Basic Information

Insect: Synergus laeviventris
Gene Symbol: -
Assembly: GCA_032275145.1
Location: JAUESI010000038.1:10230719-10237914[-]

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 0.72 9.1e+02 0.7 0.3 34 57 63 86 54 91 0.55

2 45 0.22 2.8e+02 2.3 1.5 38 63 105 130 101 132 0.72

3 45 2.3 2.9e+03 -0.9 0.0 39 58 158 177 154 181 0.81

4 45 4.3e-05 0.054 14.2 4.6 25 59 216 250 212 256 0.89

5 45 1.6 2e+03 -0.4 0.3 29 61 326 358 321 362 0.67

6 45 3.5 4.3e+03 -1.5 0.1 35 60 377 402 375 407 0.56

7 45 0.019 24 5.8 5.9 29 65 438 474 435 474 0.92

8 45 0.089 1.1e+02 3.6 2.5 35 63 482 510 473 512 0.85

9 45 0.009 11 6.8 4.6 28 63 517 552 514 553 0.92

10 45 0.00048 0.61 10.9 4.3 27 64 558 595 555 596 0.94

11 45 0.012 16 6.3 2.3 30 62 596 628 594 631 0.81

12 45 0.017 22 5.9 7.6 29 60 623 654 618 666 0.62

13 45 0.029 37 5.2 1.0 26 63 669 706 666 708 0.91

14 45 0.012 15 6.4 6.8 25 61 801 837 789 841 0.70

15 45 4.7e-05 0.059 14.1 2.5 26 62 823 859 821 862 0.91

16 45 5.1e-05 0.065 14.0 6.2 22 63 847 888 845 890 0.95

17 45 0.01 13 6.6 4.1 33 64 893 924 891 925 0.90

18 45 6e-06 0.0075 17.0 9.2 24 65 926 967 922 974 0.94

19 45 0.023 29 5.5 7.5 29 63 980 1014 972 1016 0.86

20 45 0.95 1.2e+03 0.3 9.1 24 65 1010 1051 1008 1055 0.83

21 45 0.013 16 6.3 6.6 22 59 1029 1066 1028 1067 0.92

22 45 0.00033 0.41 11.4 5.2 22 60 1050 1088 1049 1090 0.95

23 45 0.13 1.6e+02 3.1 0.2 21 62 1098 1139 1094 1142 0.65

24 45 0.094 1.2e+02 3.5 0.9 25 55 1123 1157 1107 1166 0.65

25 45 3.1e-05 0.04 14.7 5.7 32 65 1165 1198 1156 1198 0.92

26 45 0.03 37 5.1 3.2 35 63 1203 1231 1196 1233 0.71

27 45 0.015 19 6.1 2.1 31 64 1241 1274 1232 1275 0.78

28 45 0.045 56 4.6 1.1 26 61 1271 1306 1269 1310 0.89

29 45 0.002 2.5 8.9 5.5 24 60 1304 1340 1301 1350 0.81

30 45 0.033 41 5.0 0.3 22 60 1358 1396 1353 1401 0.65

31 45 5.6e-06 0.0071 17.1 0.7 24 64 1402 1442 1393 1443 0.91

32 45 4.5e-06 0.0056 17.4 0.6 22 63 1421 1462 1420 1464 0.95

33 45 0.0009 1.1 10.0 2.0 22 60 1470 1508 1462 1511 0.79

34 45 1e-05 0.013 16.2 6.7 26 64 1509 1547 1507 1548 0.95

35 45 0.081 1e+02 3.7 4.0 28 63 1553 1588 1547 1590 0.69

36 45 0.00024 0.3 11.9 2.4 32 65 1592 1625 1590 1625 0.93

37 45 0.0011 1.4 9.7 4.3 31 64 1605 1638 1603 1646 0.53

38 45 0.033 42 5.0 1.1 27 49 1647 1669 1644 1673 0.77

39 45 9.4e-05 0.12 13.1 5.9 27 62 1675 1710 1672 1712 0.93

40 45 0.0072 9 7.1 2.3 29 63 1733 1767 1717 1769 0.82

41 45 0.00046 0.58 10.9 3.5 26 63 1765 1802 1760 1804 0.81

42 45 0.0013 1.7 9.4 4.1 34 61 1801 1828 1795 1839 0.66

43 45 0.0059 7.4 7.4 0.5 22 61 1838 1877 1837 1879 0.92

44 45 4.6 5.8e+03 -1.9 2.6 38 62 1886 1910 1881 1912 0.84

45 45 2.6 3.3e+03 -1.1 1.4 37 55 2092 2110 2086 2120 0.75

#	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	0.72	9.1e+02	0.7	0.3	34	57	63	86	54	91	0.55
2	45	0.22	2.8e+02	2.3	1.5	38	63	105	130	101	132	0.72
3	45	2.3	2.9e+03	-0.9	0.0	39	58	158	177	154	181	0.81
4	45	4.3e-05	0.054	14.2	4.6	25	59	216	250	212	256	0.89
5	45	1.6	2e+03	-0.4	0.3	29	61	326	358	321	362	0.67
6	45	3.5	4.3e+03	-1.5	0.1	35	60	377	402	375	407	0.56
7	45	0.019	24	5.8	5.9	29	65	438	474	435	474	0.92
8	45	0.089	1.1e+02	3.6	2.5	35	63	482	510	473	512	0.85
9	45	0.009	11	6.8	4.6	28	63	517	552	514	553	0.92
10	45	0.00048	0.61	10.9	4.3	27	64	558	595	555	596	0.94
11	45	0.012	16	6.3	2.3	30	62	596	628	594	631	0.81
12	45	0.017	22	5.9	7.6	29	60	623	654	618	666	0.62
13	45	0.029	37	5.2	1.0	26	63	669	706	666	708	0.91
14	45	0.012	15	6.4	6.8	25	61	801	837	789	841	0.70
15	45	4.7e-05	0.059	14.1	2.5	26	62	823	859	821	862	0.91
16	45	5.1e-05	0.065	14.0	6.2	22	63	847	888	845	890	0.95
17	45	0.01	13	6.6	4.1	33	64	893	924	891	925	0.90
18	45	6e-06	0.0075	17.0	9.2	24	65	926	967	922	974	0.94
19	45	0.023	29	5.5	7.5	29	63	980	1014	972	1016	0.86
20	45	0.95	1.2e+03	0.3	9.1	24	65	1010	1051	1008	1055	0.83
21	45	0.013	16	6.3	6.6	22	59	1029	1066	1028	1067	0.92
22	45	0.00033	0.41	11.4	5.2	22	60	1050	1088	1049	1090	0.95
23	45	0.13	1.6e+02	3.1	0.2	21	62	1098	1139	1094	1142	0.65
24	45	0.094	1.2e+02	3.5	0.9	25	55	1123	1157	1107	1166	0.65
25	45	3.1e-05	0.04	14.7	5.7	32	65	1165	1198	1156	1198	0.92
26	45	0.03	37	5.1	3.2	35	63	1203	1231	1196	1233	0.71
27	45	0.015	19	6.1	2.1	31	64	1241	1274	1232	1275	0.78
28	45	0.045	56	4.6	1.1	26	61	1271	1306	1269	1310	0.89
29	45	0.002	2.5	8.9	5.5	24	60	1304	1340	1301	1350	0.81
30	45	0.033	41	5.0	0.3	22	60	1358	1396	1353	1401	0.65
31	45	5.6e-06	0.0071	17.1	0.7	24	64	1402	1442	1393	1443	0.91
32	45	4.5e-06	0.0056	17.4	0.6	22	63	1421	1462	1420	1464	0.95
33	45	0.0009	1.1	10.0	2.0	22	60	1470	1508	1462	1511	0.79
34	45	1e-05	0.013	16.2	6.7	26	64	1509	1547	1507	1548	0.95
35	45	0.081	1e+02	3.7	4.0	28	63	1553	1588	1547	1590	0.69
36	45	0.00024	0.3	11.9	2.4	32	65	1592	1625	1590	1625	0.93
37	45	0.0011	1.4	9.7	4.3	31	64	1605	1638	1603	1646	0.53
38	45	0.033	42	5.0	1.1	27	49	1647	1669	1644	1673	0.77
39	45	9.4e-05	0.12	13.1	5.9	27	62	1675	1710	1672	1712	0.93
40	45	0.0072	9	7.1	2.3	29	63	1733	1767	1717	1769	0.82
41	45	0.00046	0.58	10.9	3.5	26	63	1765	1802	1760	1804	0.81
42	45	0.0013	1.7	9.4	4.1	34	61	1801	1828	1795	1839	0.66
43	45	0.0059	7.4	7.4	0.5	22	61	1838	1877	1837	1879	0.92
44	45	4.6	5.8e+03	-1.9	2.6	38	62	1886	1910	1881	1912	0.84
45	45	2.6	3.3e+03	-1.1	1.4	37	55	2092	2110	2086	2120	0.75

Sequence Information

Coding Sequence: atgAATGATGATCATGATCAATATTGTCATTGTGGCTGCGATGCTCcggggaattttaaatcagagGAGCCACCACATGAACCATGTTGCTGTTGTAATTATAATCCATTCAGTGATAATTCTAAGGATGCAGAAATTTACGATCTTCCCTTTGCCCTGCGAAAACTTACGGTAATGAAATGCCAAATGAAAAAGTGGCGAATGGAACGACTTCAATTGGAGAGTGAAACTCGATCTTTGAAGCAAGCTCTTCAAAAATATggcaTTAATATCGACGAGGCTCTAAAACCTGATCCTCTAGTTATACACTATCGAGAAGAAAATTTGAGACTTCAAAATCTTAATGAGGAGTTGGAGGATAAAGTCAGGGACCTCACAGAAACTTTGGATGAACGAGAATACTCTGAAGATCCTTGCGattcagtaaaatatataagaggGAAAATGAAGGACCTTCGAATTAATTTTgccaatgaaaaaaaaaaATTAAGAGACAAAATAGCAGCTTTGAGTTTGAAGCTTGCGGAAATGGATGACGATACTTCATGTTCAGCCTTAAATCGCCTCAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAGAAAGCTGATAATCAAGTTTCGATGGTTGTAGAAAAATCTATAGAAACAATGGTGGAGCTTTCGAAAAGCtgtgaagatttaaaatccgAAAATGAAAGACTTTTAGCTCAATTAGAAGCTCTTCggaaaaaattgcaacaaaGTGAACCTTCAAGAACAACATTAAAAGAAGATTCTATCATAACTCATGATATGGAATCTAAATCAtcagaaaaaatggaaataacgTCAGGTCAAGACGTCTCTGAGTTATAtgatagaattaaaaaatgcgaGGCTCTTGTGGCTGATTTAAGAAGACAACTTGCTGAGAAGGATCTAATGATTAACGATCTggagaaaaatctttttgcgGAAAAGAGAATTTCTGGACAATTGGAGGAAGATTTGGACAAAATGACTGTTAGCTACAAAGCATTGATGAAAGAACTTGCTGCTATGAaggaagaattgaaaaaaagggaTGACAAGGTCACGGatcttttaacaaatttaagaaGTTCAGCTGTAAATCTTCTCGGAATGGAGAAACTATCAAGTGAAATCGAGATGCTCAAACCTCAGCTCTATAATCTTGAAACAGAAAGGGATCACCTTTTAGATGATCTAAGTAAAATTCGAGGCCTCATATCAGAGAGGAatgatcaaatttttaaaattttagagcaaaaagaaaaagtgtcGAGCGAATGTAGTATCAAATTACTTGATATGCAGACTAGGGTAGATGTCTTATTAGAACAAGAAACTCTACTAAAACAAGAAATCGAACATCtacaattaaaagtaaaagaattgGAAGATGAAATTACAGAATTACGAGCGAGAATATTGGTATtagaacaaaaagaaaatgaaaatgaagatcTAATTAAGAAGATTCATGATCTGGAGGATCAgcttgataaattaaatgcaGAACTTTCTTCAGCCCAAAATCTAGCAAAAGAACTTGAAGGTGAGATAAGTGATTTGAAATCTGAGAAGGAGAAATTACTGAAGAATTTGGCTAATGCTGAGacagaaattgaagaaataaagaagGATTTGGAGGCTGAAAGAATAGCTAAAGAAGGTCTTTCTAAAGAACTAGAAGCTTACAAggatgaaattgaaaaattgaaattggaaaatagaaCTTTGGAATCGGAAAATAAGAGTTTAAAggataatttaagaaaaatagaagatgAAATAAAGTTCCTGAAAGAAGAAAACGAAATGTTAAAGGCAGAGAATAGTAATATTACTGCGATGAATCAAAGGTTTCAAGAAGAGATAGAGCAACTGAAagcagaaaatgaaaaagcgCAAGAAGAGattgataaattgaaaaatgaagtaaagaatttagaagcagagaaaaatgttattgaaaaTGAGTTGAATATCTTAAGAGGTGAAATAGAAAAGCTAAAAGCTGATCTAAAGAGTTTAGAGGACGGAAATGGGGTACTTAAAGAAGAACTAAACAACATTAAAGGAGAAACagataaattggaaaaagatttaaaagctGCTCAAGCAGAAATCGAAAAACTGCGAAGCGATTTAGAGATAGAGAAAGCCAAAAAGGAAGCTGCTTTGAAAGAACTGGAGGACTATAAGAAGCAGTTGAGTTTAATAAAAGATGAGTTGGaaagtttaaaagttcaatTGGAAAAATCATCAGCTGAATTGGCTACTCTTGCGgatcagaataaaaaattaaaagatgaGCTGGAAAATGCAAACcgagatttagaaaaatcagTGACTGAATCAACAGCTCTTAAGGAGCAAAACGAGAAGTTGGAAGCAGCTCTTcagaaaatgagaaatgatttgaaaaatttgacgaatgaaaatgaagaactTCAGGGAAAAATTGATCATCTTAATTCTGagattgagaaatttaaagctgagagcgataaattattaaatgaaaatattaaattaaaggaGGAAGTTGACcagttgaaaaatgaaaagaaaaagatcgAGGATGAATATCAACATTTGAAAGATGAAAATGTAATGTTGAAAGATGAGAATGCACAATTGAAAACCAGTTTAGATAAATCTGCAATGGAATTGTCAGCCCTTAAAgaacaaaatgaaaagttgAAGGCTTTTGCTGAAAATTTGAGAGATGAACTTGAGAGTTTAAGAAAAGATAATGAGGAACTTAGAACAAAAATGAATGATCTTAATTCTGAAGTAGAAAAACTAAAAGtcgagaataataaattatcgaaAGAAAATGATGATTTGAAATCTGAAGTTGATCAgttgaaaaatgagaataagaaattgaaagatgaAAATACAAATCTAAAAGTCAACTTAGAAAAATCAGAGGCTGATTTGGAAAGGTTGAAGTCTGATTTggataaattgaaaacagaaaatgaagaattaaagaaagatCTAGAAAGAGTGAAATCTGAGGCTGAAAATCTGAATaatgaattgaagaatttgTCAGCAGAATTGGATAAggtcaaaaaagaaaaagataatttggcagaaaaattaacaaacCTTGAAagtgatttagaaaaattaaaagcggAGAATGGTAATTTGAATACAGaactgaaaaaagtaaaagaagaTAATGAGATGTTAAGAAATGAAATGGATTCTTTGAGAAACGAAAATTCGAAACTTAAAACAATAGGAGATAgtgaaaaggaagaaaagaataAGGCGAATGAAGAGATTAGATCACTAAAAgatcaaaatgaaaagatatCTCGTGATCTAGATAATGCTAGAtcagaaattaattctttaaaggGACAAGttgatcatttaaaatctgaagTGGAGTCTATAAAAGGAAGACTGAAATCAAAAGAAGATGaattaaatgctttgaaaattGAGCTGAAAGATTTCCTCTCGAAGTTTGATGAACTCAAGGATGAAAATAATCGTCTTAAAACAGAGAGGGAGAGTCTTAGAAAGCAGTTGAATGATTTGAAGAACGAATTGTCAAGATTAGACGCACACAATGTAGATCTGAAAGAAGAACTTgctaaattaaaatcagaattaGCTAAGATTCTAGCTGAAAATGATCATTTGAAAAGAGAACTCGCTGAAGTGATGAAAGATTATGATCAATGTCAGACAGATAGctgcaaattgaaaaatgaaattgataagTTAAAGGCAGCTGttgagaatttgaagagagaaTTAGCCAATTGTGAAACAAAGATAAAAGAACTTGAAGGTCGTCTTTCAAGTACGGAAAGCATGAAAATTAGTTTGGAACGAGAAATCGAaggtttgaagaaaaatttggcAGCTGAAAAAGCTGAGAAAGAGGCAGTCTTGAAAAAACTGGAAGAACTTAATGATGAACTTAAGGCTTTGAAAGCTGAATTAGCTAGGTTGAGATCTGAAAATGATCAGTATAGGGCAGGAAtagatgatttgaaaaaacaattagTATTGACTAAAGATGAATTGAATAAAGCTAAGAGTGAAATTTCAGCTTTGAAAGATGATAACAATAAATTGAAGGGCCAGGGTGATACTTTAGCGAACGAAAGTGAAAAGTTGAAAGGAGAATTTGGCAAGTGGAAAGCTGAAGCTGAAGCtcaaagaaatgaaaatgctAAATTGAAAGGTGAAGTTGATAAACTCGGAACAGAAAATGCTAgacttaaaaatgaaattgatggTTTGAATAATGAAGTTAGTGGCCTTAAGAGCGTAAATAGTAAACTACAAAATGAATTAGGAGCTGCAAAAAGTGAGGTTGATAAGTTGAAATCCGAATTGTCTGCATCTAGAGctgaaaatgagaaattgaAAGGAGAAATGAATAGTTTGAAAAGTGAAGTTGGTAgattaaatgaagaaatgagTAAGATAAAGACAGAAGTtgagagattgaaaaaatccttgGCTGATTgtgaaactaaaattaaaaatttggaggGTCAAGTTGCATCTTTAGAGTcagaaaaatcaaaacttgtgaaagaattaaatagtTTGAGGGACGAacaggaaaaattgaaaaaggaattaaCAGCTGAGAAAAATGCCAAGGAGGCTGCACTTAAAGAAGCAGAAGGCCTTAAATCGGAATTATCGATGTTGAGGGctgaattagaaaaatatagaacaGAAAATGAGAAGTTGAAATCTGATTTGGAGGCatcaaagaagaaatttgCTGAATTAACGAACGAaaacggaattttaaaaacagaggtcgaaaagttaaaaaatgaattgaatgTTTTGAAGAGTGAAAATACGAAGCTTAAAGATGAGTTagataaagtgaaaaataatctaGAGAAAATGACAGCAGAGTATAATGCTTATAAAgcagaaaaggaaaaggaaattgATAATCTCAAAACAGAGAATGATCGGTTAAAGAAAGAACTTGCAGATGTAGGTGTGAAGGCGAAGAATTTGGAAGATCAGTTGAAGAGTCTTCAGGATGCTAAAGCAAAATTGGAAGCTGAAGTTGCagatttaaaatcacaattaGAAAAGTTGAGGCAAGATCTAGCAGTTGAAAAAGGAATCAAAGAAGCTGCTCGAAAAGAACTCGAagctttgaaaaatactttaggTGACCTGAGAAACGAGATGGGAAAAATTAGGGAAGAAAATGAGAAGTTGATAATAGAAAATGTAAACTTGAAAAAGCAAATTGATAAGTTGAGAAATGATGTCGAAAAATCGAAAGGGGATTTGGATAAACTTGAGGCTGAAAATGAGAGATTGAAAGGTGAGATTAATAAGTTAAGGAATGATgctgaaaaattgaaagggGGCTTGGATAAACTTGAGGCTGAGAATGGGAGACTGAAAGGTGAGGTTAATAAGTTGAGAGCagaattagagaaaataaaagaagagaaagataAGATGAAGGATGagcttgaaaaatcgaaagcAGATATAGCAAAATTGCGAGATGATTTACAAAATGCGAAGGCAgataatgataaattaattattgaaaataaaaagctgAAGAATGATTTGGATGAGATGGTTAGCAAGGGAAGTTTTGAATCTAATAAGGGGAAGGAAGAATTGGAAAAGTTGAAACTTGAACTTGCGAAAGCAAAAGATGAAGCTAATCAATGTAAAGCGGAAGTAGaTCGTCCTGTAATATATGAATCAAAAGATTCTGAAGACGAATGTGGGGACTTTATTAAGGCAAATGAGATTTTGAGGAAGAGGATACAGGAACAAAACGATGCTATTGATCgtgttagaaaatttattggtTTCGTGGAAGGTAAAAATTCATCGAAGCCTTCAATGGCTGAAAATTATAATGCTGATGGTGACACAGGTGGTTGGATAGTGCCAGCTGTAAATGAAGTTATGGAAAAATCACAGAAActatcagaaaatattttcaaagctgAGAAAGAGATACAACATCTCGAGGCTTTTCTTCATCGAAAgagTGTTGGAGATTCGGAATCGTTGGTTTCAGAAGGTCCTAGAGGAGATTTTAATGCTGATTCCTGGTTGGGATCGTTGTCGTTGACCGAATTGGCCGAGCTACATGATAAGATTTGTCTGCTCACTGCTTCAATGGTTGAATCTGACAGCAATTCTATCGGTTCAGAAAGAGTGCTTCCTGAGAACCAATTAGGAAACGAGCAAATTCCTCAAAGATTGAACAATCCTTTGGAAAAAGATTATGAAGCTCTGAATAAAAGAATTGCAGCTTTGCAGAAACAAATTTCGGAAAAAGAATTAGAGGCCGCGAGAAAGATGTATGAGATGAAGAATATTCTTCGTCAAGAACAAATGCAATTGATTAAGATTTCTGAGGAAATGACTCGGGAGAAGAAACGAAATTTAGCACTTCAGATGACAATTGATCAAGATCCTTGTTGGAAGAGTAATTGCAAAGCTGAATGTAGAGGAGATTTCGATAATATGAGAGAATATTAA
Protein Sequence: MNDDHDQYCHCGCDAPGNFKSEEPPHEPCCCCNYNPFSDNSKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQKYGINIDEALKPDPLVIHYREENLRLQNLNEELEDKVRDLTETLDEREYSEDPCDSVKYIRGKMKDLRINFANEKKKLRDKIAALSLKLAEMDDDTSCSALNRLRAKLRELMKGGQKADNQVSMVVEKSIETMVELSKSCEDLKSENERLLAQLEALRKKLQQSEPSRTTLKEDSIITHDMESKSSEKMEITSGQDVSELYDRIKKCEALVADLRRQLAEKDLMINDLEKNLFAEKRISGQLEEDLDKMTVSYKALMKELAAMKEELKKRDDKVTDLLTNLRSSAVNLLGMEKLSSEIEMLKPQLYNLETERDHLLDDLSKIRGLISERNDQIFKILEQKEKVSSECSIKLLDMQTRVDVLLEQETLLKQEIEHLQLKVKELEDEITELRARILVLEQKENENEDLIKKIHDLEDQLDKLNAELSSAQNLAKELEGEISDLKSEKEKLLKNLANAETEIEEIKKDLEAERIAKEGLSKELEAYKDEIEKLKLENRTLESENKSLKDNLRKIEDEIKFLKEENEMLKAENSNITAMNQRFQEEIEQLKAENEKAQEEIDKLKNEVKNLEAEKNVIENELNILRGEIEKLKADLKSLEDGNGVLKEELNNIKGETDKLEKDLKAAQAEIEKLRSDLEIEKAKKEAALKELEDYKKQLSLIKDELESLKVQLEKSSAELATLADQNKKLKDELENANRDLEKSVTESTALKEQNEKLEAALQKMRNDLKNLTNENEELQGKIDHLNSEIEKFKAESDKLLNENIKLKEEVDQLKNEKKKIEDEYQHLKDENVMLKDENAQLKTSLDKSAMELSALKEQNEKLKAFAENLRDELESLRKDNEELRTKMNDLNSEVEKLKVENNKLSKENDDLKSEVDQLKNENKKLKDENTNLKVNLEKSEADLERLKSDLDKLKTENEELKKDLERVKSEAENLNNELKNLSAELDKVKKEKDNLAEKLTNLESDLEKLKAENGNLNTELKKVKEDNEMLRNEMDSLRNENSKLKTIGDSEKEEKNKANEEIRSLKDQNEKISRDLDNARSEINSLKGQVDHLKSEVESIKGRLKSKEDELNALKIELKDFLSKFDELKDENNRLKTERESLRKQLNDLKNELSRLDAHNVDLKEELAKLKSELAKILAENDHLKRELAEVMKDYDQCQTDSCKLKNEIDKLKAAVENLKRELANCETKIKELEGRLSSTESMKISLEREIEGLKKNLAAEKAEKEAVLKKLEELNDELKALKAELARLRSENDQYRAGIDDLKKQLVLTKDELNKAKSEISALKDDNNKLKGQGDTLANESEKLKGEFGKWKAEAEAQRNENAKLKGEVDKLGTENARLKNEIDGLNNEVSGLKSVNSKLQNELGAAKSEVDKLKSELSASRAENEKLKGEMNSLKSEVGRLNEEMSKIKTEVERLKKSLADCETKIKNLEGQVASLESEKSKLVKELNSLRDEQEKLKKELTAEKNAKEAALKEAEGLKSELSMLRAELEKYRTENEKLKSDLEASKKKFAELTNENGILKTEVEKLKNELNVLKSENTKLKDELDKVKNNLEKMTAEYNAYKAEKEKEIDNLKTENDRLKKELADVGVKAKNLEDQLKSLQDAKAKLEAEVADLKSQLEKLRQDLAVEKGIKEAARKELEALKNTLGDLRNEMGKIREENEKLIIENVNLKKQIDKLRNDVEKSKGDLDKLEAENERLKGEINKLRNDAEKLKGGLDKLEAENGRLKGEVNKLRAELEKIKEEKDKMKDELEKSKADIAKLRDDLQNAKADNDKLIIENKKLKNDLDEMVSKGSFESNKGKEELEKLKLELAKAKDEANQCKAEVDRPVIYESKDSEDECGDFIKANEILRKRIQEQNDAIDRVRKFIGFVEGKNSSKPSMAENYNADGDTGGWIVPAVNEVMEKSQKLSENIFKAEKEIQHLEAFLHRKSVGDSESLVSEGPRGDFNADSWLGSLSLTELAELHDKICLLTASMVESDSNSIGSERVLPENQLGNEQIPQRLNNPLEKDYEALNKRIAALQKQISEKELEAARKMYEMKNILRQEQMQLIKISEEMTREKKRNLALQMTIDQDPCWKSNCKAECRGDFDNMREY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01390819;
90% Identity: -
80% Identity: -