Basic Information

Insect: Nomada fabriciana
Gene Symbol: -
Assembly: GCA_907165295.1
Location: OU015697.1:8446328-8460092[-]

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 43 0.12 1e+02 3.1 0.1 25 50 56 81 52 87 0.61

2 43 0.24 2.1e+02 2.1 0.6 39 62 101 124 97 127 0.65

3 43 0.44 3.9e+02 1.3 0.1 40 56 200 216 183 220 0.87

4 43 0.86 7.7e+02 0.3 1.5 33 61 277 305 267 309 0.75

5 43 0.011 9.5 6.4 0.0 27 63 321 357 319 359 0.91

6 43 2.3 2.1e+03 -1.0 3.9 24 46 360 382 359 400 0.81

7 43 0.0069 6.1 7.1 0.7 24 63 391 430 383 432 0.81

8 43 0.024 22 5.3 1.4 24 62 433 471 431 474 0.86

9 43 0.0045 4 7.6 6.2 25 64 469 508 465 509 0.90

10 43 0.014 12 6.1 6.8 24 63 517 556 514 565 0.66

11 43 0.0027 2.4 8.4 2.3 29 56 578 605 559 614 0.53

12 43 1e-06 0.0009 19.3 1.2 26 63 638 675 634 677 0.92

13 43 0.00027 0.24 11.6 4.2 33 64 680 711 678 719 0.71

14 43 0.0049 4.4 7.5 0.2 22 63 725 766 716 768 0.75

15 43 0.0013 1.1 9.4 4.8 26 60 771 805 766 808 0.91

16 43 5.7e-06 0.0051 16.9 3.9 24 65 804 845 803 845 0.92

17 43 3.9e-05 0.035 14.2 1.7 26 64 855 893 853 893 0.96

18 43 7.5e-05 0.067 13.3 0.7 25 64 910 949 900 950 0.82

19 43 0.00031 0.28 11.4 6.7 20 60 961 1001 954 1005 0.87

20 43 0.0098 8.8 6.5 3.2 36 64 1005 1033 1000 1034 0.87

21 43 0.00013 0.12 12.5 1.1 24 64 1035 1075 1033 1075 0.95

22 43 0.0045 4.1 7.6 1.9 30 64 1090 1131 1081 1132 0.69

23 43 0.0043 3.8 7.7 0.2 28 55 1123 1150 1119 1154 0.86

24 43 0.00036 0.32 11.2 6.2 24 63 1140 1179 1137 1180 0.90

25 43 0.00065 0.58 10.3 8.3 22 64 1159 1201 1158 1209 0.69

26 43 0.0047 4.2 7.6 0.6 24 59 1217 1252 1209 1257 0.84

27 43 0.0092 8.2 6.6 8.7 23 63 1272 1312 1256 1314 0.85

28 43 0.00081 0.72 10.0 3.9 24 62 1301 1339 1298 1355 0.88

29 43 0.43 3.8e+02 1.3 1.1 28 64 1333 1369 1331 1379 0.70

30 43 0.08 72 3.6 5.8 24 63 1364 1403 1361 1405 0.79

31 43 0.058 52 4.1 7.2 27 63 1381 1417 1377 1419 0.92

32 43 0.00095 0.85 9.8 5.5 19 64 1422 1460 1414 1468 0.56

33 43 1.1 9.9e+02 -0.0 0.1 32 60 1470 1498 1466 1503 0.77

34 43 4.7e-05 0.042 14.0 3.1 24 61 1500 1537 1499 1540 0.92

35 43 0.0035 3.1 8.0 10.1 23 63 1569 1609 1555 1611 0.81

36 43 6.3e-05 0.056 13.6 8.8 24 63 1609 1648 1605 1650 0.90

37 43 5.8 5.2e+03 -2.3 6.6 33 54 1681 1702 1646 1718 0.63

38 43 0.29 2.6e+02 1.9 2.4 26 64 1695 1733 1685 1734 0.75

39 43 0.00054 0.48 10.6 2.1 24 63 1728 1767 1726 1769 0.89

40 43 0.056 50 4.1 1.8 28 64 1777 1813 1765 1814 0.86

41 43 0.4 3.6e+02 1.4 7.9 34 59 1860 1885 1797 1889 0.84

42 43 0.0029 2.6 8.2 1.6 24 60 1871 1907 1870 1911 0.91

43 43 1.2 1.1e+03 -0.2 0.4 41 60 1978 1997 1950 2015 0.52

#	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	43	0.12	1e+02	3.1	0.1	25	50	56	81	52	87	0.61
2	43	0.24	2.1e+02	2.1	0.6	39	62	101	124	97	127	0.65
3	43	0.44	3.9e+02	1.3	0.1	40	56	200	216	183	220	0.87
4	43	0.86	7.7e+02	0.3	1.5	33	61	277	305	267	309	0.75
5	43	0.011	9.5	6.4	0.0	27	63	321	357	319	359	0.91
6	43	2.3	2.1e+03	-1.0	3.9	24	46	360	382	359	400	0.81
7	43	0.0069	6.1	7.1	0.7	24	63	391	430	383	432	0.81
8	43	0.024	22	5.3	1.4	24	62	433	471	431	474	0.86
9	43	0.0045	4	7.6	6.2	25	64	469	508	465	509	0.90
10	43	0.014	12	6.1	6.8	24	63	517	556	514	565	0.66
11	43	0.0027	2.4	8.4	2.3	29	56	578	605	559	614	0.53
12	43	1e-06	0.0009	19.3	1.2	26	63	638	675	634	677	0.92
13	43	0.00027	0.24	11.6	4.2	33	64	680	711	678	719	0.71
14	43	0.0049	4.4	7.5	0.2	22	63	725	766	716	768	0.75
15	43	0.0013	1.1	9.4	4.8	26	60	771	805	766	808	0.91
16	43	5.7e-06	0.0051	16.9	3.9	24	65	804	845	803	845	0.92
17	43	3.9e-05	0.035	14.2	1.7	26	64	855	893	853	893	0.96
18	43	7.5e-05	0.067	13.3	0.7	25	64	910	949	900	950	0.82
19	43	0.00031	0.28	11.4	6.7	20	60	961	1001	954	1005	0.87
20	43	0.0098	8.8	6.5	3.2	36	64	1005	1033	1000	1034	0.87
21	43	0.00013	0.12	12.5	1.1	24	64	1035	1075	1033	1075	0.95
22	43	0.0045	4.1	7.6	1.9	30	64	1090	1131	1081	1132	0.69
23	43	0.0043	3.8	7.7	0.2	28	55	1123	1150	1119	1154	0.86
24	43	0.00036	0.32	11.2	6.2	24	63	1140	1179	1137	1180	0.90
25	43	0.00065	0.58	10.3	8.3	22	64	1159	1201	1158	1209	0.69
26	43	0.0047	4.2	7.6	0.6	24	59	1217	1252	1209	1257	0.84
27	43	0.0092	8.2	6.6	8.7	23	63	1272	1312	1256	1314	0.85
28	43	0.00081	0.72	10.0	3.9	24	62	1301	1339	1298	1355	0.88
29	43	0.43	3.8e+02	1.3	1.1	28	64	1333	1369	1331	1379	0.70
30	43	0.08	72	3.6	5.8	24	63	1364	1403	1361	1405	0.79
31	43	0.058	52	4.1	7.2	27	63	1381	1417	1377	1419	0.92
32	43	0.00095	0.85	9.8	5.5	19	64	1422	1460	1414	1468	0.56
33	43	1.1	9.9e+02	-0.0	0.1	32	60	1470	1498	1466	1503	0.77
34	43	4.7e-05	0.042	14.0	3.1	24	61	1500	1537	1499	1540	0.92
35	43	0.0035	3.1	8.0	10.1	23	63	1569	1609	1555	1611	0.81
36	43	6.3e-05	0.056	13.6	8.8	24	63	1609	1648	1605	1650	0.90
37	43	5.8	5.2e+03	-2.3	6.6	33	54	1681	1702	1646	1718	0.63
38	43	0.29	2.6e+02	1.9	2.4	26	64	1695	1733	1685	1734	0.75
39	43	0.00054	0.48	10.6	2.1	24	63	1728	1767	1726	1769	0.89
40	43	0.056	50	4.1	1.8	28	64	1777	1813	1765	1814	0.86
41	43	0.4	3.6e+02	1.4	7.9	34	59	1860	1885	1797	1889	0.84
42	43	0.0029	2.6	8.2	1.6	24	60	1871	1907	1870	1911	0.91
43	43	1.2	1.1e+03	-0.2	0.4	41	60	1978	1997	1950	2015	0.52

Sequence Information

Coding Sequence: ATGGAGGTGTGTCGATGCGGATGCGCCTCATCGACGTCTCTAGAATCGTTCAATCCGCCGAACGAGCCATGCTGTTGCTGCAGTTACAATCCCTTCAGCGACAATTCCAAAGAATCAGAGATCTATGATCTCTCGTTCGCCCTGAGGAAGCTCGGCGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAACGACTTCAGCTCGAGAGCGAAAATAGGTCTTTGAAACAAACCCTGCAGTCATTCGGTGTAAATGCGGATGAGATATTGAAGCCTGATCCACTGCTAGTGCACTCCAGAGAAGAAATCGAAAGGCTGCAAAATGCAAACGCGAGTCTCGAAGATAAAGTGAGGGATCTGGAGGAAATTCTCGCCGAACGAGATTGCTGCGACGATCCTGACGCCACGATTCACTTCCTCAGAGAGAAGATGAGACATCTCAGGGAGCGTTTCGCGCTTGAAAAGAAAGACATGCGGGACATAATATCGAATTTGAAGTTGAAGCTGACGCAAACCGAAGAGGACGTCAGTTGTCCGGCGATATATCGTCTTCGGGCGAAGTTGCGTGACTTGATGAAGGGTCAAACGACCCTTGGCGAAAACGACCATCTTCTTGCCGAGATAGACGAGTTGCGACGCGGTTTAGGCGGCCGCGAGAAAAGGGAAGTAGTAGAGACGAGGGCAATGGAAACGGCCACTGTGCCTGAATACGCCGACGTCTCGGATCTACTGAAAAAATTGAACGACTGCGAAGACGTTGTGGGCGACCTGGAGAGGAAGTTAGAAGAGAAGGACGACAAGATTGCAGACCTTCTGAACAGACTGAAGCAGTTCGACGTAATGCAGGCCGAGCTCGAAGATCTTAAACGTAAACTGGCAGAACGCGAATCGGAGAACGGCAAGCTCAAGGCAGACTACGACCATAGAACTTCCAACCTTCAGTTACAACACGACGGCAGAACTTCCATGTTGCAGATACAAATGGACGAATTGTCGGCCGAAATAATGGGTCTGAATCAGACCATCGGCACCCTCAACAAAAACATCGACGATTTGAATCAAGAGATCGCCGATCTGAAGTCGCGAATAGCCGATCTCGAGACCCAACTGGAGCAGTGTAACAAGCGAAACGCCGAACTAGAAGAGTGTTGCCAGGACAGGGACTCCGTTTTAGAGAGGAACGGGGCCTTGGAGCAAGAGCACGCGTCCGCAATGGCCAGGATACAAGATCTCGAGGCAGAGGTGGACGCTTTGAAGGCGCAGATCGAGGCACTGACCGGGCAACTGGAGAACGAGAAGACGGCGAGGAGCTCGCTGGAAAAAGAACTGGAGGATAGCCGGGGTGAGATCGAAAGCCTGCGCAAGGAGAATACGGATCTGAAGGGCCAGATAGACGCAGCGAACGCTGAGAACGATGAACTTCGCGATGCGTTAAGGAAATTGTCCGAGGAGGACGAACAGCTGAAGGCGCAGATCGAGCAACTGCAGAACAATATGAAGGACCTGGAGGACCTGAATAGCGCCCTGAGGGGCGACTACGACAACATGAAGCAAGCGCTGGATAATTTGGAGGCGGAGATCAACAGACTGGAGGAGGAATTAAGGAGAGCGGCGGATGAACGGCAGGCATTGTTGAATGAGATCGACAGCACTAGAAAGCAGCTAGAGGACTCCTTGGCAGCGAACGAGACGCTGAAAGCTGAACTGGACGAGGCCGGCGAGCAACTCGGAAAACTGAGAGCGGAGAAGGACGAGCTGCAGAAGAGTGTCGACGCGCTCCGGCACGAGAACGATTCGTTCAAACGGGATATGAGGGCGTTAAGGGAGGATCTCGATGACGCGCGGAGGCAGGTGGACGAGCTGAAAGCATCTGGCGACGGGCTGAGAGCCGCGGACGACGATAAGATGTCTGAAATCGAGAGGCTGACACAGGAGGTGGAGGGTTTGATGTCTGAAAAGGATCGCCTGACGAGCGAGAACGCCGATCTGAAAGGCGAAAACGCGGAACTGGGGCGAAAACTGGAGGATGCCGTGAAGGAGTTGGAACAATTGAGAGCGGAAAATGCTGATTTACGCGCGGAGGTGGATCGTTTGAGGCAGGAATTGGAGACAGCGAGAGGCGAGCTGGATCAATTGAAATCGGAAATGGCTGCCGTGAAGGACGCGCTCGATAAGTGCGTCGACGAGTTGGAAAAGTTGAAGGGTGAAAACAGTGATCTTAAATCGCTGAACGAGGCCTTGAAGACGGAGATTCAAGGGGTTAGGGGCGAAGGTGATGGTTTGGCGGTCGAGTTGAACTCTCTGAAGGGCGAGAGGGATCAATTGAAGGACCAACTGAGCGAGCGTAACGCGGAGAACGAGAGATTGAAAACTGAGAAGAGCCAGTTGGAGGGCGAAATCGATAGCTTGAAGACGGAGAAGGGTCAATTGGAGGCCGAAGTCGAGAAGCTGAAGGGAGAGAATGCCGGGCTGAGGGATGAGATTGAGAAGCTGCGAGGACAATTGCAATCGTTGAACGATGAACTGAATGCATTGAAGACGCAGCTTGAGGAGGCCGGAAAGAAAATTCAGTCACTGGAGTCATCGGTCTCGAGTCTTCAAGGTGAAAATGAGAAATTTCAAAATGATTTGAGCTCTCTGCAGAACGAGATAAACAATTTGAGAGCACAATTGGAGCAGGAAGCCGCTGATAATATAAAGTTGAGGAACGATCTCAAGGTGCTCGAGGACCAGGTGCAAGATCTGACCAAGCAGGTCGAAAATGCCAGGACAGAAAACGAGGCCTTGAAGTCGGAGATTCAAGGGGTTAGAGGTGAAGGTGACGGTTTGGCGGCCGAATTGAACGCTCTGCGGGATGAAAAGTCCGCTTTGACGGGCGAGAGGGATCGATTGAAAGAACAACTAAGCGAATGCAACGCGGAAATCGAGAGATTGAAAACAGAGAAGGACCAATTGGAAGCCGAAGTCGACAGACTGAAGGGAGAGTTAAATACCTCCAAAGAAGAAAATGGCAGGCTGAAGGATGAAATGGAAAAACTGCGAGGAGAATTGCAGTCATTGAACGATGAAATAAATGCATTGAAGGCGCAGCTTGAGGAGGCCAGAAACAAAATTCAGTCACTGGAGTCAACGGTCTCGGGCCTTCAAGGTGAAAATGAGAAGTTTCGAAATGATTTGAGCACTCTGCAGGGCGAGGTACAAAATTTGAAAGCGCAATTGGAGAAGGAAGCTGGCGATAATCTGAAGTTGAGAAACGATCTGAAGCAACTGGAGGACCAAGTGCAAGATTTTGCCAAGCAATTGCAAAATTCCAAGGCGGAAAACGAGGCCTTGAAGTCGGAGATTCAAGGGGTCAGGGGCGAAGGTGACGGTTTGGCGGTAGAATTGAACGCTCTAAGGGATGAAAATTCGGCTCTGAAGGATGAGAGAGATCGATTGAGGAACCAATTTAACGAGTCCCATGCGGAGAACGAGAGGCTGAAAGCTGAGAAGGACCAATTGGAGGCTGAAATCGAGAGACTGAAGGGTGAATTAAATACTTGCAAAGAAGAAAATGGCAGGCTGAAAGACGAAATTGAACAACTGCGGGGACAATTGCAGTCCTTGAACGATGAAATTAGTGGATTGAAGACGCAGCTGGAGGAGGCCAGGGACAAAATTCAGACACTGGAGTCAACGGTCTCGAGTCTTCAAGGTGAAAATGAGAATTTTCGAAATGATTTGAGCTCTCTGCAGACCGAGCTAAAGAATTCGAGAGCGCAATCGGACAGGGAAGCCGATGAAAATCTGAAGTTGAAGAATGATCTGAAGATGCTGGAGGACCAGGTGAAGGATTTGATCAAGAAATTGGAAAATGCCAGGGCAGAAAACGACGCCTTGAAGGAGGAAAATCAAAATTTGAAAGCACAGGTGAACGACATGAATCAAGAATTAGCCAGTTTAAGAACAGAGTGCGCGGACCTGAAGTCAGAGATCGCGGATTTGAAAAAGTCAATCGAAGAATTGAAAGCAAAGATTGGTAAACTGGAGGAAGATTTGGAGTACTGGAAATTGGAGAACTGTAAATTTCAGATGGAGGTGGACAAAGTGAAAGCTGAACTTCAGAAAGCTCTGAAGGAGTTGAGTGAAGCTCAGTCTCTGAATCAGCAGCTGGAGGTAGAGGTGAATCGTCTCAAGGGCGAGAAGGCCGAGCTTGAGAAAAAACTTGCAGACGCAATGACACAGCTCGAGCAACTGAAGAAAACACTCGAAGCGGAAAAATCGGCGAAAGATAAGGCCGAGTCACAAGTCGCGGCCCTAAGGGCGGAACTCGATGCATTGAAAGCGGAACTAGAAAAGCTGAGGGCCGAGAACAGCAAGTGCAAAGGTGAGCTGGACGATCTCGCAAAACTGTTGTCAGCCACGAAGAACGAACTTGACGCGTGCAAACAAGAGTTGTTCGCATTGAGGGAGGCAAACAACGCTCTGAAGTCGGATTTCGATGCGTTGAAAGGCATAAAGGACGAGCACAACAAATTAAAGGCGGACGTGGATGCAATAAAAGCGGAGAACGCGAATCTTCAACAAGAGAGACAAAGACTGCAAGACGAGTACGCCAAGTTGAAAGCGGAGGCCGATGGTCAAAAGCTGGAGCTGGACAAACTGCGATCGGACTTGGCTTCGGAGAGGGCAGCCGCAGAAAAGCTGAGAACAGATCTGCAGAACCGGCAAGCTGAAAACGCCAAGCTGCAGTCAGAACTGAACGAACTGAAGACTGAATTGGACAGATTGAAAAACGAGAGCGCCAGCTTGAGAAACGAAATGAACGAGGTGAAGAAAGCGCTCGAAGCCAAGATCAAGTCCTTGGAGGATCAACTATCGAACCTTCTGGCCGAGAAGGAGGAGCTGCTGAAGGAACTGGATCGTCTGCGCGACGAGGTGGCCAGTCTGAAAAACGAAATCGAGAAACAGAAAGCCGCCAAGGAAGCAGCCTTGAGCGAACTGGCGGGTCTGAAGAAGGAGCTGGCCGACCTAGAAAATGTCTTGGCCGGCCTCAGAGCCACGCTGGACAAGGCTAACAGTGAAAATGAAGCGCTGCGCAAGGACAACGAGAAGATGAAAGCAGACCTGGCGAACGCGAGCAAAGATCTGGAAGCACTTAGAAACCAGAACTCGCTGTTGGCGGCTGACTTAGCTGGGGCGAAGGAGAAATTAACAGACTTGGAGAAACAGTTCGAAGACTTGAAGAAGGAGAACGGCGATCTGAAGTACAAAGCCGCCCGCCTCGATGACACGTTGGCAGACCTAGAAGCTTTGAAGAAACAATTGGACGGTGCTAATGCGGAGCTGGATAAGCTGCAGTCAGGATTGGATAGATTGAATTCGGAAAATGCAAAACTGCGGGACGATTTCAATAGGGCGACGGACGAGGCGAATAAGTTGAAGGACAGTTTGGATAAACTGCGAAACGAATACACCGGGCTGCAGGATGAATTATCTAAGGCGCAGGATGAATTATCTAAGACGCAGAATGATTTGTCTAAGCTGCAGGACGAAGCTGCGAAGCAGAAGGCGTTTGGAGCATCGCAAGTTGGAGACCTGAATAAATTGCAGGAGGAAAATAACGATCTGCGGGATCAAATCGCGAAGCTGAAGAGTCAGTTGCACGATTGCCGCGAGGAGAGCGATGGGCTGCACAAGGAACTGGGAAATTTGCAGAGGAAGAATGCCAAGCTGATGGAGGCAGCAGAGAGGCCGATGGAGCCAAAGGAGACGGAAATGGACAAAGATATTCTGGATGAATGCGGCGACTTCATTAAGGCGAACGAATTACTGGGGGACAAGTTTGAAAAGCAGAACGAAGGCGTTCAACGTGTTCGAGATTACATATCATATTTGGAAGGCAAAGCCGAGGAGCCCAAAATGGCTGATCATTTAGAAGAATCGCATATTGAACCGCAATTAAGGGAAGACATTGCTGACTTGTTGAAGAAATCTCAGGCGTTATCGAAATCTATTTATGAAACGGAGCAGACAATACAAAATCTCACTGACATCCTGAAAAAACCTGCGGAGGCCGTGGCTCCAGGAGCCTTCGATCCCGATTCTTGGCTGAGTGCGCTGACGTTGACGCAGTTAGCGGAGCTTCACGATAAGATTTGCCTGTTGACATCGGACATGGTGCAGCAGGATAGCAAAGCGGTGCCATGCAGGTCAGCCCCCGGGCCAGCGAATCCGCAAGCGGATTACAATGTTTTGAACAAGCGGATAGCCGCTTTGCAGAAACAGATAGCTGAGAAGCAAATGGAGGCAGCGTGGAAGATGCAGGAATTGAAGCGGTCTCTTCGAATGGAGCAGGCTAACCTAATTGAAATCTCCGACTATATGAATTTGGAGAGAAAACGAAACTTGGCCCTTCAGTTCACCATTGATGAATCACCATAG
Protein Sequence: MEVCRCGCASSTSLESFNPPNEPCCCCSYNPFSDNSKESEIYDLSFALRKLGVMKCQMKKWRMERLQLESENRSLKQTLQSFGVNADEILKPDPLLVHSREEIERLQNANASLEDKVRDLEEILAERDCCDDPDATIHFLREKMRHLRERFALEKKDMRDIISNLKLKLTQTEEDVSCPAIYRLRAKLRDLMKGQTTLGENDHLLAEIDELRRGLGGREKREVVETRAMETATVPEYADVSDLLKKLNDCEDVVGDLERKLEEKDDKIADLLNRLKQFDVMQAELEDLKRKLAERESENGKLKADYDHRTSNLQLQHDGRTSMLQIQMDELSAEIMGLNQTIGTLNKNIDDLNQEIADLKSRIADLETQLEQCNKRNAELEECCQDRDSVLERNGALEQEHASAMARIQDLEAEVDALKAQIEALTGQLENEKTARSSLEKELEDSRGEIESLRKENTDLKGQIDAANAENDELRDALRKLSEEDEQLKAQIEQLQNNMKDLEDLNSALRGDYDNMKQALDNLEAEINRLEEELRRAADERQALLNEIDSTRKQLEDSLAANETLKAELDEAGEQLGKLRAEKDELQKSVDALRHENDSFKRDMRALREDLDDARRQVDELKASGDGLRAADDDKMSEIERLTQEVEGLMSEKDRLTSENADLKGENAELGRKLEDAVKELEQLRAENADLRAEVDRLRQELETARGELDQLKSEMAAVKDALDKCVDELEKLKGENSDLKSLNEALKTEIQGVRGEGDGLAVELNSLKGERDQLKDQLSERNAENERLKTEKSQLEGEIDSLKTEKGQLEAEVEKLKGENAGLRDEIEKLRGQLQSLNDELNALKTQLEEAGKKIQSLESSVSSLQGENEKFQNDLSSLQNEINNLRAQLEQEAADNIKLRNDLKVLEDQVQDLTKQVENARTENEALKSEIQGVRGEGDGLAAELNALRDEKSALTGERDRLKEQLSECNAEIERLKTEKDQLEAEVDRLKGELNTSKEENGRLKDEMEKLRGELQSLNDEINALKAQLEEARNKIQSLESTVSGLQGENEKFRNDLSTLQGEVQNLKAQLEKEAGDNLKLRNDLKQLEDQVQDFAKQLQNSKAENEALKSEIQGVRGEGDGLAVELNALRDENSALKDERDRLRNQFNESHAENERLKAEKDQLEAEIERLKGELNTCKEENGRLKDEIEQLRGQLQSLNDEISGLKTQLEEARDKIQTLESTVSSLQGENENFRNDLSSLQTELKNSRAQSDREADENLKLKNDLKMLEDQVKDLIKKLENARAENDALKEENQNLKAQVNDMNQELASLRTECADLKSEIADLKKSIEELKAKIGKLEEDLEYWKLENCKFQMEVDKVKAELQKALKELSEAQSLNQQLEVEVNRLKGEKAELEKKLADAMTQLEQLKKTLEAEKSAKDKAESQVAALRAELDALKAELEKLRAENSKCKGELDDLAKLLSATKNELDACKQELFALREANNALKSDFDALKGIKDEHNKLKADVDAIKAENANLQQERQRLQDEYAKLKAEADGQKLELDKLRSDLASERAAAEKLRTDLQNRQAENAKLQSELNELKTELDRLKNESASLRNEMNEVKKALEAKIKSLEDQLSNLLAEKEELLKELDRLRDEVASLKNEIEKQKAAKEAALSELAGLKKELADLENVLAGLRATLDKANSENEALRKDNEKMKADLANASKDLEALRNQNSLLAADLAGAKEKLTDLEKQFEDLKKENGDLKYKAARLDDTLADLEALKKQLDGANAELDKLQSGLDRLNSENAKLRDDFNRATDEANKLKDSLDKLRNEYTGLQDELSKAQDELSKTQNDLSKLQDEAAKQKAFGASQVGDLNKLQEENNDLRDQIAKLKSQLHDCREESDGLHKELGNLQRKNAKLMEAAERPMEPKETEMDKDILDECGDFIKANELLGDKFEKQNEGVQRVRDYISYLEGKAEEPKMADHLEESHIEPQLREDIADLLKKSQALSKSIYETEQTIQNLTDILKKPAEAVAPGAFDPDSWLSALTLTQLAELHDKICLLTSDMVQQDSKAVPCRSAPGPANPQADYNVLNKRIAALQKQIAEKQMEAAWKMQELKRSLRMEQANLIEISDYMNLERKRNLALQFTIDESP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01067355;
90% Identity: iTF_01065989;
80% Identity: -