Basic Information

Insect: Tetragonisca angustula
Gene Symbol: -
Assembly: GCA_036937485.2
Location: JAWNGG010000043.1:820273-831789[-]

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 48 0.12 1.2e+02 3.3 0.4 31 58 52 79 46 86 0.59

2 48 0.027 27 5.3 1.5 31 55 97 121 93 124 0.73

3 48 0.087 85 3.7 0.5 30 55 212 237 205 243 0.76

4 48 4.3 4.3e+03 -1.7 0.2 28 63 265 300 263 302 0.79

5 48 1.4 1.4e+03 -0.2 2.4 35 61 306 332 292 336 0.85

6 48 0.0019 1.9 9.0 2.4 24 62 350 388 349 391 0.90

7 48 0.0046 4.5 7.8 5.0 24 63 416 455 414 456 0.92

8 48 0.0094 9.2 6.8 6.2 32 63 473 504 458 506 0.73

9 48 0.0014 1.4 9.5 5.6 26 61 512 547 507 551 0.86

10 48 0.0096 9.4 6.8 4.4 26 62 554 597 549 600 0.69

11 48 0.048 48 4.5 8.1 17 64 573 620 571 621 0.90

12 48 0.21 2e+02 2.5 7.7 26 61 596 631 591 656 0.77

13 48 0.0017 1.7 9.1 10.3 23 65 670 712 662 715 0.75

14 48 1 9.8e+02 0.3 3.6 28 61 703 739 701 747 0.77

15 48 0.0046 4.5 7.8 1.8 33 62 760 789 750 791 0.74

16 48 0.002 1.9 9.0 2.7 36 59 788 811 786 814 0.90

17 48 0.0034 3.4 8.2 3.9 28 65 825 862 814 862 0.90

18 48 0.00067 0.66 10.5 1.6 32 61 857 886 846 889 0.57

19 48 0.077 75 3.9 3.7 35 59 885 909 884 914 0.79

20 48 1.5e-05 0.014 15.8 2.2 22 63 910 951 909 960 0.78

21 48 0.13 1.3e+02 3.1 0.8 33 59 956 982 950 995 0.68

22 48 0.021 21 5.7 2.0 28 63 979 1014 974 1016 0.75

23 48 0.045 44 4.6 10.6 25 65 997 1037 986 1042 0.74

24 48 9.2e-06 0.0091 16.4 9.4 26 65 1019 1058 1014 1058 0.91

25 48 0.0043 4.2 7.9 9.6 28 65 1035 1072 1033 1078 0.81

26 48 0.00011 0.11 12.9 1.9 22 61 1078 1117 1077 1120 0.92

27 48 0.0034 3.3 8.2 6.4 25 63 1137 1175 1125 1177 0.80

28 48 0.0019 1.8 9.0 3.6 24 64 1164 1204 1163 1205 0.90

29 48 0.00018 0.18 12.3 0.5 24 60 1199 1235 1196 1240 0.90

30 48 0.001 0.99 9.9 3.9 31 64 1234 1267 1231 1268 0.90

31 48 0.093 91 3.6 2.9 28 65 1270 1310 1267 1317 0.71

32 48 0.019 19 5.8 6.3 30 63 1296 1329 1280 1338 0.63

33 48 0.15 1.5e+02 2.9 0.7 32 53 1340 1361 1330 1369 0.65

34 48 0.0022 2.1 8.8 1.5 24 59 1363 1398 1361 1400 0.90

35 48 0.00023 0.23 11.9 4.5 23 62 1418 1457 1416 1460 0.92

36 48 0.00016 0.15 12.5 2.0 28 62 1437 1471 1434 1474 0.92

37 48 0.0012 1.2 9.7 6.7 25 63 1476 1514 1474 1516 0.90

38 48 0.12 1.2e+02 3.2 1.0 39 64 1525 1550 1520 1551 0.71

39 48 0.036 35 4.9 12.4 26 63 1540 1577 1530 1579 0.72

40 48 0.00059 0.58 10.6 5.2 32 64 1581 1613 1573 1614 0.85

41 48 0.11 1.1e+02 3.4 2.5 31 60 1615 1647 1612 1652 0.72

42 48 0.56 5.5e+02 1.1 6.1 32 55 1654 1677 1645 1695 0.57

43 48 0.13 1.3e+02 3.1 3.1 29 64 1699 1734 1693 1735 0.87

44 48 0.0031 3 8.3 11.1 23 63 1728 1768 1712 1770 0.92

45 48 0.071 70 4.0 0.3 32 60 1772 1800 1767 1803 0.76

46 48 0.019 19 5.8 6.0 20 55 1802 1837 1799 1838 0.93

47 48 0.00053 0.53 10.8 10.2 27 60 1830 1863 1827 1866 0.92

48 48 2.9 2.9e+03 -1.2 0.0 36 59 1925 1951 1904 1956 0.68

#	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	48	0.12	1.2e+02	3.3	0.4	31	58	52	79	46	86	0.59
2	48	0.027	27	5.3	1.5	31	55	97	121	93	124	0.73
3	48	0.087	85	3.7	0.5	30	55	212	237	205	243	0.76
4	48	4.3	4.3e+03	-1.7	0.2	28	63	265	300	263	302	0.79
5	48	1.4	1.4e+03	-0.2	2.4	35	61	306	332	292	336	0.85
6	48	0.0019	1.9	9.0	2.4	24	62	350	388	349	391	0.90
7	48	0.0046	4.5	7.8	5.0	24	63	416	455	414	456	0.92
8	48	0.0094	9.2	6.8	6.2	32	63	473	504	458	506	0.73
9	48	0.0014	1.4	9.5	5.6	26	61	512	547	507	551	0.86
10	48	0.0096	9.4	6.8	4.4	26	62	554	597	549	600	0.69
11	48	0.048	48	4.5	8.1	17	64	573	620	571	621	0.90
12	48	0.21	2e+02	2.5	7.7	26	61	596	631	591	656	0.77
13	48	0.0017	1.7	9.1	10.3	23	65	670	712	662	715	0.75
14	48	1	9.8e+02	0.3	3.6	28	61	703	739	701	747	0.77
15	48	0.0046	4.5	7.8	1.8	33	62	760	789	750	791	0.74
16	48	0.002	1.9	9.0	2.7	36	59	788	811	786	814	0.90
17	48	0.0034	3.4	8.2	3.9	28	65	825	862	814	862	0.90
18	48	0.00067	0.66	10.5	1.6	32	61	857	886	846	889	0.57
19	48	0.077	75	3.9	3.7	35	59	885	909	884	914	0.79
20	48	1.5e-05	0.014	15.8	2.2	22	63	910	951	909	960	0.78
21	48	0.13	1.3e+02	3.1	0.8	33	59	956	982	950	995	0.68
22	48	0.021	21	5.7	2.0	28	63	979	1014	974	1016	0.75
23	48	0.045	44	4.6	10.6	25	65	997	1037	986	1042	0.74
24	48	9.2e-06	0.0091	16.4	9.4	26	65	1019	1058	1014	1058	0.91
25	48	0.0043	4.2	7.9	9.6	28	65	1035	1072	1033	1078	0.81
26	48	0.00011	0.11	12.9	1.9	22	61	1078	1117	1077	1120	0.92
27	48	0.0034	3.3	8.2	6.4	25	63	1137	1175	1125	1177	0.80
28	48	0.0019	1.8	9.0	3.6	24	64	1164	1204	1163	1205	0.90
29	48	0.00018	0.18	12.3	0.5	24	60	1199	1235	1196	1240	0.90
30	48	0.001	0.99	9.9	3.9	31	64	1234	1267	1231	1268	0.90
31	48	0.093	91	3.6	2.9	28	65	1270	1310	1267	1317	0.71
32	48	0.019	19	5.8	6.3	30	63	1296	1329	1280	1338	0.63
33	48	0.15	1.5e+02	2.9	0.7	32	53	1340	1361	1330	1369	0.65
34	48	0.0022	2.1	8.8	1.5	24	59	1363	1398	1361	1400	0.90
35	48	0.00023	0.23	11.9	4.5	23	62	1418	1457	1416	1460	0.92
36	48	0.00016	0.15	12.5	2.0	28	62	1437	1471	1434	1474	0.92
37	48	0.0012	1.2	9.7	6.7	25	63	1476	1514	1474	1516	0.90
38	48	0.12	1.2e+02	3.2	1.0	39	64	1525	1550	1520	1551	0.71
39	48	0.036	35	4.9	12.4	26	63	1540	1577	1530	1579	0.72
40	48	0.00059	0.58	10.6	5.2	32	64	1581	1613	1573	1614	0.85
41	48	0.11	1.1e+02	3.4	2.5	31	60	1615	1647	1612	1652	0.72
42	48	0.56	5.5e+02	1.1	6.1	32	55	1654	1677	1645	1695	0.57
43	48	0.13	1.3e+02	3.1	3.1	29	64	1699	1734	1693	1735	0.87
44	48	0.0031	3	8.3	11.1	23	63	1728	1768	1712	1770	0.92
45	48	0.071	70	4.0	0.3	32	60	1772	1800	1767	1803	0.76
46	48	0.019	19	5.8	6.0	20	55	1802	1837	1799	1838	0.93
47	48	0.00053	0.53	10.8	10.2	27	60	1830	1863	1827	1866	0.92
48	48	2.9	2.9e+03	-1.2	0.0	36	59	1925	1951	1904	1956	0.68

Sequence Information

Coding Sequence: ATGGAGGTCTGTCGGTGCGGATGTGACGCAACGACGCGtgaatcgatcgatccgcCGCACGAGCCGTGCTGTTGCTGCAGCTACAATCCCTTCAGCGACAAAGAAGCAGAGATCTACGACCTGCCGTTTGCCCTGAAGAAGCTCACGGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAAAGGCTTCAGCTCGAGAGCGAAAATAGATCACTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCCGATCCGCTGCTAGCGCACTACCAGGAAGAAATCGAAAGACTGCAAAATGCAAACGCGGCGCTCCAAGATAAAGTGACGGATCTCGAGGAAACTCTTTCCGAGCGAGATTGCTGTGACGATCCTGACGCCACGATTCACTTCTTCAGAGAGAAGATGAGATATCTCCGAGAGGGTTTCGCGcttgaaaagaaagaATTGCGGGACATAATATCGGATTTGAGGTTGAAGCTGGCACAGGTTGAAGAGGACATCAGCTGCCCCGCGATATATCGTTTAAGGGCAAAGTTGCGTGAACTCATGAAAGGTCAAGTGGCCGAGGAGCAGGTCTCCAAAGTTGTGgagaaatcgatcgaaacCTTAGTGGACCTCTCGAAGAGCTGCGACGATCTGCGTTTGGAAAACGAACGTCTTTTGGACGAGTTGGTTAACTTGCGTCGTGTGTTGGCTGATCACGAAAGGAAGGAAGTACCGGAATCAATCTTGAGAACAGCCGAAACAGTCACCGTGCCGGAGTACGTTGACATTTCAGATCTACTGGACAAGCTGAATAATTGCGAGGATACCGTGACTGACCTAAGGAAACAGttagaagaaaaagacaagCTGATCGATGCGTTGAACAAAGAATTGGAATCGATAGTCAGTCAAAAAGATCTAGAAGCCATGAAAGAGGACCTTAGGAGGAAGGAAGACAAGaTCGCGGAACTCTTGAATACTCTAAGACAATCAGAAATTGATCTGCTCGAGCTCTCCACCCTAAAATCCAAACTGGAAGACTTCAAAGAGGAAACAGCCGACTTACAGTCGAAACTCGACAAGGCGAACCAAGATGTTGACGATCTGAAAGCTGAGATAGCCAATCTGAGGAACGAGTTGGAAGACTGTAACGAGCGAAACGCGGAGCTGCAGGAGTATTGCATGAATAAGGACGCTCTTTCGATGGAGTTACGCGACCTGAAGGAGGATCTCGCGGCCGCGAAACTCACAATAGCCGATCTCGAGAAAGAGGTGGACGTTTTGAGGAGAGACAAGAAGAATTTGTTGAACGAGCTAGACGAGGCGAGAAAACAGATGGAGGCGCTGACCGAGCAACTGGAGGATGAGAGAGCAGCCAGGAACACGTTGGAGAAGGAACTGGAGGATAGCCGAAACGAGATTGAAAAGTTGCAGAAAGAGAATTCGGATCTGAAAGATCAGATCGACGTCGAGAGGAAGGAGAACGATAAACTTCGTCAGGCATTGGAAGCGTCGAAGGAGCTGGCCGACGAGAACGAAAAGTTAGAGGCTCGACTGGAGCAGCTGAAGAGCGAGAACGACGGCCTGACGAAGAGGATGAAGGAGCTGaacgatttaaataaacaGCTGAGAAACGACTATGATAGTATGAGACGGGCGATGGATAATTTGCAAGCGGAGATCGACAAACTGACGGACGAGTTGGCCAACGCGGAGCAGAAACGCGACGCGTTGTTGAACGAGAATAACAGTATCAGAAAGCAGCTCGAACGAGCGATTGCGGAAAATGAGAGTCTGAGAGCCGAACTGGACGAGGCCGGCGAACAACTCGGCAAACTGAAATCGGAGAAAAGCGAGCTGCAGAAGAGCCTCGACGAGATGAAGCTCGAGAACGTTTCGTTGAAGCGGGATATGAAGGCGTTAAGGGACGACCTTGAGGATTCTAGGGGGCAAGTGGAGGAGCTGAAAGCCGCTGGCGATGCGTTAAAGGCGGCGGATAAAGATAAGAAACTCGAACTCGCCGAACTGGAACAACGAGAGGAAGGCTTGAAGTCCGAGAAGGATCGCTTGACGAAGGAGAACGACGACTTGAGAAACAGAAACATGGAACTGCAACGGAGGTTAGAGGAGCTGGATCAGATAAAGGGGGAAAATGCAGATTTACTTGCTGAAATGGGTCGTTCGAGAAAAGAGCTGGAGAAAGCGTTGCAGGACATTGATCagttaaaattcgaaataggTTCTCTGAAGGACGGGCTGGACAATTGCGTGGGCGAAATGGAGACACTGAGAACCGAAAACAATGACCTGAAGACGGAGAACGAGGCTCTGAAGTCCGAAATTCAGGACATTGGCAATCGTTTGAAGAAGGAAAACGACAGTTTGAAAGATGAAATTGCGGAATTGGAGAAAGAATTGGCGAAATTGGATGAACTGAAGGGAGAAAATTCCGATTTGCTCGGCGAACTAGATCGTTTGAAACAGGAATTGGAGAAAACCTGGAAGGAGGTTGACCAATTAAAATCCGAGGCAAGTTCGTTGAAGGACGCGCTCGACAAGTGCGTGGACGAGATGGAGAAGTTGCGGACTGAGAATGATGATCTTAAATCGGAGAATCAAGCTTTGAAGTCCGATATTCAAGGACTTGACGAACGTTTAACGAAGGAGGATGCTGATTTGAAAGCGAGAAAGGAGGAACTGcgacaaaaattaggggagTTGGACAAACTAAAGTCGGAAAACGCGGATTTGCTCGGCGAGGTCGATCACTTGACACGCGAAGTGGAAAAACTTTTAGAGGATATCGATCAATTGAAATCCGAGGTAGCTTCTTTGAAAGACGCGCTGGATAAGTGTGTCGGCGAGATGGAGAAGCTGAGAAGCGAGAACAATGGTTTGAAGTCTAAAATTCAGGGGATGAAAGGTGAAGGGGATAGTCTAGCCTTGGAGTTAAATAAACTGAAGGACGAGAATTCCTCTTTGAAAGGCAAGAGGGATCAATTGAGCAAGCAATTGAGCGACGGTAAGACGGAGAACGAAAAACTGCATACGGACAACGAGAAACTGCGAGCGGAAAAGGCTCAAGTTGAAGCCGAAAACGAGAAACTGAAAGAAGAGATAAATTCGTGCAGGCAGgagaatgataaattaaaagacgAGCTTGCAAAATTACGGGAACAGTTGCAATCGTTGAACGACGAATTGAACAAATTAAAGGCAGACCTCGATAAATCCGAGGAGAAAATTCGGTCTCTGGAACCGTTGGTCTCCCGTTTACAGAGTGAAAACGATAAATTACGAAATGATTTGACAGATTTGGAGAACGAGGCGAGCGATTTGAAAGCAAAAATGGGCAAAGAAACTGCTGACAACGAAAAGATGCGGAACGACTTGAAGATATTGGAGGATCAGGTGCAAGATCTGAGTAAGAAGTTGGACAATACCAGGGCAGAAAACGATGCTTTGAAACAGGAGAAGCAAGATCTCAAAGCAGAGCTATTGAATATGGATCAAGatttatcgaatttaaaaGCGGAGTGTGCGGATCTGAAACAAGAGATTGCTGATCTGAAGAAATTGGTTGAcgagttaaaagaaaaaattgttaaattggaAGCAGACGTGGATCATTGGAAAATGGAGAATTGTAAGCTTCAGTTAGAGATTGATAAATTGAGAGCTGATCTTGAGGGAACGTTGAAAGATGCAAGCGAGTATAaggcTAGAAACAAAGCACTACAAGAAGAGTTAAAGCATCTGAAGAATGAAAAAGGTGAGCTTGATCAAAAACTAGCTGATTTAACGTCGCAATTCGAACAACAGATGAAGACACTGGAAGCAGAAAAATTGGCGAAAGATAAGGGTGATTCAGAAATCATAAACCTGAAAGACGAACTCGATGCACTGAAAAAGGAACTAGAAAAATTGAGAGCAGACAATAATAGATACAGAAACGAACTGGACGATCTAGCTAGACAGCTTTCAGCGACACGAAACGAACTGGAAAAATCCAAAAATGAGGTCTTCGCGTTGAGAGATGCTAATAACGCGTTAAAATCAGAAGTAGATCTCCTGAAAAGTTTAAAGGACGAgtacaataaattgaaaattgatttagaTGCTCTGAAAGCGGAAAACGCGAAACTTCTGCAGGATAGGAAAAATCTCGAGGACGAGTATGGCAAGTTGAGGGGAGAAGGCGATGGTCAGAAAATAGAGATCGATAAACTAAGATCTAACTTAGACGCAGAAAAAGAAGCTGCGGAAAGATTAAGAGCGGATCTACAAAATTGTCAAGCTGAGAACGGTAAGCTGCAAAATGAATTAAACGCGATGACAGACGAGCTAGGAAAAttaagaaaggaaaacgatCGTATGAAGAACGAGATCGACGAATTAAAGAAGGCGTTGGCAGTTGCAGAAGCAAAGATAAAATCTTTGAAAGATGAACTTTCCGATTTGTTAGCCGAGAAAGAGGAGTTGATCAACGAACTCGATCGTCTCCGGCAAGAACTGAACAATCTTCGAAACGAGGCAGAGAAGCAGATAACCGCGAAAGACGCAGCCGTGAAGGAGCTAGCCGCCCTGAAGGACGAACTAGCTGCCCTAAAAAGGGCGTTGGACGAGACTCGCCGCGAGAACGAAACGCTAAAGAATGAGAACGAGAAGCTGAATGCGGAATTAGCAAAGTTGAATAAGCAATTGGAAGCCTTGAAAGATGAGAATGCGAAGCTGAGAGATGGGAATGCAAAGCTGGAAGACGAAAATGCGAGCCTGAAGGTTGAGAATGCGAAATTGACGGCGGAGTTAGccgaaacgaagaagaaattgaCGCAGGCGGAGAAACAGCTGAACGATTCGAGGAATGAGAACGATCACTTGAGGAAGAAAGTGGCTGATCTCGAGAGCATGATGAAGGAGCTAGAACCTCTGAAGAAACAATTAGAAGATGCTAAGAAGGAGCTAGATAGATTGAGCCCGGAGCTAGATAAATTGAAATCGGAGAATGCAAAATTGCAGGAAGATTTGAATAACGCGATGAATGAATCGAACAGGTTGAGGAACGATTTAGACAAATTGAAAACCGATTACAAGTTAGAACCTGAAGTGGTGGACCTGAGGGATAAGAAGGATATGCTAAAAGAACGTGAGGACGTGTCAGAGGAAGAATTAGtcaaaataaaggaaaagaatgcGAAACTGAAGAGCGATTTGGATGATTGTCAAACGGAGAATGCAAGATTGCGCAAAGAATTGGAAGACTTGAAATCgcaaaatgcaaaattgcagAACGATTTAAATAAGGCGAAGAACGAAGCGAGTAAATTAAAGGACGATTTGGATAAATTGAAAAGCGATTACGGTGATTTAAGGTCAGAGTTAGATAAACTAAGTAACGAAAAGAATAGACAGAAGGAACGCGATGCTGCGTTAAACGGGGATCttgataaattgaagaaagaaaataatgagtTGAAAGATGGGAATGAGAAACTGAAAAGTCAATTATTAGATTGCCAAGCAGAGAATGAAAGACTGCATGAGGAATTGGAAAAGTTGAAGAAGGAAAATACCGAACTGAAGCAAGCGGAGAAGATAAAGCCTAAGAAGATGGAAGTAGATAAAGATATTCTGGATGACTACAGCGATTTCATTAAAGTGAACGAATTATTggagaagaaatttgaaaagcaAAACGaagGTGTGCAACGCATTCGggattatattaaatatttggaagGTAAAATTAAAGAACCTAAAATGGCAGACAAGCCAGAAGAGGAACCAGAAATTGATCCAGAATTGAGAAAAGACATTGCAAACTTATTAAAGAAATCGCACAGCctgttcaataatatttatcaaacggaacaggaaataaaaaatcttggGGTTAAACCTTACGAAGGAGTCTTTGATCCTGACAGTTGGCTGAATTCGTTGACACTAACACAGCTGGCAGAGCTTCACGATAAGATTTGCCAGTTGACATCGGATATGGTACACCAGGACAGTAAAGCAGTGCCTTGCGATTCGTCTGGACCAGCTACTTCATCACAGGCGgattacaatattttgaacCAGCGTATAGCTGCTTTGCAAAAACAGATAGCGAAGAAGCAAATAGAAACAGACTGGAAGCTGCAAGAGCTGAGGAGAGTTCTTCGGAATGAACAGGCTAACTTAATTCGAATTTCCGATCAAATGAATTTAGAGAGAAAACGCAATTTGAACCTACAAGGCAGCATGGATGATTCACTTTAA
Protein Sequence: MEVCRCGCDATTRESIDPPHEPCCCCSYNPFSDKEAEIYDLPFALKKLTVMKCQMKKWRMERLQLESENRSLKQALQSFGVNVDEILKPDPLLAHYQEEIERLQNANAALQDKVTDLEETLSERDCCDDPDATIHFFREKMRYLREGFALEKKELRDIISDLRLKLAQVEEDISCPAIYRLRAKLRELMKGQVAEEQVSKVVEKSIETLVDLSKSCDDLRLENERLLDELVNLRRVLADHERKEVPESILRTAETVTVPEYVDISDLLDKLNNCEDTVTDLRKQLEEKDKLIDALNKELESIVSQKDLEAMKEDLRRKEDKIAELLNTLRQSEIDLLELSTLKSKLEDFKEETADLQSKLDKANQDVDDLKAEIANLRNELEDCNERNAELQEYCMNKDALSMELRDLKEDLAAAKLTIADLEKEVDVLRRDKKNLLNELDEARKQMEALTEQLEDERAARNTLEKELEDSRNEIEKLQKENSDLKDQIDVERKENDKLRQALEASKELADENEKLEARLEQLKSENDGLTKRMKELNDLNKQLRNDYDSMRRAMDNLQAEIDKLTDELANAEQKRDALLNENNSIRKQLERAIAENESLRAELDEAGEQLGKLKSEKSELQKSLDEMKLENVSLKRDMKALRDDLEDSRGQVEELKAAGDALKAADKDKKLELAELEQREEGLKSEKDRLTKENDDLRNRNMELQRRLEELDQIKGENADLLAEMGRSRKELEKALQDIDQLKFEIGSLKDGLDNCVGEMETLRTENNDLKTENEALKSEIQDIGNRLKKENDSLKDEIAELEKELAKLDELKGENSDLLGELDRLKQELEKTWKEVDQLKSEASSLKDALDKCVDEMEKLRTENDDLKSENQALKSDIQGLDERLTKEDADLKARKEELRQKLGELDKLKSENADLLGEVDHLTREVEKLLEDIDQLKSEVASLKDALDKCVGEMEKLRSENNGLKSKIQGMKGEGDSLALELNKLKDENSSLKGKRDQLSKQLSDGKTENEKLHTDNEKLRAEKAQVEAENEKLKEEINSCRQENDKLKDELAKLREQLQSLNDELNKLKADLDKSEEKIRSLEPLVSRLQSENDKLRNDLTDLENEASDLKAKMGKETADNEKMRNDLKILEDQVQDLSKKLDNTRAENDALKQEKQDLKAELLNMDQDLSNLKAECADLKQEIADLKKLVDELKEKIVKLEADVDHWKMENCKLQLEIDKLRADLEGTLKDASEYKARNKALQEELKHLKNEKGELDQKLADLTSQFEQQMKTLEAEKLAKDKGDSEIINLKDELDALKKELEKLRADNNRYRNELDDLARQLSATRNELEKSKNEVFALRDANNALKSEVDLLKSLKDEYNKLKIDLDALKAENAKLLQDRKNLEDEYGKLRGEGDGQKIEIDKLRSNLDAEKEAAERLRADLQNCQAENGKLQNELNAMTDELGKLRKENDRMKNEIDELKKALAVAEAKIKSLKDELSDLLAEKEELINELDRLRQELNNLRNEAEKQITAKDAAVKELAALKDELAALKRALDETRRENETLKNENEKLNAELAKLNKQLEALKDENAKLRDGNAKLEDENASLKVENAKLTAELAETKKKLTQAEKQLNDSRNENDHLRKKVADLESMMKELEPLKKQLEDAKKELDRLSPELDKLKSENAKLQEDLNNAMNESNRLRNDLDKLKTDYKLEPEVVDLRDKKDMLKEREDVSEEELVKIKEKNAKLKSDLDDCQTENARLRKELEDLKSQNAKLQNDLNKAKNEASKLKDDLDKLKSDYGDLRSELDKLSNEKNRQKERDAALNGDLDKLKKENNELKDGNEKLKSQLLDCQAENERLHEELEKLKKENTELKQAEKIKPKKMEVDKDILDDYSDFIKVNELLEKKFEKQNEGVQRIRDYIKYLEGKIKEPKMADKPEEEPEIDPELRKDIANLLKKSHSLFNNIYQTEQEIKNLGVKPYEGVFDPDSWLNSLTLTQLAELHDKICQLTSDMVHQDSKAVPCDSSGPATSSQADYNILNQRIAALQKQIAKKQIETDWKLQELRRVLRNEQANLIRISDQMNLERKRNLNLQGSMDDSL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00982708;
90% Identity: iTF_00733734; iTF_00982708;
80% Identity: -