Basic Information

Insect: Synergus coniferae
Gene Symbol: -
Assembly: GCA_032164275.1
Location: JAUEJJ010000047.1:11440257-11447454[-]

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 0.47 5.3e+02 1.3 0.3 31 58 60 87 54 92 0.67

2 46 0.14 1.6e+02 3.0 1.8 35 56 109 130 102 133 0.68

3 46 1.2 1.3e+03 0.1 0.1 38 58 157 177 149 181 0.84

4 46 2.7e-05 0.03 14.9 3.2 25 57 216 248 212 255 0.93

5 46 1.5 1.7e+03 -0.3 0.2 43 64 337 358 325 367 0.70

6 46 0.051 57 4.4 6.7 24 58 444 478 414 484 0.66

7 46 0.11 1.2e+02 3.4 1.4 32 63 473 507 467 509 0.75

8 46 0.00092 1 10.0 4.3 26 63 512 549 508 550 0.92

9 46 0.00052 0.58 10.8 5.8 27 65 555 593 552 593 0.93

10 46 0.027 31 5.3 2.6 29 64 592 627 590 635 0.52

11 46 0.11 1.2e+02 3.4 5.2 32 64 616 648 608 654 0.71

12 46 0.0036 4 8.1 4.7 24 63 664 703 661 705 0.93

13 46 7 7.9e+03 -2.4 10.3 27 64 751 788 734 789 0.78

14 46 0.16 1.8e+02 2.8 1.8 33 64 785 816 783 817 0.83

15 46 3.4e-07 0.00038 21.0 5.4 25 65 819 859 817 859 0.94

16 46 0.0026 2.9 8.6 4.1 34 62 856 884 853 893 0.60

17 46 0.0054 6.1 7.6 1.9 33 64 890 921 885 922 0.91

18 46 2.9e-06 0.0032 18.1 6.7 24 65 923 964 920 964 0.95

19 46 0.00023 0.26 11.9 4.7 30 64 950 984 948 985 0.89

20 46 0.055 61 4.3 8.7 31 62 979 1010 969 1020 0.59

21 46 0.017 19 6.0 7.4 22 59 1026 1063 1025 1065 0.88

22 46 0.0015 1.6 9.4 7.6 22 60 1047 1085 1046 1089 0.94

23 46 0.036 40 4.9 5.5 21 57 1060 1096 1060 1111 0.77

24 46 0.0064 7.2 7.3 1.6 26 62 1121 1157 1115 1160 0.69

25 46 6.7e-05 0.075 13.7 4.2 32 64 1162 1194 1158 1195 0.91

26 46 0.086 97 3.7 2.9 29 62 1194 1227 1192 1230 0.79

27 46 0.11 1.3e+02 3.3 1.3 25 62 1225 1262 1221 1270 0.62

28 46 0.024 27 5.5 4.6 25 60 1267 1302 1265 1307 0.89

29 46 0.0012 1.4 9.6 6.2 25 60 1316 1351 1304 1355 0.68

30 46 0.016 18 6.0 0.2 21 63 1354 1396 1353 1398 0.91

31 46 1.5e-05 0.017 15.8 0.2 24 64 1399 1439 1396 1440 0.90

32 46 5.9e-06 0.0067 17.0 0.2 21 63 1417 1459 1416 1461 0.95

33 46 0.00051 0.57 10.9 0.5 24 62 1448 1486 1445 1496 0.84

34 46 1.6e-06 0.0018 18.8 5.1 25 63 1505 1543 1504 1544 0.95

35 46 0.12 1.4e+02 3.2 1.1 38 65 1553 1580 1547 1580 0.87

36 46 0.13 1.4e+02 3.2 3.7 30 61 1566 1597 1558 1608 0.77

37 46 0.015 16 6.2 4.6 31 65 1588 1622 1577 1622 0.88

38 46 0.017 20 5.9 2.2 32 63 1610 1641 1602 1643 0.70

39 46 0.024 26 5.5 2.2 26 52 1643 1669 1641 1673 0.84

40 46 0.00056 0.63 10.7 5.5 26 62 1671 1707 1668 1709 0.93

41 46 0.042 47 4.7 1.2 30 62 1731 1763 1712 1766 0.77

42 46 0.00024 0.27 11.9 4.2 23 64 1759 1800 1757 1801 0.86

43 46 0.23 2.6e+02 2.3 0.8 22 59 1814 1851 1813 1854 0.83

44 46 0.0023 2.6 8.7 0.8 31 60 1886 1915 1876 1916 0.88

45 46 3.3 3.7e+03 -1.4 0.1 31 59 1952 1980 1947 1982 0.84

46 46 3.1 3.5e+03 -1.3 0.6 37 55 2122 2140 2118 2151 0.70

#	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	0.47	5.3e+02	1.3	0.3	31	58	60	87	54	92	0.67
2	46	0.14	1.6e+02	3.0	1.8	35	56	109	130	102	133	0.68
3	46	1.2	1.3e+03	0.1	0.1	38	58	157	177	149	181	0.84
4	46	2.7e-05	0.03	14.9	3.2	25	57	216	248	212	255	0.93
5	46	1.5	1.7e+03	-0.3	0.2	43	64	337	358	325	367	0.70
6	46	0.051	57	4.4	6.7	24	58	444	478	414	484	0.66
7	46	0.11	1.2e+02	3.4	1.4	32	63	473	507	467	509	0.75
8	46	0.00092	1	10.0	4.3	26	63	512	549	508	550	0.92
9	46	0.00052	0.58	10.8	5.8	27	65	555	593	552	593	0.93
10	46	0.027	31	5.3	2.6	29	64	592	627	590	635	0.52
11	46	0.11	1.2e+02	3.4	5.2	32	64	616	648	608	654	0.71
12	46	0.0036	4	8.1	4.7	24	63	664	703	661	705	0.93
13	46	7	7.9e+03	-2.4	10.3	27	64	751	788	734	789	0.78
14	46	0.16	1.8e+02	2.8	1.8	33	64	785	816	783	817	0.83
15	46	3.4e-07	0.00038	21.0	5.4	25	65	819	859	817	859	0.94
16	46	0.0026	2.9	8.6	4.1	34	62	856	884	853	893	0.60
17	46	0.0054	6.1	7.6	1.9	33	64	890	921	885	922	0.91
18	46	2.9e-06	0.0032	18.1	6.7	24	65	923	964	920	964	0.95
19	46	0.00023	0.26	11.9	4.7	30	64	950	984	948	985	0.89
20	46	0.055	61	4.3	8.7	31	62	979	1010	969	1020	0.59
21	46	0.017	19	6.0	7.4	22	59	1026	1063	1025	1065	0.88
22	46	0.0015	1.6	9.4	7.6	22	60	1047	1085	1046	1089	0.94
23	46	0.036	40	4.9	5.5	21	57	1060	1096	1060	1111	0.77
24	46	0.0064	7.2	7.3	1.6	26	62	1121	1157	1115	1160	0.69
25	46	6.7e-05	0.075	13.7	4.2	32	64	1162	1194	1158	1195	0.91
26	46	0.086	97	3.7	2.9	29	62	1194	1227	1192	1230	0.79
27	46	0.11	1.3e+02	3.3	1.3	25	62	1225	1262	1221	1270	0.62
28	46	0.024	27	5.5	4.6	25	60	1267	1302	1265	1307	0.89
29	46	0.0012	1.4	9.6	6.2	25	60	1316	1351	1304	1355	0.68
30	46	0.016	18	6.0	0.2	21	63	1354	1396	1353	1398	0.91
31	46	1.5e-05	0.017	15.8	0.2	24	64	1399	1439	1396	1440	0.90
32	46	5.9e-06	0.0067	17.0	0.2	21	63	1417	1459	1416	1461	0.95
33	46	0.00051	0.57	10.9	0.5	24	62	1448	1486	1445	1496	0.84
34	46	1.6e-06	0.0018	18.8	5.1	25	63	1505	1543	1504	1544	0.95
35	46	0.12	1.4e+02	3.2	1.1	38	65	1553	1580	1547	1580	0.87
36	46	0.13	1.4e+02	3.2	3.7	30	61	1566	1597	1558	1608	0.77
37	46	0.015	16	6.2	4.6	31	65	1588	1622	1577	1622	0.88
38	46	0.017	20	5.9	2.2	32	63	1610	1641	1602	1643	0.70
39	46	0.024	26	5.5	2.2	26	52	1643	1669	1641	1673	0.84
40	46	0.00056	0.63	10.7	5.5	26	62	1671	1707	1668	1709	0.93
41	46	0.042	47	4.7	1.2	30	62	1731	1763	1712	1766	0.77
42	46	0.00024	0.27	11.9	4.2	23	64	1759	1800	1757	1801	0.86
43	46	0.23	2.6e+02	2.3	0.8	22	59	1814	1851	1813	1854	0.83
44	46	0.0023	2.6	8.7	0.8	31	60	1886	1915	1876	1916	0.88
45	46	3.3	3.7e+03	-1.4	0.1	31	59	1952	1980	1947	1982	0.84
46	46	3.1	3.5e+03	-1.3	0.6	37	55	2122	2140	2118	2151	0.70

Sequence Information

Coding Sequence: ATGAATGATTATCATGGTCAATTTTGTCATTGTGGCTGCGATGCTCCGGGTAATTTTAAACCAGAGGAGCCACCACATGAACCATGTTGCTGTTGTGATTATAATCCGTTTAGTGATAATTCTAAGGATGCAGAAATTTACGATCTTCCTTTTGCCCTGCGAAAACTTACGGTAATGAAATgccaaatgaaaaaatggcGAATGGAACGACTTCAATTGGAGAGTGAAACTCGATCTTTGAAGCAAGCTCTTCAACAATATggcaTTAATATCGACGAGGCTTTGAAACCTGATCCTCTAGTTATTCACTATCGAGAGGAAAATTTGAGACTTCAAAATCTTAATGAGGAGTTGAAGGATAAAGTTGCAGACCTCGCAGAGACTTTGGATGAACGAGAATACTCTGAAGATCCTTGCGATTCAGTAAAATACATCAGAGGGAAAATGAAGGACCTGCGAACACGTTTtgttgaagaaaagaaacaATTAAGAGACAAAATAGCAGCCTTGACTCTGAAGCTTGCAGAAATGGATGACGATACTTCATGTTCCGCCTTAAATCGCCTCAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAGAAGGCTGACCAACAAGTTTCGATGGTTGTAGAAAAATCTATAGAAACAATGGTGGAGCTTTCGAAAAGCTGCGAAGATTTGAAATCCGAGAATGAGAGACTTTTGGCTCAATTAGAAGCTCTTCGAAGAAAATTGGGACAAAAGGAACCTTCAAAAACAACATTAAAAGAAGAGCCTATCATAACTCATGATACGGGATctgaattattagaaataacgGAAGGACTAGATGTTTCTGAGTTAtatgataaaattgaaaaatgccATGCTCTTGTGGCGGATTTAAGAAGACAACTTACTGAGAAGGATCAAATAATTAACGATCTggagaaaagtatttttactgaaaagagAGTTTCTGGACAATTCGAGGAAGATTTGGATAAAATGAATGTTAGCTACAAAGCATTGATGAAAGAAGTTGCTGCTATGAaggaagaattgaaaaagaggGATGACAAGgtCACGGAACTTTTGGGAAATTTAAGAAGTTCAGCTATAAATCTTCTCGGAATGGAGAAACTGTCAAGTGAAATCGAGATGCTCAAACCTCAGCTCTATAATGTTGAAACAGAAAGGGATCAACTTTTGGGCGATCTAACTAAAATTCGAGGCCTCGTATCGGAGAGAAatgatcaaattttaaaaattttagagcaGAAAGAGAAATTGTCAAGCGACTGTAATGCAAAATTACTTGCTATGCAGACTAGGGTAGATGCCTTATTAGATCaagaaactcttttgaaaaaacaaatcgAAGACTTGAAATCAGAAGTGAAAGAATTGGAAGATGAAATAACAGGGTTGCGAGCAAGAATATTGGAATTAGAACAGAAAGgcaatgaaaatgaagatctaATTAAGAAGATTCATGATCTAGAGGATCAgcttgataaattaaatactgaaCTTTCTTCGGCCCAAAATCGAGCAAAAGAACTTGAAGGTGAGGTAAGTGATTTGAAATCTGAGAAGGAAAAATTACTGAAGAATTTGGCTGATGCTGAGactgaaattgaagaaataaagaagGATTTAGAGGCTGAGAGAATAGCGAAAGAAAGTCTTTCTAAAGATCTGGAAGCTTGTAAGGAtgaacttgaaaaattgaaattggaaaatagaACTTTGGAATCGGAAAATCAGAGTTTAaaggataattttaaaaaattagaagatgaaattaagtttttgaaagaagaaaacgAAATGTTCAAGGCAGAGAATAGTAATATTATTGCGGAGAATCACAAGTTTCAAGAAGAGATAGAACAACTGAAAGCAGAAAATAACAAAGCGCAAGTCGAGATTGATAAATTGAAAGATGAACTAAAGAATTTAGAAGcagagaaaaatgttattgaaaaTGAGTTGAATGTCTTAAAAgatgaaatagaaaagttaAAAGCTGATCTAAAGAGCTTAGAAGACGAAAATTCAGTACTTAAAGAAGAACTAAGTAACattaaaggagaaaaagataaattggaaaaagatttgaaagctGCTCAAGCAGAAATCGAAAAACTGCAAAGTGATTTAGAGATACAGAAAATCGAAAAGGAAGCTGTTTTAAAAGACCTCGAGGACTATAAGAAGCAGTTgagtttaatgaaaaatgagttggaaaatttaaaagatcaaTTGGAAAAATCATCAGCTGAATTGGCAACTCTTGCGgatcagaataaaaaattaaaagatgagCTGGAAAATGCAAAtcgagatttgaaaaaatcagtGGCTGAATTAACAGCTCTTAAGGAGCAAAACGAGAAGTTGGAAGcagcttttcaaaaaatgagagATGACTTGGgaaatttaacaaatgaaaataaggAACTTGAGGCAAAAATTGATCATCTTAactctgaaattgaaaaattcaaagccgagaatgataaattattaaatgaaaatagtaaattaaagGAAGAAGTTGACcagttgaaaaatgaaaataaaaagctcGAGGATGAATAtcaacaattgaaaaatgaaaatgtaatgtTAAAAGATGAGAATTCAAAGTTGAAAGACGATTTAGATAAATCTGTAATGGAATTGTCAGCCCTTAAGGAGcaaaatgaaaagttgaagacttttgttgaaaatatgaaagacGAAATTGAGACTTTAAGAAAAGATAATGAGGaacttaaagtaaaaatgaattatctCAATTCCGAAGTAGAAAAACTAAAAGtcgagaataataaattatcgaaagaaaatgttgatttGAAATCCGAGGTTGATCAGCTGAAAGATGAgaataagaaattgaaagatgaaaataaaaatctaaaagacAACTTAGAAAAATCAGAAGCTAATTTGGAAAGGTTGAAGTCTGATTTCgataaattgaaaacagaaaatgaaaaattaaagaaagatcTAGATAGACTGAAAGCTGAGGctgaaaatatgaataatcaATTGAAGAATTTGTCAGTAGAATTGGATAAggtcagaaaagaaaaaggtaaCTTGGAAGAAAAGTTAACAAGCCTTGAAAGTGATTTAGAAAAACTAAAAGCGGAGAATGCTAACTTGAATACAGAACTGAAGAAAGCAAAAGAAGATAATGAGGTGTTAAGAAATGAAACGAATTCTTTAAGGAACGAAAATGCGAAACTTAAATCAGCAGCAGATAgtgaaaaggaagaaaagagtAAGGCAAATGAAGAGATTAGATCACTAAaaggtcaaaatgaaaaaatatctcgtGAACTGGATAATGCTAGAtcagaaattaattctttaaaggGAGAAGttgatcatttaaaatctgaagtgGAGtccataaaaagaaaactgcaATCAAAAGAAGATGAATTAAAtgctttgaaaaatgaattgaaagatTTCCTCTCGAAGTTTGATGAACTCAAGGATGAAAATAATCGTCTTAAGACAGAAAGAGAGAATCTTAGAAAACAATTAAACGATTTGAAGAACGAATTTTCAAGATTAGAGGGAGAAAATTTAGATCTGAAAGAagaactcttaaaattaaaatcagaattaGCTAAGATTGTAgctgaaaatgataaaatgaaaaaagaacttGCTGGAGTGACGAAGGATTATGATCAATGTCAGACAGATGGTTGCAAGCTGAataatgaaattgataagTTAAAGGCAGCTGttgagaatttgaagaaagaatTAGGCAATTCTGAAGCAAAGATAAAAGAACTTGAAGGTCGTCTCTTAAGTAAGGAAAGCgagaaaaatagtttggaTCGAGAAATCGAgagattgaagaaaaatttgtcagCTGAAAAATCTGAGAAAGAGGCAGTTTTGAAAAGCCTGGAAGAACGTAATGAAGAGCTTAAGGTTTTGAAAGCTGAATTAGCTAGGTTGAGGTCTGAAAATGATCAGCTTAGGGCAGAAATagatgatttgaaaaaacaattagTATTGACTAAAGATGAGTGGAATAAAGCCAAGAGTGAAATTTCAGCTTTGAAAGGTGATAACAACAAATTGAAGGGCCAGGGTGATACTTTAGCTAATGAAAGTGAAAAGCTGAGAGGAGAGTTGGGCAAGTGGAAAGTTGAAGCTGAAGCTCAACGAAATGAAAATGCTAAATTGAAAGGCGAGGTTGATAAACTGGGAGCAGAAAATACTAgacttaaaaatcaaattgatgGTTTGAATAATGAAGTTAGTGGCCTTAAGAGCGTAAATAGTAAACTGCAAGGTGAATTAGGAGCCGCAAAAAGTGAGGTTGATAAGTTGAAATCTGAATTGTCTGCTTCTAGAGCTGGAAATGAGAAATTGAGAGGGGAAATAGATAGTTTGAGAAGTGAAGTTGGAagattaaatgaagaaatgaataaaataaaggcGGAAGCTGagagattgaaaaaatccttGGCTGATGGTGAAGCTAGAATTAAAAACTTGGAAGGTCAAGTTGCATCTTTAGAATCAGAAAAAGcaaaacttgtaaaagaattaaatagtTTGAGGGACGAGCAGgacaaattgaaaaaggaattaaCAGCTGAGAAAAATGTCAAGGAAGCTGCACTTAAAGAAGCAGAGGGTCTTAAATCGGAATTATCGATGATGAGGGCTGAGTTAGAAAAATGTAGAACAGAAAATGAGAAGTTGAAATCTGATTTGGAGGCTTCAAAGAAGAAAGTTGCTGAGTTAACGAACGAAAATGGAGTTTTAAAAGCGGACGTCGAGAAATcaagaaatgaattaaatgttttgaagagTGAAAATACGAAGCTTAAAGATGAATTggataaagtgaaaaataatctgGAGAAAATGACAGCAGAGTATAATGCTTATAAAgcagaaaaggaaaaggaaattaataatCTCAAAGCAGAGAATGATCGGTTAAAGAAAGAACATGCAGATGCACAAGTGAAGAcgaaaaatttagaagatcAGCTGAAGAGTCTTCAGGATGCTAAAGCAAAATTGGAAGCTGATGTTGCAGATTTAAAATCACAGTTGGAAAAGTTAAGACAAGATCTAGCGgttgaaaaaggaaataaagaagCTACTCGAAAAGAACTCGAAgctttgaaaaatactttaggtGACCTGAGAAACGAGATGGGAAAAATTAAGGAAGAAAATGAGAAGTTTATAGTAGAGAATGTAAGTTTGAAAAAGCAAATTGATAAGTTGAAAGGTGATGTCGAAAAATCGAAAAGGGATTTGGATAAACTTGAGGCTGAGAATGAGAGACTGAAAGGTGAGATTAATAAGTTGAAAGGAGATTTAGAGAGGTTGAGAGCAGaattagagaaaatgaaaGCAGAGAAAGATAAGGTGAAGGATgaacttgaaaaatcgaaagcAGATGCAGCAAAATTGCGAGATGATTTACAAAAAGCGAAGGCAGATGCTGACAGAttgatttctgaaaataaaaaactaaagaaTGGTTTGGATGAGGCAAAGGCAGTATCTGATATGTCGAAAGCGACGGCTAGTATGGGAAGTATTGAATCTAGTAAGTTGAGGGATGAATTGGGAAGGTTGAAACTTGAACTTGCGAGAGCAAAAGATGAAGCTAATCAATGTAAAGCGGAAGTAGGTAGGttgaaatctgaaattgaaagattGATGGCAGAAAtggataaaatgaaaactcaAGATGGAAGATCAAAAATTAGCATTGATCGTCCCAAAGCTGAGACACCTAAAGTTGAAACTAGAAGGATACCAgatCGTCCTGAAAAATATGAAGCAAAAGTTTCTGAAGACGAATGTGGGGACTTTCTTAAGTCCAATGAGATTTTGAGGAAGAGAATTCAGGAACAAAACAAGGcTATTGATCGTGTTAGAGAATTTATTGGTTTCGTGGAAGGTAAAAATCCATCGAAGCCTTCTATGGCTGAAGATTATAATGCTGATGGCGATACTGGTGGTTGGATAGTACCAGCAGTAAATGAAGTTATGGAAAAGTCACAAAAGctatcagaaaatattttcaaagctgAGAAAGAAATACAACATCTCGAGACTTTTCTTCATCGAAAGagTGTTGGAGATTCGGAAGCGTTGGTTCCAGAAGGTCCCAGAGGAGATTTTAATGCTGATTCCTGGTTGGGAtcaTTGACGTTGACCCAATTGGCCGAGCTACATGATAAGATTTGTCTGCTTACTGCTTCAATGGTTGAGGCTGACAGCAATTCTATCAGTTCAGAAAGAGTACTTTCTGAGAATCAATTAGGAAACGAACGAATTCCTCAAAGATTGAACAATCCTCTGGAAAGAGATTATGAAACTCTGAATAAAAGAATTGCAGCTTTGCAGAagcaaatttctgaaaaagaattaGAGGCCGCGAGAAAGATGTATGAGATGAAGAATATTCTTCGTCAAGAACAAATGCAATTGATTAAGATTTCTGAAGAAATGACTCAAGAGAAGAAACGAAATTTAGCACTTCAAATGACAATTGACCAAGATCCTTGTTGGACGAGTAGTTGCACAGCTGAATGTAGAGGAGATTTCGATAATATCAGAGAACATTAA
Protein Sequence: MNDYHGQFCHCGCDAPGNFKPEEPPHEPCCCCDYNPFSDNSKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGINIDEALKPDPLVIHYREENLRLQNLNEELKDKVADLAETLDEREYSEDPCDSVKYIRGKMKDLRTRFVEEKKQLRDKIAALTLKLAEMDDDTSCSALNRLRAKLRELMKGGQKADQQVSMVVEKSIETMVELSKSCEDLKSENERLLAQLEALRRKLGQKEPSKTTLKEEPIITHDTGSELLEITEGLDVSELYDKIEKCHALVADLRRQLTEKDQIINDLEKSIFTEKRVSGQFEEDLDKMNVSYKALMKEVAAMKEELKKRDDKVTELLGNLRSSAINLLGMEKLSSEIEMLKPQLYNVETERDQLLGDLTKIRGLVSERNDQILKILEQKEKLSSDCNAKLLAMQTRVDALLDQETLLKKQIEDLKSEVKELEDEITGLRARILELEQKGNENEDLIKKIHDLEDQLDKLNTELSSAQNRAKELEGEVSDLKSEKEKLLKNLADAETEIEEIKKDLEAERIAKESLSKDLEACKDELEKLKLENRTLESENQSLKDNFKKLEDEIKFLKEENEMFKAENSNIIAENHKFQEEIEQLKAENNKAQVEIDKLKDELKNLEAEKNVIENELNVLKDEIEKLKADLKSLEDENSVLKEELSNIKGEKDKLEKDLKAAQAEIEKLQSDLEIQKIEKEAVLKDLEDYKKQLSLMKNELENLKDQLEKSSAELATLADQNKKLKDELENANRDLKKSVAELTALKEQNEKLEAAFQKMRDDLGNLTNENKELEAKIDHLNSEIEKFKAENDKLLNENSKLKEEVDQLKNENKKLEDEYQQLKNENVMLKDENSKLKDDLDKSVMELSALKEQNEKLKTFVENMKDEIETLRKDNEELKVKMNYLNSEVEKLKVENNKLSKENVDLKSEVDQLKDENKKLKDENKNLKDNLEKSEANLERLKSDFDKLKTENEKLKKDLDRLKAEAENMNNQLKNLSVELDKVRKEKGNLEEKLTSLESDLEKLKAENANLNTELKKAKEDNEVLRNETNSLRNENAKLKSAADSEKEEKSKANEEIRSLKGQNEKISRELDNARSEINSLKGEVDHLKSEVESIKRKLQSKEDELNALKNELKDFLSKFDELKDENNRLKTERENLRKQLNDLKNEFSRLEGENLDLKEELLKLKSELAKIVAENDKMKKELAGVTKDYDQCQTDGCKLNNEIDKLKAAVENLKKELGNSEAKIKELEGRLLSKESEKNSLDREIERLKKNLSAEKSEKEAVLKSLEERNEELKVLKAELARLRSENDQLRAEIDDLKKQLVLTKDEWNKAKSEISALKGDNNKLKGQGDTLANESEKLRGELGKWKVEAEAQRNENAKLKGEVDKLGAENTRLKNQIDGLNNEVSGLKSVNSKLQGELGAAKSEVDKLKSELSASRAGNEKLRGEIDSLRSEVGRLNEEMNKIKAEAERLKKSLADGEARIKNLEGQVASLESEKAKLVKELNSLRDEQDKLKKELTAEKNVKEAALKEAEGLKSELSMMRAELEKCRTENEKLKSDLEASKKKVAELTNENGVLKADVEKSRNELNVLKSENTKLKDELDKVKNNLEKMTAEYNAYKAEKEKEINNLKAENDRLKKEHADAQVKTKNLEDQLKSLQDAKAKLEADVADLKSQLEKLRQDLAVEKGNKEATRKELEALKNTLGDLRNEMGKIKEENEKFIVENVSLKKQIDKLKGDVEKSKRDLDKLEAENERLKGEINKLKGDLERLRAELEKMKAEKDKVKDELEKSKADAAKLRDDLQKAKADADRLISENKKLKNGLDEAKAVSDMSKATASMGSIESSKLRDELGRLKLELARAKDEANQCKAEVGRLKSEIERLMAEMDKMKTQDGRSKISIDRPKAETPKVETRRIPDRPEKYEAKVSEDECGDFLKSNEILRKRIQEQNKAIDRVREFIGFVEGKNPSKPSMAEDYNADGDTGGWIVPAVNEVMEKSQKLSENIFKAEKEIQHLETFLHRKSVGDSEALVPEGPRGDFNADSWLGSLTLTQLAELHDKICLLTASMVEADSNSISSERVLSENQLGNERIPQRLNNPLERDYETLNKRIAALQKQISEKELEAARKMYEMKNILRQEQMQLIKISEEMTQEKKRNLALQMTIDQDPCWTSSCTAECRGDFDNIREH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01390819;
90% Identity: iTF_01394028;
80% Identity: -