Basic Information

Insect: Lasioglossum vierecki
Gene Symbol: -
Assembly: GCA_028455595.1
Location: CM052336.1:12127397-12136938[+]

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 1.5 1.2e+03 -0.2 0.1 26 50 44 68 39 75 0.67

2 45 1.4 1.2e+03 -0.2 0.8 33 55 89 111 86 114 0.66

3 45 0.9 7.4e+02 0.4 0.8 36 60 137 161 128 165 0.76

4 45 0.00041 0.34 11.2 1.3 30 59 203 232 196 236 0.90

5 45 6 4.9e+03 -2.2 3.5 28 63 259 294 257 296 0.90

6 45 0.0076 6.3 7.1 1.8 29 55 346 372 337 381 0.60

7 45 4.9 4e+03 -1.9 4.9 27 58 386 421 383 428 0.55

8 45 1.2 1e+03 0.0 2.7 33 62 434 463 425 466 0.84

9 45 5.1e-05 0.042 14.1 5.3 24 63 467 506 464 508 0.95

10 45 1.7 1.4e+03 -0.4 7.5 24 57 509 542 503 545 0.69

11 45 0.0028 2.3 8.5 7.5 26 64 532 570 530 571 0.89

12 45 0.064 53 4.1 7.5 21 60 569 608 568 613 0.94

13 45 1.5e-05 0.013 15.7 4.0 24 63 621 660 620 662 0.95

14 45 0.0047 3.9 7.7 8.6 23 63 648 688 647 696 0.95

15 45 0.13 1.1e+02 3.1 10.1 21 63 667 709 661 717 0.75

16 45 0.00053 0.43 10.8 1.6 33 61 714 742 711 746 0.80

17 45 0.009 7.4 6.8 1.0 22 64 745 787 743 788 0.91

18 45 0.078 64 3.8 7.9 21 61 772 812 758 816 0.86

19 45 0.0087 7.2 6.9 2.1 21 49 828 856 827 861 0.92

20 45 0.0023 1.9 8.7 8.6 27 62 856 891 854 893 0.91

21 45 0.00011 0.093 12.9 8.8 29 65 886 922 885 922 0.93

22 45 0.00078 0.65 10.2 2.3 28 56 913 941 912 950 0.87

23 45 0.044 36 4.6 2.9 36 56 921 941 920 978 0.78

24 45 0.00048 0.39 10.9 2.7 32 64 973 1005 962 1006 0.87

25 45 0.0001 0.082 13.1 4.1 25 64 980 1019 976 1024 0.91

26 45 0.031 25 5.1 2.3 24 64 1014 1054 1013 1059 0.93

27 45 0.0025 2 8.6 7.7 24 63 1063 1102 1062 1104 0.90

28 45 0.021 17 5.7 7.4 26 64 1107 1145 1102 1146 0.87

29 45 0.012 9.8 6.5 3.8 25 62 1148 1185 1145 1188 0.67

30 45 8.8e-06 0.0072 16.5 8.8 21 64 1172 1215 1168 1216 0.92

31 45 0.0007 0.58 10.4 7.3 21 59 1186 1224 1183 1228 0.62

32 45 0.0016 1.3 9.2 9.5 23 54 1244 1275 1242 1286 0.84

33 45 2.2e-06 0.0018 18.4 5.0 26 65 1292 1331 1289 1331 0.91

34 45 0.27 2.2e+02 2.1 0.9 35 64 1336 1365 1332 1366 0.81

35 45 1.1e-05 0.0094 16.1 15.1 22 64 1372 1414 1370 1415 0.95

36 45 0.013 10 6.4 8.1 24 61 1409 1446 1408 1450 0.90

37 45 0.011 9.3 6.5 8.1 28 63 1444 1479 1442 1481 0.94

38 45 0.0005 0.41 10.9 4.7 24 64 1489 1529 1481 1530 0.93

39 45 0.31 2.6e+02 1.9 5.2 28 60 1535 1567 1530 1570 0.78

40 45 0.48 3.9e+02 1.3 11.8 21 64 1549 1592 1542 1597 0.79

41 45 0.22 1.9e+02 2.4 3.8 21 54 1570 1603 1563 1606 0.63

42 45 2e-05 0.016 15.4 2.4 29 59 1610 1640 1605 1644 0.90

43 45 0.0081 6.7 7.0 2.0 30 61 1632 1663 1632 1666 0.92

44 45 2.6 2.2e+03 -1.1 0.1 29 60 1718 1749 1700 1753 0.70

45 45 3.3 2.7e+03 -1.4 1.2 36 51 1851 1866 1830 1874 0.64

#	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	1.5	1.2e+03	-0.2	0.1	26	50	44	68	39	75	0.67
2	45	1.4	1.2e+03	-0.2	0.8	33	55	89	111	86	114	0.66
3	45	0.9	7.4e+02	0.4	0.8	36	60	137	161	128	165	0.76
4	45	0.00041	0.34	11.2	1.3	30	59	203	232	196	236	0.90
5	45	6	4.9e+03	-2.2	3.5	28	63	259	294	257	296	0.90
6	45	0.0076	6.3	7.1	1.8	29	55	346	372	337	381	0.60
7	45	4.9	4e+03	-1.9	4.9	27	58	386	421	383	428	0.55
8	45	1.2	1e+03	0.0	2.7	33	62	434	463	425	466	0.84
9	45	5.1e-05	0.042	14.1	5.3	24	63	467	506	464	508	0.95
10	45	1.7	1.4e+03	-0.4	7.5	24	57	509	542	503	545	0.69
11	45	0.0028	2.3	8.5	7.5	26	64	532	570	530	571	0.89
12	45	0.064	53	4.1	7.5	21	60	569	608	568	613	0.94
13	45	1.5e-05	0.013	15.7	4.0	24	63	621	660	620	662	0.95
14	45	0.0047	3.9	7.7	8.6	23	63	648	688	647	696	0.95
15	45	0.13	1.1e+02	3.1	10.1	21	63	667	709	661	717	0.75
16	45	0.00053	0.43	10.8	1.6	33	61	714	742	711	746	0.80
17	45	0.009	7.4	6.8	1.0	22	64	745	787	743	788	0.91
18	45	0.078	64	3.8	7.9	21	61	772	812	758	816	0.86
19	45	0.0087	7.2	6.9	2.1	21	49	828	856	827	861	0.92
20	45	0.0023	1.9	8.7	8.6	27	62	856	891	854	893	0.91
21	45	0.00011	0.093	12.9	8.8	29	65	886	922	885	922	0.93
22	45	0.00078	0.65	10.2	2.3	28	56	913	941	912	950	0.87
23	45	0.044	36	4.6	2.9	36	56	921	941	920	978	0.78
24	45	0.00048	0.39	10.9	2.7	32	64	973	1005	962	1006	0.87
25	45	0.0001	0.082	13.1	4.1	25	64	980	1019	976	1024	0.91
26	45	0.031	25	5.1	2.3	24	64	1014	1054	1013	1059	0.93
27	45	0.0025	2	8.6	7.7	24	63	1063	1102	1062	1104	0.90
28	45	0.021	17	5.7	7.4	26	64	1107	1145	1102	1146	0.87
29	45	0.012	9.8	6.5	3.8	25	62	1148	1185	1145	1188	0.67
30	45	8.8e-06	0.0072	16.5	8.8	21	64	1172	1215	1168	1216	0.92
31	45	0.0007	0.58	10.4	7.3	21	59	1186	1224	1183	1228	0.62
32	45	0.0016	1.3	9.2	9.5	23	54	1244	1275	1242	1286	0.84
33	45	2.2e-06	0.0018	18.4	5.0	26	65	1292	1331	1289	1331	0.91
34	45	0.27	2.2e+02	2.1	0.9	35	64	1336	1365	1332	1366	0.81
35	45	1.1e-05	0.0094	16.1	15.1	22	64	1372	1414	1370	1415	0.95
36	45	0.013	10	6.4	8.1	24	61	1409	1446	1408	1450	0.90
37	45	0.011	9.3	6.5	8.1	28	63	1444	1479	1442	1481	0.94
38	45	0.0005	0.41	10.9	4.7	24	64	1489	1529	1481	1530	0.93
39	45	0.31	2.6e+02	1.9	5.2	28	60	1535	1567	1530	1570	0.78
40	45	0.48	3.9e+02	1.3	11.8	21	64	1549	1592	1542	1597	0.79
41	45	0.22	1.9e+02	2.4	3.8	21	54	1570	1603	1563	1606	0.63
42	45	2e-05	0.016	15.4	2.4	29	59	1610	1640	1605	1644	0.90
43	45	0.0081	6.7	7.0	2.0	30	61	1632	1663	1632	1666	0.92
44	45	2.6	2.2e+03	-1.1	0.1	29	60	1718	1749	1700	1753	0.70
45	45	3.3	2.7e+03	-1.4	1.2	36	51	1851	1866	1830	1874	0.64

Sequence Information

Coding Sequence: ATGGAATCGATGAATCCGCCGAACGAGCCGTGTTGTTGCTGCAGTTACAATCCCTTCAGCGACAATGCGAAAGAATCGGAGATTTACGACCTCTCGTTTGCCCTGAGGAAACTGGCCGTAATGAAGTGTCAAATGAAGAAATGGCGAATGGAACGACTTCAGTTCGAGAGCGAAAATAGGTCTTTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCTGATCCGCTGCTCGTGCAGTCCCGGGAAGAAATCGAATGGCTGCAAAATGCAAACGCGGCGCTCGAAGATAAAGTGAGGGATCTAGAAGAAACCCTCGCCGAACGAGATTGGAGCGACGATCCTTGTGCATCGGTACACTATATCAGGGAGAAGATGAGAGATCTGCGGGAGCGCTTTGCACTTGAAAAAAAAGAATTAAGGGACACGATATCGCACTTGAAATTAAAACTCGCGCAGACTGAGGAGGACGTGAGCTGTCCTGCGATATATCGCTTGAGGGCAAAGCTCCGCGAACTGATGAAAGGGGGTCAAACAGCGGACCAGCAGGTCTCGAAAGTCGTGGAGAGGTCGATTGAAACGTTGGTGGATCTGTCGAACAACTGCGACGATCTGCGTCTTGAAAACGAGCAGCTTTTGGCCCAGATAGCCGAGCTACGCCGTCAATTGGCGGAACTTGAAAAATTCCGACCGAAAGAACCGGTAGAAGACACACTACGATCAGCCGAGACAACGACGGTTCCTGAATACATAGACGTTTCCGACCTGCTGAAGAAACTCGAAGACTGCGAGCTTACTGTTTCCGAATTGAGACATCAATTAGACGAGAAGGATAAGCTTATCGAGGCGCTGAAGAAACAACTTGAAAACATGGTAGATCAGGAGGCTTTGTTGGATGAGATCGCTGCCATGAAGGGGGACCTCGCGAAAAGAGACGATAAGATGAGGAACCTTCTGAACGAGATGAGGCAATCAGAGATAGACATGTTGGGCATGAGCAACCTGAGGTCGGAGCTGGACGCCTTGAAGCCTCGATTATCTCAACTCGAGGAGGAGAGAGACTCGTTGACAGACGAAGTGGCGAGGCTGAGAAAATTATTAGCCGAGAGGAACGATCAAATAATTGAGATACTGGAGCACAAGAGCAAGTTAGAGCAGGAGCTGGAGGAGAAGGAGGCGGAGGCGCAGCGGATTATCGACAGCTTGAAAAAGGAGATGGACGACTTGCTGGCGCGAATGGAGAATTTGCAGGGCGAGCTCGACGAGCGTGATAAGCGAATCGCGGAGCTGGAGAAGTGTTGCTCCGAGAGGGACGAGCTTTTAGAGAAATTACAGACCGCGCAGGACGAATTGGCTTCGCTGCGAGGCGAACTAGCTTCTGCGAAAGCTGAGATAGAGGATCTTAAGGGTGAAGTAGATGCCCTGAAGAAAGACAAGGAGAAACTGTTGAAAGAGTTGGACGAAATCAAGGAACAGCTGAATGCGTTGAGTGACCAACTATCAGAAGAGAGAGCCGCGAAGGAGGCTCTACAAAAGGAGCTAGAGACTGCCCGGAAAGACCTCGATGACCTGCGAAAAGAGAATTCCGATCTGAAGGGTCAGCTGGAGCAAGAAAGGGAGGAGAATGACAAGCTCAAAAAAGAGAACGATGCTTTGAAAGCTGAGCTGGATAACGTGACCTCGGAGCTTGATAAACTGAAGAAAACGAATGACGAGCTGCAGAAGAACTTGGATGCAGCGAAGCTGGAGAACGACAAGTTGAAGAATGATCTGGAAGAATCTCGGCAAGAGATGGACAGGTTGCGAGCTGATGGTGATGCGTTGAAGAGTTCGGATGCGGATACAAAAGCTAAGATGGACAAACTTCAATCGCAACTGGAAGACCTGAAAGCGGAAAGGGACCGGTTGGCTGGCGAGAATGCGGACATGAAGGCCAAGAATTCGGAATTGGAACGGCAATTGGATGACGCGATGAAAGCATTGGAAAAAATGAGAGCAGAGAATGCTGATTTGCTGGAGGAGCTGGAACGTTTGAAGGCAGAACTAGCGAAAGCTAACAGCAAGATTGAGCAATTGAAAGAGGAGATGGAATCCCTGAAGAACGCGTTGGACAAGTGCGTGGGTGAGATGGAGAAATTAACATCCGAGAATGAGGACCTCAAGGCGAAGAATGAGGACCTTAAGGCGAAGAACGAGGCTCTTATGGCGGATCTTGATCGATGCAAGGCCGATAGGGACTCGCTGAAGAACGATTTAGAGCGCACCAAGGCGGAATTAGACGGTATGACCAACGAGCTGAACAAGCTGAAGGAGGAGTACGGGTCGCTGAAACAAAATTTCGACCGACTGGAAGGTGAAAGGGATAAGCTGCAGGAGGAGCTGAACAATATGAAGAACGAGATGAGGGAGCTTCAAGATGAAATAGATGCCGCAAAGCAGAGAGAAGCTGCGTTGAATTTAGAGCTTGATCGTGCTAAGAAGGAGAAGGATGAGTTAGCATCGGAATTGGGTAAACTGAAAGATGATAATGCAGCTTTGCAGGACGAGATTAAGGATCGATTGAACAAACAATTGAACGACGCGAATGCCGAGAACGAAAAGCTGCGGGAAGAGCTGGCTAGGCTGAAGGACGAACTTGAGAAATTGGGGAAAGAGAGAGATCAGTTGAAGCAGGACAACGAGAAACTGAACGCCGAAGTGGAACAACTGCGCAAAGAAAGAGATGCGTTAAACGACGAGTTAAAGAAGCTGCGAGATGAGAATAGCAGGTTACAAGGCGAGGTGAATGATTTGAGGGAGAAGCTCAGTGACGAGAGAAAGGCCAACGAGATCTTGAAGAAGGATTTGATGATGTTAGATAGCGAGGTGAAGGATTTGGGTAAGGCTCTCGATGAGGCCAGGGCGAAAAATGCTGCCTTGGCGGAGGAGAATCAAGCACTTCAGTCAAAATTAAAGGACTTGCAAGATCAGCTTGGCAGTTTGAGGGCAGAGTGCGCTGATTTGAAGTCGGAGATCGAAGACTTGAAGCAGCAAATCGCTGATTTGAAGGCGAAGATCGCTAAATTGGAGGAGGACCTGGAACACTGGAAGTTAGAGAACTGTAAGATCAAGATGGAGGTGGATAAACTGAAGGACGACTTGGAAAAGGCGTTAAAGGAGCTGAATGACTCCAAGGCCGCGAAAGAAGCGTGCCAGGCAGAGTTGAACCGTCTCAAAGCCGAGAAAGCCGATCTAGAGAAGAAACTCGCAGATTTACAGTCAGAAATTGAACAGCTGAAGAAGTCGCTTGAAGCTGAAAAATCAGCTAGAAGCAAGTGTGAGGCGGAACTTGCAGCCCTGAGGAATGAGCTGGATGCGTTGAAGAAGGAGTTGGAAAACCTTCGAGAGGAGAGCAGAAGGTGCAAAGGAGAATTAGAGGAATGTAGAAAGAAGATCTCGGAGCTGACCAACGACCTGAACAAGTGCAAAGAAGAAGTCAACGCGTTGAGAGATGCGAACGACAAGTTGAAGGTGGAGGTGAACGCGTTGAACAACGAGAAGAACAAACTTCAAGAGGAGCGAGATAGATTGAAGAACGAAGCGGAATCTCTTCGGGCAGAGAACGCAGACCTTCGTCAAGATCGAGACAAGCTGGCAAACGAAACAAACAGACTGAAGGGCGAGGGTGATGGACAGAAATCAGAACTTGACAACTTGAGGTCTGACTTATCTGCGCAGAAAGCTGCTGTACAGAATCTGCAGAACGATTTGAAGAAATGTCAGGATGAGAACGACAGATTGAAACAGCAACTGGCTGAGTTGGAGAAGTTGAAGGACGAGAAGAATAAATTGGAAAAGGCGTTAGCGGATGCGGAAACTAAAGCGAAAGCTCTGGAAAGCCAGCTGAAAGATCTGCAGGCTGAGAAGCAAGAGCTGCTCAATGAGCTGCAGCGGCTGCGCGACGAGATAGGTCGCCTTATAAACGAGATTGACAAACATAAAGCTGCTGCTGAAGCAGCCATGAAAGAACTGGCTGCCTTGAAGCAGGAGTTAAGCAATTTGAGAGCTACGCTGGACAAAGCCCGCGCCGATAACGAAGCATTGAACAAAGAGAATGAGAAACTGAAGTCGGACATGGCGAAATTAAATCAGCAGCTGCAGGAATTACAGGAAGAGAACGCGAAGCTGAAGAAGGAGAACGAACAGTTGGCCTCGGAATTAGCAACGGCGAAGGAGAAATTACAAGAAGCCGAAGACCGGTTAAACAATCTGCGCAAGGAAAATGATGATTTGAAGAAGAGGATCGCTGATCTTGAAAATACTGTGAAGGAGTTGGAGACGCTGAAGAAACAGCTGGAAGATTGCAGGGCCGAGTTGGCGAGATTGAAGGCAGAATTGGAGAAATTGAAAGAGGACAATGCGAATTTGAAAGACCAGCTAAGCAATGCTCAAAATGAGTTGAAGCAGGTTAAGGACTTGAAGAATAAGCTGCAGCAGGAACTTGATGCTTTGAAGGCTGATCATGATAGATTGAAAGACGAGTTAGGGAAACTGAAGGAGATTAATGATAAATTGAAGGACGAATTGGACGATTTGAAGTCATTGAATGATAAATTGAAGGATGATTTGAAAAATCAGAAGGCGATCAATGATAAGCTGAATGAGGAGGCAGAGAAGTTGAAGAAAGAACTTGAAGCGCAGAAGGCTGCAAATGATATGCTGAAGGATGAGGCAGAGAAGTTGAAGAAAGAAATTGAAGCGCAGAAGGCTGCCAATGATAAGTTGATGGCTGATATTGATAAATTACAGAATGAGGGTAGAATTTCTGCGGCAGGGTTAACGAATGAATTGGATAGGTTGAAGAAGGAAAATGATGACTTGAAGTCTGAAATTGAGAGGTTGAAGAAGGAATTGAATAATTGCCAGGATTATAATGATAAGCTGCGCAGAGAAATGGAAGACTGCAAAGACAAACTTAAGAAACTGAAAGCTACTGCAGATCAAGATACAGTGACTTTAAGAAGCCTAGAAGACGATTGTGGCGATTACATCAGGGCTAATGATTTGTTAAGGAAAAAGCTTGACAAGCAAAACGAAGGTGTACAACGTGTCCGTGACTATATAACTTTCCTGGAGGGTAAAGTTGAAAATGAACCAAAAATGGCGGACGAATTGGAGGACGATTCCAGCATTGACCCAGAAATGAAAAAAGAGATAGGAGAGTTATTGAAGAAGTCGCGGGATTTGTCTGAAAATATTTATAACACTGAAAAAGAAATTCAGAATATTGCGGCTATTCTGAAACAACTTAAGGATGCTCCACTTAGTGACAAGGCATTTGATCCCGATTCGTGGCTTAACTCGTTGAAGTTAACGCAATTGGCGGAGCTCCACGACAAGATTTGCCTATTGACATCGAATATGGTGCATCAGGATAAGCCGAGGGCAGTTAGCTGTGCGCCAAGGAGTCCACTAAGTGCGGATTACAATATTTTAAATCAGCGGATAGCCGCTCTGCAGAAACAGATAGCGGAGAAGCAAATGGAGACGGGATGGAAGCTAGAAGAGCTGAAGCGAGCTCTTCGGCAGGAGCAGGCTAACCTAATTCGAATCTCCGACGAAATGAATTTAGAGAGAAAACGTAATTTGGCCCTTCAGTTAGGAATGGATGATGCATCTTAA
Protein Sequence: MESMNPPNEPCCCCSYNPFSDNAKESEIYDLSFALRKLAVMKCQMKKWRMERLQFESENRSLKQALQSFGVNVDEILKPDPLLVQSREEIEWLQNANAALEDKVRDLEETLAERDWSDDPCASVHYIREKMRDLRERFALEKKELRDTISHLKLKLAQTEEDVSCPAIYRLRAKLRELMKGGQTADQQVSKVVERSIETLVDLSNNCDDLRLENEQLLAQIAELRRQLAELEKFRPKEPVEDTLRSAETTTVPEYIDVSDLLKKLEDCELTVSELRHQLDEKDKLIEALKKQLENMVDQEALLDEIAAMKGDLAKRDDKMRNLLNEMRQSEIDMLGMSNLRSELDALKPRLSQLEEERDSLTDEVARLRKLLAERNDQIIEILEHKSKLEQELEEKEAEAQRIIDSLKKEMDDLLARMENLQGELDERDKRIAELEKCCSERDELLEKLQTAQDELASLRGELASAKAEIEDLKGEVDALKKDKEKLLKELDEIKEQLNALSDQLSEERAAKEALQKELETARKDLDDLRKENSDLKGQLEQEREENDKLKKENDALKAELDNVTSELDKLKKTNDELQKNLDAAKLENDKLKNDLEESRQEMDRLRADGDALKSSDADTKAKMDKLQSQLEDLKAERDRLAGENADMKAKNSELERQLDDAMKALEKMRAENADLLEELERLKAELAKANSKIEQLKEEMESLKNALDKCVGEMEKLTSENEDLKAKNEDLKAKNEALMADLDRCKADRDSLKNDLERTKAELDGMTNELNKLKEEYGSLKQNFDRLEGERDKLQEELNNMKNEMRELQDEIDAAKQREAALNLELDRAKKEKDELASELGKLKDDNAALQDEIKDRLNKQLNDANAENEKLREELARLKDELEKLGKERDQLKQDNEKLNAEVEQLRKERDALNDELKKLRDENSRLQGEVNDLREKLSDERKANEILKKDLMMLDSEVKDLGKALDEARAKNAALAEENQALQSKLKDLQDQLGSLRAECADLKSEIEDLKQQIADLKAKIAKLEEDLEHWKLENCKIKMEVDKLKDDLEKALKELNDSKAAKEACQAELNRLKAEKADLEKKLADLQSEIEQLKKSLEAEKSARSKCEAELAALRNELDALKKELENLREESRRCKGELEECRKKISELTNDLNKCKEEVNALRDANDKLKVEVNALNNEKNKLQEERDRLKNEAESLRAENADLRQDRDKLANETNRLKGEGDGQKSELDNLRSDLSAQKAAVQNLQNDLKKCQDENDRLKQQLAELEKLKDEKNKLEKALADAETKAKALESQLKDLQAEKQELLNELQRLRDEIGRLINEIDKHKAAAEAAMKELAALKQELSNLRATLDKARADNEALNKENEKLKSDMAKLNQQLQELQEENAKLKKENEQLASELATAKEKLQEAEDRLNNLRKENDDLKKRIADLENTVKELETLKKQLEDCRAELARLKAELEKLKEDNANLKDQLSNAQNELKQVKDLKNKLQQELDALKADHDRLKDELGKLKEINDKLKDELDDLKSLNDKLKDDLKNQKAINDKLNEEAEKLKKELEAQKAANDMLKDEAEKLKKEIEAQKAANDKLMADIDKLQNEGRISAAGLTNELDRLKKENDDLKSEIERLKKELNNCQDYNDKLRREMEDCKDKLKKLKATADQDTVTLRSLEDDCGDYIRANDLLRKKLDKQNEGVQRVRDYITFLEGKVENEPKMADELEDDSSIDPEMKKEIGELLKKSRDLSENIYNTEKEIQNIAAILKQLKDAPLSDKAFDPDSWLNSLKLTQLAELHDKICLLTSNMVHQDKPRAVSCAPRSPLSADYNILNQRIAALQKQIAEKQMETGWKLEELKRALRQEQANLIRISDEMNLERKRNLALQLGMDDAS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00860130;
90% Identity: iTF_00866453;
80% Identity: -