Basic Information

Insect: Bombus consobrinus
Gene Symbol: -
Assembly: GCA_014737455.1
Location: JACXIU010000027.1:72302-86226[+]

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 0.14 1.2e+02 2.7 0.5 32 57 53 78 47 85 0.54

2 46 2.4 2e+03 -1.2 2.2 33 56 99 122 97 124 0.73

3 46 4.8 3.9e+03 -2.2 0.1 40 60 151 171 146 174 0.86

4 46 0.025 21 5.1 0.4 30 58 212 240 204 245 0.82

5 46 0.61 5e+02 0.7 2.2 28 63 265 300 263 302 0.87

6 46 4.6 3.8e+03 -2.1 3.9 28 63 283 320 275 326 0.71

7 46 0.0048 3.9 7.4 5.3 29 63 345 379 343 381 0.87

8 46 0.051 42 4.1 8.7 24 64 400 440 388 441 0.93

9 46 0.001 0.82 9.6 0.3 24 56 466 498 464 506 0.82

10 46 0.052 43 4.1 2.5 22 57 520 555 512 559 0.91

11 46 0.0031 2.5 8.0 4.8 20 64 560 604 555 605 0.93

12 46 0.024 20 5.1 7.9 24 64 599 639 596 647 0.86

13 46 0.098 80 3.2 7.0 21 64 659 702 656 703 0.90

14 46 0.00092 0.75 9.7 5.3 25 65 719 759 709 759 0.84

15 46 0.0078 6.4 6.7 3.1 23 61 755 793 753 805 0.83

16 46 0.1 86 3.1 0.1 40 63 807 830 794 832 0.76

17 46 0.012 9.7 6.2 1.2 28 59 827 858 826 865 0.89

18 46 2.3e-05 0.019 14.9 3.8 25 65 869 909 858 909 0.78

19 46 0.092 76 3.3 3.3 33 62 905 934 903 955 0.61

20 46 0.016 13 5.7 6.7 24 58 942 979 939 986 0.79

21 46 0.0022 1.8 8.5 1.8 36 58 957 979 956 1007 0.69

22 46 0.1 84 3.2 0.0 37 64 1007 1034 1002 1035 0.86

23 46 0.0051 4.1 7.3 2.0 28 63 1026 1061 1015 1063 0.80

24 46 7.1e-05 0.058 13.3 3.7 32 64 1065 1097 1057 1098 0.87

25 46 0.00027 0.23 11.4 5.8 26 63 1073 1110 1067 1116 0.75

26 46 0.0018 1.5 8.7 0.6 21 63 1117 1159 1108 1161 0.92

27 46 0.012 9.7 6.2 3.1 26 56 1178 1208 1160 1217 0.69

28 46 0.0041 3.4 7.6 2.4 24 64 1204 1244 1203 1259 0.78

29 46 0.082 68 3.5 4.7 24 64 1272 1314 1269 1315 0.85

30 46 0.08 66 3.5 6.6 22 60 1304 1352 1303 1364 0.62

31 46 0.0063 5.1 7.0 4.4 18 62 1324 1368 1320 1377 0.76

32 46 0.02 17 5.4 1.0 22 64 1356 1398 1354 1399 0.92

33 46 0.15 1.3e+02 2.6 0.8 24 58 1403 1437 1400 1441 0.61

34 46 0.14 1.1e+02 2.7 0.6 24 63 1417 1456 1414 1458 0.92

35 46 0.0098 8 6.4 7.5 28 60 1463 1495 1457 1514 0.69

36 46 0.12 99 2.9 5.7 25 62 1516 1553 1514 1556 0.82

37 46 1.6 1.3e+03 -0.7 12.4 26 64 1573 1611 1543 1612 0.82

38 46 0.00044 0.36 10.7 6.1 30 62 1612 1644 1608 1653 0.61

39 46 0.0034 2.8 7.9 6.4 28 61 1652 1685 1647 1690 0.84

40 46 0.39 3.2e+02 1.3 5.9 28 55 1690 1717 1683 1727 0.56

41 46 0.082 67 3.5 0.6 32 56 1729 1753 1720 1755 0.84

42 46 5e-06 0.0041 17.0 5.2 20 65 1752 1797 1752 1797 0.95

43 46 0.015 12 5.8 1.1 31 60 1812 1841 1798 1844 0.77

44 46 0.00015 0.12 12.3 6.6 21 55 1844 1878 1842 1881 0.94

45 46 0.0099 8.1 6.4 7.6 28 60 1872 1904 1871 1908 0.92

46 46 5.7 4.6e+03 -2.4 0.3 37 49 2090 2102 2068 2113 0.57

#	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	0.14	1.2e+02	2.7	0.5	32	57	53	78	47	85	0.54
2	46	2.4	2e+03	-1.2	2.2	33	56	99	122	97	124	0.73
3	46	4.8	3.9e+03	-2.2	0.1	40	60	151	171	146	174	0.86
4	46	0.025	21	5.1	0.4	30	58	212	240	204	245	0.82
5	46	0.61	5e+02	0.7	2.2	28	63	265	300	263	302	0.87
6	46	4.6	3.8e+03	-2.1	3.9	28	63	283	320	275	326	0.71
7	46	0.0048	3.9	7.4	5.3	29	63	345	379	343	381	0.87
8	46	0.051	42	4.1	8.7	24	64	400	440	388	441	0.93
9	46	0.001	0.82	9.6	0.3	24	56	466	498	464	506	0.82
10	46	0.052	43	4.1	2.5	22	57	520	555	512	559	0.91
11	46	0.0031	2.5	8.0	4.8	20	64	560	604	555	605	0.93
12	46	0.024	20	5.1	7.9	24	64	599	639	596	647	0.86
13	46	0.098	80	3.2	7.0	21	64	659	702	656	703	0.90
14	46	0.00092	0.75	9.7	5.3	25	65	719	759	709	759	0.84
15	46	0.0078	6.4	6.7	3.1	23	61	755	793	753	805	0.83
16	46	0.1	86	3.1	0.1	40	63	807	830	794	832	0.76
17	46	0.012	9.7	6.2	1.2	28	59	827	858	826	865	0.89
18	46	2.3e-05	0.019	14.9	3.8	25	65	869	909	858	909	0.78
19	46	0.092	76	3.3	3.3	33	62	905	934	903	955	0.61
20	46	0.016	13	5.7	6.7	24	58	942	979	939	986	0.79
21	46	0.0022	1.8	8.5	1.8	36	58	957	979	956	1007	0.69
22	46	0.1	84	3.2	0.0	37	64	1007	1034	1002	1035	0.86
23	46	0.0051	4.1	7.3	2.0	28	63	1026	1061	1015	1063	0.80
24	46	7.1e-05	0.058	13.3	3.7	32	64	1065	1097	1057	1098	0.87
25	46	0.00027	0.23	11.4	5.8	26	63	1073	1110	1067	1116	0.75
26	46	0.0018	1.5	8.7	0.6	21	63	1117	1159	1108	1161	0.92
27	46	0.012	9.7	6.2	3.1	26	56	1178	1208	1160	1217	0.69
28	46	0.0041	3.4	7.6	2.4	24	64	1204	1244	1203	1259	0.78
29	46	0.082	68	3.5	4.7	24	64	1272	1314	1269	1315	0.85
30	46	0.08	66	3.5	6.6	22	60	1304	1352	1303	1364	0.62
31	46	0.0063	5.1	7.0	4.4	18	62	1324	1368	1320	1377	0.76
32	46	0.02	17	5.4	1.0	22	64	1356	1398	1354	1399	0.92
33	46	0.15	1.3e+02	2.6	0.8	24	58	1403	1437	1400	1441	0.61
34	46	0.14	1.1e+02	2.7	0.6	24	63	1417	1456	1414	1458	0.92
35	46	0.0098	8	6.4	7.5	28	60	1463	1495	1457	1514	0.69
36	46	0.12	99	2.9	5.7	25	62	1516	1553	1514	1556	0.82
37	46	1.6	1.3e+03	-0.7	12.4	26	64	1573	1611	1543	1612	0.82
38	46	0.00044	0.36	10.7	6.1	30	62	1612	1644	1608	1653	0.61
39	46	0.0034	2.8	7.9	6.4	28	61	1652	1685	1647	1690	0.84
40	46	0.39	3.2e+02	1.3	5.9	28	55	1690	1717	1683	1727	0.56
41	46	0.082	67	3.5	0.6	32	56	1729	1753	1720	1755	0.84
42	46	5e-06	0.0041	17.0	5.2	20	65	1752	1797	1752	1797	0.95
43	46	0.015	12	5.8	1.1	31	60	1812	1841	1798	1844	0.77
44	46	0.00015	0.12	12.3	6.6	21	55	1844	1878	1842	1881	0.94
45	46	0.0099	8.1	6.4	7.6	28	60	1872	1904	1871	1908	0.92
46	46	5.7	4.6e+03	-2.4	0.3	37	49	2090	2102	2068	2113	0.57

Sequence Information

Coding Sequence: ATGGAGGTTTGCCGGTGTGGATGCGAGGCATCGTCGCAAGAATTGATCGATCCACCGCACGAGCCGTGCTGTTGCTGCAGTTACGATCCATTCAGCGACAAAGAAGCAGAAATCTACGACCTCTCGTTTGCCCTGAAGAAGCTCACTGTAATGAAGTGTCAGATGAAAAAGTGGCGAATGGAAAGACTTCAACTCGAGAGCGAAAATAGGTCTCTGAAACAAGCCCTCCAATCATTCGGTGTAAATGCCGATGAGATATTGAAGCCCGATCCGCTACTAGTGCACTCCCGAGAAGAAATCGAAAGGCTGCAAAATGCAAACGCGGTGCTGCAAGATAAAGCGAGGGATCTTGAGGAAACTCTCGCCGAGCGAGATTGCTGTGACGATCCTGACGCCACGGTCCACTTTCTCAGAGAGAAGATAAGATATCTTAGAGAGGGTTTCGCGCTTGAAAAGAAAGAATTGCGAGACATGATATCGGATTTGCGGTTGAAGCTGGCGCAGACCGAGGAGGACATCAGCTGCCCCGCAATATATCGTTTAAGAGCAAAGCTGCGTGATCTTATGAAAGGTGAAGCTGCTGAACAACAGATTTCCAAAGTTGTGGAGAAATCGATCGAAACCTTGGTGGACCTTTCTAAGAGCTGCGATGATCTGCGTTTGGAAAACGAACGTCTTCTTGCTCAAGTGACAGATTTGCGCAGTGCATTGGTTGATCTCGAAGGAAAGGAAACGCCAGAAACGATATTGCAAACAGCCGAAACAACCACAGTGCCGGAGTATATTGACATTTCAGATTTATTGGATAAGCTGAACAACTGCGAGGATACCGTGGCTGATCTAAGAAAGCAGTTAGAACAAAGAGACGAGCAGATCGATGCACTGAACAAAGAACTGGAATCGATGATCAGTCAAAAAGGTTTAGAGGAACAGATAGAAGCCATGAAAGAGGAACTTAGGAGGAAAGATGACAAGATCGCAGGACTCCTGAATAATCTAAGACAATCAGAAATAGACTTGTTGGGGTTATCTTCTCTGAAATCCGAAGTGGAGAACCTGAAATCAGAGTTATATGATCTTAAATCAGAGAGAACTGAATTACTGAACGAACTAAATAAACTGCGAGAAGCACTGAAGGATAGAGACGATCAGATAATAGATTTACTGCAGCAGAAGAACAACTTGGAGAAGGAGCACAAGAATAAGACGGCAGAATTACAGTCAACACTCGATGAGGCAAATGACGAGATCGATAATTTGAAAGCTGAGATAACCAAACTGAAGAATGAGTTGGAAGAGTGTAAGAAGATGAACGCGAAGCTGGAACAGTGCTGTCTGGATAACAACGCACTTACGGAAAAGCTACACGGCTTCGAAGAGGACCTTGCAGCCGCGAAAGCGATAATAGCGAATCTCGAAAGTGAGGTGGACACTTTAAGGCGAGACAAGGAAAATTTGTCGAACGAACTGGACGAGGCAAGGAAACAAGTCGAGGTGTTCATTGGACGACTGGAGGATGAAAGGGCGGCCAGGGCCGCATTGGAGAAGGAACTGGAGAGAAACCGAGATGAGATTGAATTGTTACAGAGGCAGATTTTCGATCTGAAAGATCAGATCGATGCCGAAAGGAAGGAGAACGACGAACTTCGCGAAACGTTAGAAGCATCGGCTGGCGAGAGGGAAAAGTTGAAGGCTCGGTTAGGGCAGCTGGAGAACGAGAACGATGATCTGATGGAAAGGATGAAGGAGCTAGACAATTTGAATAACCAACTAAGGAACGACTACGATAGTATGAAGCAGGCTTTGAACAATTTGCAAGCAGAGATCAACAAACTGGAGGATGAATTGGCCAAGGCGAAGCAAGAACGCGATGCGTTGTTGAACGAGAATAACGGTATCAAAAAGCAGCTGGAACAAGAGATGGCGGAGAACGAGACTCTGAGAGCCAAATTGGACGAATCTGGTAAAGAACTTAATAAACTGAAACTACAGAAGGACGAACTACAGAAGAACCTCGATGAGATCAATCTCGAGAACGATTCACTGAAACGAGATATGAAAGCGTTAAGGGATGACCTTGAGGATTCCAGAAGGCAAGCGGAGGAACTAAAAGCCGCTGGTGACGCGTTAAAAGCAACGGATAAGGATAAGGTGCTTGAACTTGCAAAGCTGCAAGAACAAGTAGAGAACTGCAAGTTCGAAAAGAATCGCTTAACGAAGGAAAATGATGATTTGAAATCTAAAATAATAGAATTACAAGGAAAGTTGGAGGAGTTGGACAAGTTAAAGGGAAGAAACACAGATTTAATGGCTGAAGTAGATCGTTTGAGAAAAGAATTAGAAAAAGCGTTGGAGAACATTGATCAATTGAAATCGGAAATAGGTTCCTTGAAGGATGGACTCGATAATTGTGTGGGCGAGATGCAAAAGTTGAGAATCGAAAATGGTGACCTCAAAAAGCAGAACGAAACCTTCAAGTCTGAGATGCAAGCAATTACCGATCGCTTAATAAAAGACAATGACGATTTAAAAGCAAAAATCTCAGAATTGGAAGAAAAGTTAAGTGAATTGGATAAAATGAAACTAGAAAATGTTGATTTGCTTGATGAAGTAGATCGTTTGAAACAGGAATTGGCAAAAGCTTGGGAAGAAGTTGATCGATTGAAATCCGAAGTAGCGTCTCTGAAAAACGCACTCGATAAGTGCGTGAATGAGATGGAAAAGCTGAGAACTGAAAGCGACCAGCTTAAATTGGAGAATCAAGCTTTCAAGTCTGATATTCATGGACTTGATGATCGCTTAGCGAAGGAAATCGCCAATTTGAAAACAAAAAACGCGGAATTGGAAGAAAAATTAGTGGCATTCGATAAATTGAAGTCGGAAAATGAGGATTTACTTGGTGAAGTCGATCGTTTGAGACGTGAATTGGAAAAAGCCTTAAAAGATATCGATCAATTGAAATCTGAGATAGGTTCTTTGAAAAACGGACTGGATAAATGTGTTGGCGAGATGGATCTGCTGAGAACTGAAAACAGCGGTTTGAAGTCTGAAATTCAGGGAATGAGGGGCGAAGGGGACAGTTTGTCGGTGGAGTTAAATAATCTGAAGAATGAGAATTCTCTTTTGAAAGACGAAAGAGATCGATTGAGCAAGCAATTGAGCGACTGTAAGATGGAAAACGAAAAATTCAGAGTGGAGAAGGCTCACCTGGAAACTGAAAATGAGAAGCTGGAAGGAGAGATAAACTCGTGCAAGGAAGAGAATGACAAATTAAAAGATGAACTTGGAAAATTACGAGAACAATTGCAGTCATCAAATGACGAATTGAATAGATTAAAGGCTAATCTCGACAAAGCTGAGGACAAAATTCGGTCTCTGGAGCCGCTGATCTCCCGTTTGCATAGCGAAAATGATAAATTGCGGGGCGATTTGACGAGTTTGAAGAATGAGGCTAACGATTTCAAAGCAAAATTGGCTAGAGAAACGGCTGACAATGAAAAGATGCAGAACGATCTGAAGATACTGGAGGATCAGGTGCACGATCTAAGTAAGAACCTGGTCAATGCTAGGGCAGAAAATGACACTTTGAAACAGGAAAATCAAGGTCTAAAAGCCAAGTTATTAAATATGGATCATGATCTATCGAATTTGAGAGAGGAATGTGCGGATCTGAAACGTGAGATTGCTGATCTGAAGAAATTAATCGATGAATTAAAAGAAAAAATTGCTAAACTGGAAGCAGACATAGATCATTGGAAAATGGAGAACTGCAAACTTCAGTTGGACATTGATAAATCGAAAGCTGATCTTGAGAAAGCCTTGAAAGATTTGCTCGAATGCCAGGCTTCGAAGAAAGTACTAGAAGCAGAGATGTACCGCCTCAAGATTGAGAAAGGCGAGCTTGACAAGAAGCTTGTCGAATTATCGTCTCAACTCGAGCAACAGGAAAAAGCATTCGAAGCAGAAAAATCGGCTAGAAATAAGGGTGATTCAGAAATCGCGGCCTTAAAGGAGGAACTGGATGCCTTGAAAAAGGAACTAGGAAAATTGAGAGCTGACAACAACAGATACAGAAATGAAATAGACGAACTAGGAAGACAGCTTGCGGTAACAAAAAATGAACTAGAGAAGTGCAAAGAAGAGGTTTCTGTATTAAGAGATGCCAATAACGCGCTAAAGTTTCAATTGGATCCCTTGAAGAGTTTAAAGGACGAATATAATAAGTTGAAAGCTGATTTAGATTCTCTTAAAGAGGAAAACGTAAACCTTCTGCAAGATAGGAAAAATTTCGAAGATGAGTATACTAGGCTGAAAGGAGAAGGCGATGGACAGAAAGCAGAGATCGATAGATTGAGAGCAAACTTGAATGCAGAAGAGGCAGCTGCGGAAAAATTGAGGGCAGATCTTCAAAATTGCCAAACTGAGAACGATAGACTGCAAAAGCAATTAAACGAAATGAAAAATGAGTTGGATGAACTAACAAAGGGGAACAATCGTATAAAGAATGAGATCGATAAGCTGAAGAAGACGCTCGCGGACGCGGAAGCAAAGATAAAGTTGCTGGAAAGTGAACTATCCGATTTGTTAGCCGAGAAAAAAGAATTGGTCAACGAACTCTATCGTTTCCGCGAACAGCTAAACAATCGTACAAACGAGCTAGAAGAGCAGATGGCCGCAAAAGATGCGGCCAAGAAGGAATTGGCCGACATGAAGGATGAGCTGACCGCTCTAAAAGCGGCGTTGGATAAGGTTCGAAGCGAAAACGATAAGCTGAGAAACGAGAACAAAAAGCTGAATGTGGAATTAACCAAGTTGAACGGGCAATTAGAAACTCTGAAAGACGATAATGCGAAGCTGGAAAACGAAAACGCGAACCTGAAGAACGAAAACGCGAATCTAAAGAATGACAATGCGAAATTGGTGGCGGAGTTAACTGGAACGAAAAACAAATTGGCAGAAGCGGAGAAACAGCTGAACGATTTAGAGAAAGAAAACGACGACTTGAATAACAAAATAGCCGATCTCGAGAACACAGTGAACGAGCTCGAAACATTGAAGAAACAATTAGAAGGTGCTAAAAAAGAACTGGATAGGCTGAGGCCAGAGCTAGATAAATTGAAATCAGAGAATGCAGAACTGCAAAACAATTTAAATAACGCCATAGAGGAATCGAATAGGGTAAGAAATGATTTGGACAAATTAAAAAGCGATTACGACAAATTGAAGTCTGAATTAGCTGACCTGAAGGAGGAGAGAGATAGTCAGAAAGAACGGAACGCAGAATTGGAAAAAGAATTAGCCAAAATGAAGAAAGAGAATGCGAGTCTCAAGGGCGAATTAGCCGATTGTCAAGCGAAGAACGAAGGATTACGTAATGCATTGACAGATTTGAAATCGCAAAATACAAAACTGCAGGACGATTTAAACAAGGCGAAGAACGAAGCGAATAAATTAAAAGCCGATTTGGATAAATTGAAAAGCGATTATGGTGAACTGCGGTCGGAATTAGGTAAACTAAGGGATGAGAAGAATAGGCGCAAAGAACGCGATACTGCGTTAGCCACGGATCTGGATAAATTGAAGAAAGAGAATGACGAGTTAAAAGATGAGAATGAGAAACTGAAAAGCCAGTTATTCGATTGCCAAGAGGAGAGGCAAAGGCTACGCAAGGAATTGGGAAAGCTGAAAACAGAAAATGCAAAATTGAAAGAAGTGAAAAAGGTGGAGCCCAAGGAAACGGAGATGGACAAAGATATTTTTGATGACTGCGGTGATTTCATAAAGGCGAATGAATTACTGGGGAAGAAATTCAAAAAACAGAATGAAGGTGTGCTGCGCATTCGGAATTATATTAGATATTTGGAAGGTAAAGCTACAGAACCGAAAATGGCCGACAGGCCGGAAGAAGAACCAGAAATTGATCCAGTATTAAGGAAAGACATTGCAGATTTGTTGAAGAAATCTTATGATTTATCTAATGATATCTATCAAACGGAACAGGAAATAAAAAATCTTGGAGCTAAACCTGGCGAGGGCATTTTCGATCCTGACAGCTGGCTAAACTCGTTGACATTGACACAGTTAGCTGAGCTTCACGATAAGATTTGCCAGTTGACATTGGACATGGTGCACCAGGATAGCAGAGCAGTGCCGTGCGATGGTTATGAACCAGCGACTCCGTCAAAGGCGGATTATAATATTTTGAACCAGCGTATAGCTGCTTTGCAGAAACAGATAGCGGTGAAGCAAATGGAGGCAGGCTGGAAACTTCAGGAACTGAGGAGGACTCTTCAAAACGAGCGGGCTAACTTAATTCGAATCTCCGATCAGATGAACTTTGAGAGAAAACGCAATTTGAACCTTCAGCATAGCATGGATGATTCACCGTAA
Protein Sequence: MEVCRCGCEASSQELIDPPHEPCCCCSYDPFSDKEAEIYDLSFALKKLTVMKCQMKKWRMERLQLESENRSLKQALQSFGVNADEILKPDPLLVHSREEIERLQNANAVLQDKARDLEETLAERDCCDDPDATVHFLREKIRYLREGFALEKKELRDMISDLRLKLAQTEEDISCPAIYRLRAKLRDLMKGEAAEQQISKVVEKSIETLVDLSKSCDDLRLENERLLAQVTDLRSALVDLEGKETPETILQTAETTTVPEYIDISDLLDKLNNCEDTVADLRKQLEQRDEQIDALNKELESMISQKGLEEQIEAMKEELRRKDDKIAGLLNNLRQSEIDLLGLSSLKSEVENLKSELYDLKSERTELLNELNKLREALKDRDDQIIDLLQQKNNLEKEHKNKTAELQSTLDEANDEIDNLKAEITKLKNELEECKKMNAKLEQCCLDNNALTEKLHGFEEDLAAAKAIIANLESEVDTLRRDKENLSNELDEARKQVEVFIGRLEDERAARAALEKELERNRDEIELLQRQIFDLKDQIDAERKENDELRETLEASAGEREKLKARLGQLENENDDLMERMKELDNLNNQLRNDYDSMKQALNNLQAEINKLEDELAKAKQERDALLNENNGIKKQLEQEMAENETLRAKLDESGKELNKLKLQKDELQKNLDEINLENDSLKRDMKALRDDLEDSRRQAEELKAAGDALKATDKDKVLELAKLQEQVENCKFEKNRLTKENDDLKSKIIELQGKLEELDKLKGRNTDLMAEVDRLRKELEKALENIDQLKSEIGSLKDGLDNCVGEMQKLRIENGDLKKQNETFKSEMQAITDRLIKDNDDLKAKISELEEKLSELDKMKLENVDLLDEVDRLKQELAKAWEEVDRLKSEVASLKNALDKCVNEMEKLRTESDQLKLENQAFKSDIHGLDDRLAKEIANLKTKNAELEEKLVAFDKLKSENEDLLGEVDRLRRELEKALKDIDQLKSEIGSLKNGLDKCVGEMDLLRTENSGLKSEIQGMRGEGDSLSVELNNLKNENSLLKDERDRLSKQLSDCKMENEKFRVEKAHLETENEKLEGEINSCKEENDKLKDELGKLREQLQSSNDELNRLKANLDKAEDKIRSLEPLISRLHSENDKLRGDLTSLKNEANDFKAKLARETADNEKMQNDLKILEDQVHDLSKNLVNARAENDTLKQENQGLKAKLLNMDHDLSNLREECADLKREIADLKKLIDELKEKIAKLEADIDHWKMENCKLQLDIDKSKADLEKALKDLLECQASKKVLEAEMYRLKIEKGELDKKLVELSSQLEQQEKAFEAEKSARNKGDSEIAALKEELDALKKELGKLRADNNRYRNEIDELGRQLAVTKNELEKCKEEVSVLRDANNALKFQLDPLKSLKDEYNKLKADLDSLKEENVNLLQDRKNFEDEYTRLKGEGDGQKAEIDRLRANLNAEEAAAEKLRADLQNCQTENDRLQKQLNEMKNELDELTKGNNRIKNEIDKLKKTLADAEAKIKLLESELSDLLAEKKELVNELYRFREQLNNRTNELEEQMAAKDAAKKELADMKDELTALKAALDKVRSENDKLRNENKKLNVELTKLNGQLETLKDDNAKLENENANLKNENANLKNDNAKLVAELTGTKNKLAEAEKQLNDLEKENDDLNNKIADLENTVNELETLKKQLEGAKKELDRLRPELDKLKSENAELQNNLNNAIEESNRVRNDLDKLKSDYDKLKSELADLKEERDSQKERNAELEKELAKMKKENASLKGELADCQAKNEGLRNALTDLKSQNTKLQDDLNKAKNEANKLKADLDKLKSDYGELRSELGKLRDEKNRRKERDTALATDLDKLKKENDELKDENEKLKSQLFDCQEERQRLRKELGKLKTENAKLKEVKKVEPKETEMDKDIFDDCGDFIKANELLGKKFKKQNEGVLRIRNYIRYLEGKATEPKMADRPEEEPEIDPVLRKDIADLLKKSYDLSNDIYQTEQEIKNLGAKPGEGIFDPDSWLNSLTLTQLAELHDKICQLTLDMVHQDSRAVPCDGYEPATPSKADYNILNQRIAALQKQIAVKQMEAGWKLQELRRTLQNERANLIRISDQMNFERKRNLNLQHSMDDSP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00232996;
90% Identity: iTF_00229121; iTF_00224999; iTF_00221683; iTF_00228415; iTF_00222947; iTF_00223635; iTF_00224320; iTF_00231752; iTF_00214161; iTF_00232370; iTF_00226359; iTF_00222302; iTF_00231072; iTF_00215470;
80% Identity: -