 1402 1443 1401 1446 0.92

32 45 0.0058 5.1 7.4 5.0 29 58 1473 1502 1443 1509 0.51

33 45 0.13 1.1e+02 3.1 2.9 25 63 1525 1563 1523 1565 0.79

34 45 0.052 46 4.4 0.5 25 63 1567 1605 1565 1607 0.90

35 45 0.0034 3 8.1 1.1 35 57 1612 1634 1610 1638 0.86

36 45 0.0015 1.3 9.3 6.5 22 64 1641 1683 1640 1684 0.94

37 45 0.042 37 4.7 0.7 24 59 1664 1699 1661 1705 0.55

38 45 0.13 1.2e+02 3.1 0.1 27 62 1706 1741 1703 1744 0.87

39 45 0.31 2.8e+02 1.8 2.8 25 62 1732 1769 1730 1772 0.88

40 45 0.081 72 3.7 3.8 28 60 1791 1823 1761 1828 0.69

41 45 2.4 2.1e+03 -1.0 4.9 34 61 1825 1852 1804 1856 0.59

42 45 0.0019 1.7 9.0 4.1 27 62 1853 1888 1847 1891 0.86

43 45 0.00017 0.15 12.3 6.9 19 64 1903 1948 1900 1949 0.92

44 45 0.004 3.5 7.9 2.1 32 57 2084 2109 2070 2112 0.82

45 45 6.5 5.7e+03 -2.4 1.0 34 53 2219 2238 2197 2248 0.76

#	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	45	2.7	2.4e+03	-1.1	0.5	30	56	57	83	52	89	0.77
2	45	1.7	1.5e+03	-0.5	1.8	37	62	102	127	99	130	0.80
3	45	9.1	8e+03	-2.8	0.2	39	57	156	174	152	177	0.72
4	45	0.00017	0.15	12.3	0.1	29	62	218	251	211	254	0.80
5	45	1.2	1.1e+03	-0.0	0.3	37	60	295	322	283	327	0.57
6	45	1.8e-05	0.016	15.4	0.9	25	62	395	432	392	435	0.91
7	45	5.8	5.1e+03	-2.2	2.5	22	41	444	470	442	506	0.50
8	45	0.071	62	3.9	0.3	33	61	525	553	523	556	0.90
9	45	0.00033	0.29	11.4	2.1	26	64	560	598	557	599	0.87
10	45	0.22	1.9e+02	2.3	2.0	21	63	597	639	597	641	0.89
11	45	0.092	81	3.6	3.6	22	60	612	650	611	652	0.92
12	45	0.0015	1.3	9.3	6.1	28	64	639	675	631	681	0.84
13	45	1.3e-05	0.012	15.9	0.7	22	62	682	722	681	725	0.93
14	45	8.2e-05	0.072	13.3	0.8	21	64	716	759	716	760	0.92
15	45	0.027	24	5.3	1.2	22	59	752	789	751	805	0.64
16	45	0.02	18	5.7	0.8	27	55	806	834	800	844	0.78
17	45	0.0048	4.2	7.7	0.8	38	64	838	864	829	865	0.86
18	45	0.0024	2.2	8.6	2.4	28	63	856	891	854	893	0.91
19	45	0.0022	1.9	8.8	6.8	24	63	873	912	870	914	0.88
20	45	0.096	85	3.5	1.2	29	63	913	947	912	949	0.86
21	45	0.0036	3.2	8.1	6.3	30	65	942	977	925	977	0.72
22	45	2.3e-05	0.02	15.1	1.5	28	64	982	1018	977	1019	0.90
23	45	0.00065	0.57	10.4	4.1	28	65	1055	1092	1052	1092	0.95
24	45	0.0014	1.2	9.4	0.4	20	63	1082	1125	1082	1127	0.95
25	45	0.0044	3.9	7.8	2.0	20	61	1131	1172	1131	1175	0.91
26	45	2.3e-05	0.02	15.1	1.3	26	61	1172	1207	1169	1210	0.91
27	45	0.006	5.3	7.4	2.2	29	63	1224	1258	1217	1260	0.87
28	45	0.00017	0.15	12.3	4.2	22	53	1266	1297	1261	1304	0.53
29	45	0.1	91	3.4	0.3	33	65	1312	1344	1308	1344	0.74
30	45	0.16	1.4e+02	2.8	2.7	28	63	1360	1395	1348	1397	0.63
31	45	0.00036	0.32	11.3	5.1	21	62	1402	1443	1401	1446	0.92
32	45	0.0058	5.1	7.4	5.0	29	58	1473	1502	1443	1509	0.51
33	45	0.13	1.1e+02	3.1	2.9	25	63	1525	1563	1523	1565	0.79
34	45	0.052	46	4.4	0.5	25	63	1567	1605	1565	1607	0.90
35	45	0.0034	3	8.1	1.1	35	57	1612	1634	1610	1638	0.86
36	45	0.0015	1.3	9.3	6.5	22	64	1641	1683	1640	1684	0.94
37	45	0.042	37	4.7	0.7	24	59	1664	1699	1661	1705	0.55
38	45	0.13	1.2e+02	3.1	0.1	27	62	1706	1741	1703	1744	0.87
39	45	0.31	2.8e+02	1.8	2.8	25	62	1732	1769	1730	1772	0.88
40	45	0.081	72	3.7	3.8	28	60	1791	1823	1761	1828	0.69
41	45	2.4	2.1e+03	-1.0	4.9	34	61	1825	1852	1804	1856	0.59
42	45	0.0019	1.7	9.0	4.1	27	62	1853	1888	1847	1891	0.86
43	45	0.00017	0.15	12.3	6.9	19	64	1903	1948	1900	1949	0.92
44	45	0.004	3.5	7.9	2.1	32	57	2084	2109	2070	2112	0.82
45	45	6.5	5.7e+03	-2.4	1.0	34	53	2219	2238	2197	2248	0.76

Sequence Information

Coding Sequence: ATGACCCAGGAGAGTTCCTGTTTATGCGGATGCTTCGTTCCGCCATGCGCCAAATCGCCGGACCCACCGCACGAGCCATGTTGTTGCTGTGACTACAATCCGTTCAGTGACAATTCCAAAGAGTCCGAGATATACGACTTGAATTTTGCCTTGAGGAAGCTCACGGTCATGAAGTGTCAGATGAAGAAATGGCGCATGGAACGTCTTCAACTTGAGAGCGAGGCAAGATTGCTAAAGGAAGCTCTTCGATCCCGAGgtgtGAACATCGACGAGCCCCTTAAGCCTGACCCACTGGTTCTGCATTATCGGGAGGAAAATGAGAGATTGGAGAATGCCAGGAATCTGCTCGAGGATAGGATCAAAGATCTTGAAGAGACACTTGTAGAGAGAGATTCCTTTGGAGATTCGTGCGAGGCTGTGCATTACTACAGAGAGAAGATTGGGATCCTGAGAGTACAACACGTTGAAGAAAAGAATCAACTCAGAGAGATGATTTcggaattgaaaatcaaactgGCAGAGACGGATGATGACAGTTCCTGTTCCGCACTAAATCGCCTTAGAGCTAAATTAAGAGAACTGATGAAAGGAGGTCAAAGAGCTGATCAGCAAGTTTCTAAGGTAGTCGAACGCTCCATAGAGACACTGGTTCAATTGTCGACTAGTTGCGATGACCTGAAAGCCGAAAACGAACGTCTCCTACGGGAAGTCGAGACTCTGAGGGGGATGTCAGGAGGTCCAGTATCCCAGCTTCAGAAACGTCTTCCAGAGGTGGATAAGGATGCCTTGATAAATGATTTGCAAAGAGAATTACTGGAGAATCGAGCCCGATCTGCTGATTTGGCTGTCGATCTGGATAAGATGACTGTCAGTACGAAAGCTCTGACGGCTGAAGTAGCTGCGATGAAGGATGAGCTTaagaagagggatgaaaagGTTACTGAGCTTCTCGGAGAGTTGAGAAAGTCCACGGCTGATCTTCTTGGGATGAACAACTTGCAGAGCGAGATAATGGGGATGAAGCCGCAGTTGTATGATCTTCAGATTGAGCGTGATCAACTGGTCGACGAGCTTGGTAAAGTTCGGGGTGTTGTGTCCGAGAGGAATGATCAGATCATCAAGATCCtggaaaaaagagatagagtTACGAATGATTGCGAGTCGAAACTGGCCGCTATGCAAACGAGGATCGATGGTTTGCTGGCGCAGGAAGCTTTGttaaagaaggaaaatgaagCTCTGAAAAAACAAGTCGCAGATTTGGAGGATGAGATGGGTGAGCTTAAAGCTGTTATAAGTCACGTGCCGGATACTAGTGACGACGCGGATAGAATGTTGGCTAGAATACGTGAACTCGAGGATGAGCTTGGGAAAGTTAGTAAGGAGCTCGCAAGTAGCAAGGATACTACAAAGGGCTTGGAAGATTTGATAGAATCAATGAAAGCTGCGAGGGATAACTTGGCTAATGAATTGCTTCAAGCTGAAGAGAATCTAAATAGATGTAAGAAGGATTTGGCAATGGCTGTTGGTGCGAAGGAGGATGTCCTTAAAGTCTTGGGCGACTCGAATAGTCGACTCGATGTgttgaaagatgaaaattctcGCTTGGTTAATCTGGCGGATTCCATGAGAAAGAATAATGATGAGCTCAGAGACAAAAGTAAAAGCTCTCTGCAGGATATGAATGGAATCAGAGAGGAGAATGAGGTCCTGACGGCagagaatattaatttaagaGCAGAAAATGACAGACTCAAGAAGCTCGTTGACGAGCTGAAAGCTCAAATCGACAAGCTTAAAGCTGATATCGATAAAGTGACCACCGACTGCGAGATGCTTCGTCAGAACAATGAAAAGCTCAATGacgatattaaaaagtatGAGGTCGAGAAGGATAGATTGGAAAATGATCTTTTAAAGTTACGAGAAGAAGTAGTTGCCCTGAAGGATGATAACGATAGACTGGCGTCTCAGGTTGATGAGCTTTTGGCGGAACTGACTAAGCTTAAGGACGAAAGGGATAAACTGAAGGTGGAGGTGGAGAAGGGTAAAGAGCATGAGGAAGCACTCAGGTCAGAGCTTGATAAGTTGAAAGGAGAGAATGATAAACTCAAGTCCGAAATCGGGCAGTTCGGGGATGAGTTGGATAAATTAAGGGTGGAAAATGACGGTCTCCACTCGCAAGTAAGGTCCCTCAAAGGTGAGAATGATAAACTGACCGAAGAGCTGACCGACATTAAGGACTCGCTAAAAAAATTGACGGCGAATAATGATGCACTAAACGATGAAATACGAAAGCTTCAAATGGAAAATGCCAACCTCAATGGTCAGGTCGATGCATTTAAGGTTCAGAACGAGAAGCTTCAATCCGACTTAGATGATACTAAAAATCAGTTAAATCTGGCTAAAGCTGGCGGTGACAATCTGCAAGCGCAAGTGGATGGTTGCAAAAATGAGAACGACGAGCTGAAGacaaatttggaaaaagcTCAAGGCGATCTAAATAATTCAAGGGCTGAGGTAGATAAATTGAGATCAGAGAATGCTGCGCTCTTAGGAGAACTTAATAAACTAAAATCTCAATGCGAAGCTTGTCAACTGGAACTGGATCAATTGAAAACGGAAAATGGTTCTTTGAAAACCGATCTGAAtgctataaaaaatgaaaatatgtccTTAAAAAATGAGCTCAAGGAATTACAAGCTGAAAACGAGCAACTCAAAGCCGACCTAGAGAATATGAAGATCCAATTGGGACGTGTGGAGTCTGAAAGAAGTGCTCTTAGGGAAGCTAATGAGAGTCTGAAGTCCGACTTAAGCAAGGCAGAGGACGAGCTGGAAAATATCAGAAAcgaaaataagaatttgaaGGGCGAGGTGGAGACGTTAAAAACCGAGAATGGGAATCTCAAGGATAAGTTGATGGAGCTCAAAGGGAAGTTGGACGATACGGAAAGTGAGCTGGACAAGCTCAAAGGAGAGAACAGTACTCTCAAGAGGGAAGTGGGCGACATGAAGGCGGAAAAGGATTCTCTGAAAGAAGAGCTGGCGAAAGTAaaggaagaaagtgaaaagTGGAAAGAGAAAGCAGAAGCTCTGGAGGTCTCGGACGAGAATCGCAAGGCTGAGTGCGAGAGACTTAAAGCATCCAGCGATGGATACGACAACTTAAAATCAGATTGTGAGACGCTCAAACAGGATAAGGATAAACTAAAAGGTGAACGGGATCAATTGGAGGTTCAGAGAGATGCTCTTAAGGAAGAATTAAGTAAACTGAACGGGCAGCTCGACGGTCTTGCAGCTGAAAGGGACAAGCTGAAGAGCAATTTTGATCATATGAAGAGTCGCAACGATGCTCTGAAAGGAGAATTGGATGCGTGTATCATGGAAAGGGATAAATTACGGTCGGATCTCGATAGTCTCAAGGGTGTAGTAGATGAGCTGCAGAATCAGAAGCAGGCAACGATGTCGGAGATTGAGAAATTGAGAAAGGAACTGGACGAATCTAGAAATACAATCAAGTCTCTCGAAGCTGAGGCTGCTGATTTGCGCAACGACAAGAGTCAGTTAGCCAAAGACGTTAATGATTTAAGAAAGGAGCTGGACAGAGTGAAGAGTGCCAAGGAAGATGCTGATAGGGAACTGGAGGCTTTGAAGGGTAGTCTGAACGATCTTCTTAACGAAATAATAAAGCTGAAAGAAGAGATTGATAAGTTACAGTCGGAGAAAAACAATCTGGAGAATGAATTGGCTGCTGCGAGGGGATCTTTAACGAATTGTCAAAATGAGAACAATAGGTTACATAATGAAATCGATAAGCTGACAAAAGAGCTTCGTGCTCTTAAAGACGAAAACGAACAACTTCTTGAAGAGATAGCTAAATTGAAAGGTGACATCGACTACTGGAAAATCGAGGGTTGCAAGCATAAGGCTGAAATCGATAAATTGAATGGAGATATCGAAAAGCTGAAGAAGGAGTTGTCTGACTGCCGTGCTAAAGTAAAGGATCTTGAGGATCAGCTTGTTGCCCACGATGGTCTAAAATCGAAGCTTATGCAGGATATTGATAAACTCAAGAAAGATTTAGAGTCCGAAAAAGCGGCCCTTCAAGCTACAAAGGACGAATCTTCCAAAGCAGCAGTCGGTTGCAAAGAAGAGCTGGAGGCTTTGAAGGCAGAATTGACAAAGGTAAGAGGTGAGAACAACAAATTGAAAAGCGAGATTAGTGATCAGGAGAATCAAATAGCAGCGCTTAAAGACGAATTAGAAAAGCTCCGTAAAGAAGCTTCTGTTCTTAGAACGGAGAATGATCGCTTGAAAGGcgaatttgataagaaaaaggcCGAAGCCGATGGGTTACAGAACGAACTTAACAAGGTTAAGGCTGAAGCTGAAAGTTCGAAGGGCGAAGGTGTAAATCTTAAAGGAGAAATCGATAAACTAACTTCTGACAATAATCGACTAAAGCGTGACCTAGATGCCCTGAAAGCTGAAAATGAGAAGCTTGCAGCCGCATTAACTGCAGCTAAAAATGACTCTGAAAAGTTCAAGGCCGTTTCGGCTGAATGCAAATCTGAGATCGACAAACTTAAGGCTGAAATTAATAGATTGAACGGGGAATTGAACAAGCTGAATGACGAAGCGAAGAAATCGAAGGCCGAACTAGAGGACCTTAAGAAGAGTCTGTCGAGTGCCGAGGACAGAACGAAGAAGCTTCAAGGACAGGTCGGTGCTATGgaaactgaaaaagaaaagctcaTTGGTGAATTAAATGGCGTCAGGTTAGAAAGTGATAAGTTAGCTAAAGAATTGTCCAGTACCAAACTTGGCAAGGAGGAAGCGCTGAAGGAGAACGCAGCTCTGAAATCCGAAATAGCTGCCCTTAGGGAAGAACTGAGCAAGGCTCGTGGAGAGGAGGCGAGACTGAAGCAAGAGTTGGAAGGTCTCAGGAAGCAACTGTCAGATTTGAAAAGTGAACTGGACAAGATCAAAGAGGAGAACGTAGCATTGAAGAAAGCGAATGATAAGATGAAAGCGGAACTAGACTCGCTCATGGTTGAAAACGGCCACCTCAAAGAGGCCCTGGACAAAGTTAAAGGTGAATTCAATGCGGCCAAATTAGAATACGAGAACGGTATAAAGCAGTTAAAGGATATGAACGATAATCTCAGAAAGGACGTAGCCAGTGCGCAGGATAGAGCGAAAAGCCTGGAGAATCAGCTAGGGTCTttcgaggaagaaaagaatagaatgGAAAAGGAGAATTCGCTGTCGAAGGGTCAAATCGAAAAGTTGGAGAAAGATTTAGTTGCGGCGGGAGCCGCGAAAGATGCGGCTTTACGAGAGCTTGAAGCCCTGAAGAACACTTTAGCTGGCTTAAGGGATGATTTAGCTAAGTGCAAGGCTGACAAGGACAAGCTTCAGCAGGAGTTGGACGAGATGAAGAGACGTTCCGCGGATTGGAAGGGCGACCTGGATAAGATACGGGCGGAAAAGGAAGCTTTGAAGAGCCAGCTTGACAAGCTCAACGGGGAACTGGATAAAGTACGAAACGAGTACGCCAACTTGAAGGCGGAACTTGATCGCCTTAGAGCTAAGAATGATAAGTTGCAAGCCGATAATGATGCgttgaatgaagaaaaagctCGATTGAAAACTATGTCTGAAAAAAGACTTGATAAGGAACTTGATAAGAGGCCCTCAAAGGCATCGGACAAGAAGATCGAAGATGACAAAGCTTTGAGGAAGGaacattcaaaattattggaaGATTTTGAGAGATTgcgtaaagaaaatgaaagactgAAAGCCGAGTTgcagaatatgaaaaaagaccTTGAAAAAAGTCGTCGAGAAAATggtaagttaaaaaaagtatcaggTGCTGGAGCAATGTCGGAtattcaaaatgtaaaaagaccTGAGATAAAATCGACAGCAAAATCCACAATATCCATAGCAACCGATAGTAAAGTTCCATCCTCAGAAGTTACGGATGATTGTGGAGATTATATAAGAGCCAATGAAATCCTTACACAAAATATAGATGAACAAAATGATGGAATAAATCGTATTCGCGAATATATTGGCTTTATCGAAGGAAAAACTGCGATGCGACCGATAATGGTGCAAAAATTGGGCAACGACACGAAACCAAATGCcgatgtaataaaaattgctcgACTCAAAGGTATATTAATGGCGTCGCAAAAACTtgctgaaaatattcaaaacgcGGAGatggaaattcaagaaattggaaatttaCTTGACGAAAATGAGAAACTGAAAAAGCAAATCGACAATCTCCAAAAACAACTCGCTgaatTTGGGGTGGACGATCCAGAGATGATGGAAACTAGAGAGGACGGTAAGGACATATTCGATGCGGAATCCTGGCTCaagtCACTTACTTTAACGCAATTGGCTGATCTTCACGAGAGGATATGCAGACTGACGTCATCAATGGTCGAGGAAGATTTAAATCCCGATGACTTCACGGACGATCAGGATGACGAAACAATTTGCAAACCCTGCGAAACCTCCCGGGCGTCCCGGAATTTACAGGAAGATCCAAGAAAATACGAGCGTGACAATTTAAACAAGAGAATCTCAGCATTGCAAAGACTGATAATGGATAAGCAATTGGATGCTGCGAGCAAGATCGAAGACATGAAGAGAACGCTACGAGAAGAGCAAGCTAGCCTGGTGCGACTATCTCAAGAGATGAATCtagaaagaaaacgaaattacgaaattcaccaaacaatggaaaattcgCCATGTTGGATAAACGATTGTAAAGCTCCATGCCGAGGTGATCCCAAACACGTATATCCTGGACCCTTCTTCAATGTATCAGGATCCATACCCCAACCTCGTACAAAAAGTACcgctgaaaatatttgtaagcGTCAATACGAAAATTCATCGTGCGTCACCAAGCctaataaattacatgaaaatcgAATAAGCGATACCCAACCTCGGAACAGCGTTAAGAAACGATAA
Protein Sequence: MTQESSCLCGCFVPPCAKSPDPPHEPCCCCDYNPFSDNSKESEIYDLNFALRKLTVMKCQMKKWRMERLQLESEARLLKEALRSRGVNIDEPLKPDPLVLHYREENERLENARNLLEDRIKDLEETLVERDSFGDSCEAVHYYREKIGILRVQHVEEKNQLREMISELKIKLAETDDDSSCSALNRLRAKLRELMKGGQRADQQVSKVVERSIETLVQLSTSCDDLKAENERLLREVETLRGMSGGPVSQLQKRLPEVDKDALINDLQRELLENRARSADLAVDLDKMTVSTKALTAEVAAMKDELKKRDEKVTELLGELRKSTADLLGMNNLQSEIMGMKPQLYDLQIERDQLVDELGKVRGVVSERNDQIIKILEKRDRVTNDCESKLAAMQTRIDGLLAQEALLKKENEALKKQVADLEDEMGELKAVISHVPDTSDDADRMLARIRELEDELGKVSKELASSKDTTKGLEDLIESMKAARDNLANELLQAEENLNRCKKDLAMAVGAKEDVLKVLGDSNSRLDVLKDENSRLVNLADSMRKNNDELRDKSKSSLQDMNGIREENEVLTAENINLRAENDRLKKLVDELKAQIDKLKADIDKVTTDCEMLRQNNEKLNDDIKKYEVEKDRLENDLLKLREEVVALKDDNDRLASQVDELLAELTKLKDERDKLKVEVEKGKEHEEALRSELDKLKGENDKLKSEIGQFGDELDKLRVENDGLHSQVRSLKGENDKLTEELTDIKDSLKKLTANNDALNDEIRKLQMENANLNGQVDAFKVQNEKLQSDLDDTKNQLNLAKAGGDNLQAQVDGCKNENDELKTNLEKAQGDLNNSRAEVDKLRSENAALLGELNKLKSQCEACQLELDQLKTENGSLKTDLNAIKNENMSLKNELKELQAENEQLKADLENMKIQLGRVESERSALREANESLKSDLSKAEDELENIRNENKNLKGEVETLKTENGNLKDKLMELKGKLDDTESELDKLKGENSTLKREVGDMKAEKDSLKEELAKVKEESEKWKEKAEALEVSDENRKAECERLKASSDGYDNLKSDCETLKQDKDKLKGERDQLEVQRDALKEELSKLNGQLDGLAAERDKLKSNFDHMKSRNDALKGELDACIMERDKLRSDLDSLKGVVDELQNQKQATMSEIEKLRKELDESRNTIKSLEAEAADLRNDKSQLAKDVNDLRKELDRVKSAKEDADRELEALKGSLNDLLNEIIKLKEEIDKLQSEKNNLENELAAARGSLTNCQNENNRLHNEIDKLTKELRALKDENEQLLEEIAKLKGDIDYWKIEGCKHKAEIDKLNGDIEKLKKELSDCRAKVKDLEDQLVAHDGLKSKLMQDIDKLKKDLESEKAALQATKDESSKAAVGCKEELEALKAELTKVRGENNKLKSEISDQENQIAALKDELEKLRKEASVLRTENDRLKGEFDKKKAEADGLQNELNKVKAEAESSKGEGVNLKGEIDKLTSDNNRLKRDLDALKAENEKLAAALTAAKNDSEKFKAVSAECKSEIDKLKAEINRLNGELNKLNDEAKKSKAELEDLKKSLSSAEDRTKKLQGQVGAMETEKEKLIGELNGVRLESDKLAKELSSTKLGKEEALKENAALKSEIAALREELSKARGEEARLKQELEGLRKQLSDLKSELDKIKEENVALKKANDKMKAELDSLMVENGHLKEALDKVKGEFNAAKLEYENGIKQLKDMNDNLRKDVASAQDRAKSLENQLGSFEEEKNRMEKENSLSKGQIEKLEKDLVAAGAAKDAALRELEALKNTLAGLRDDLAKCKADKDKLQQELDEMKRRSADWKGDLDKIRAEKEALKSQLDKLNGELDKVRNEYANLKAELDRLRAKNDKLQADNDALNEEKARLKTMSEKRLDKELDKRPSKASDKKIEDDKALRKEHSKLLEDFERLRKENERLKAELQNMKKDLEKSRRENGKLKKVSGAGAMSDIQNVKRPEIKSTAKSTISIATDSKVPSSEVTDDCGDYIRANEILTQNIDEQNDGINRIREYIGFIEGKTAMRPIMVQKLGNDTKPNADVIKIARLKGILMASQKLAENIQNAEMEIQEIGNLLDENEKLKKQIDNLQKQLAEFGVDDPEMMETREDGKDIFDAESWLKSLTLTQLADLHERICRLTSSMVEEDLNPDDFTDDQDDETICKPCETSRASRNLQEDPRKYERDNLNKRISALQRLIMDKQLDAASKIEDMKRTLREEQASLVRLSQEMNLERKRNYEIHQTMENSPCWINDCKAPCRGDPKHVYPGPFFNVSGSIPQPRTKSTAENICKRQYENSSCVTKPNKLHENRISDTQPRNSVKKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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