Basic Information

Insect: Lasioglossum leucozonium
Gene Symbol: -
Assembly: GCA_028454225.1
Location: CM052209.1:4417191-4427244[+]

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 1.3 1.1e+03 -0.2 0.1 26 50 63 87 58 94 0.67

2 43 1.3 1e+03 -0.2 0.8 33 55 108 130 105 133 0.66

3 43 3 2.3e+03 -1.3 0.6 38 60 158 180 148 183 0.81

4 43 0.00043 0.33 11.0 2.4 30 61 222 253 215 256 0.89

5 43 5.1 4e+03 -2.1 5.1 28 63 278 313 276 315 0.89

6 43 0.16 1.3e+02 2.7 0.6 27 55 363 391 357 401 0.69

7 43 3.2 2.5e+03 -1.4 3.8 26 58 404 440 402 447 0.58

8 43 1.4 1.1e+03 -0.2 2.1 33 62 453 482 444 485 0.83

9 43 0.00024 0.19 11.8 4.3 24 63 486 525 483 527 0.94

10 43 0.0088 6.9 6.8 6.4 24 64 514 554 513 555 0.95

11 43 0.00024 0.19 11.7 4.8 26 65 551 590 548 590 0.91

12 43 0.012 9.4 6.3 6.6 21 60 588 627 587 632 0.95

13 43 3.5e-05 0.028 14.4 3.0 24 62 640 678 639 680 0.94

14 43 0.00085 0.67 10.0 5.8 24 63 668 707 667 709 0.95

15 43 0.054 42 4.2 5.1 22 62 687 727 681 737 0.65

16 43 8.5e-05 0.067 13.2 2.8 32 61 732 761 714 765 0.78

17 43 0.17 1.3e+02 2.7 1.2 25 64 760 799 759 800 0.81

18 43 0.0055 4.3 7.4 9.4 24 60 794 830 785 835 0.89

19 43 0.00015 0.12 12.4 7.6 24 65 843 884 838 884 0.91

20 43 1.8e-05 0.014 15.4 9.7 22 65 890 933 888 933 0.94

21 43 0.0077 6 7.0 0.9 28 57 924 953 923 961 0.82

22 43 0.2 1.6e+02 2.4 4.0 22 57 932 981 931 989 0.56

23 43 0.00017 0.13 12.3 3.2 33 64 985 1016 980 1017 0.88

24 43 0.00047 0.37 10.8 1.4 30 63 1010 1043 1009 1051 0.85

25 43 0.042 33 4.6 1.5 24 64 1025 1065 1024 1066 0.89

26 43 0.006 4.7 7.3 8.3 24 63 1074 1113 1073 1115 0.85

27 43 0.0023 1.8 8.6 2.1 36 61 1121 1146 1116 1150 0.86

28 43 0.0031 2.4 8.2 3.4 29 65 1142 1178 1141 1178 0.89

29 43 7.5e-06 0.0059 16.6 11.3 21 64 1183 1226 1179 1227 0.93

30 43 0.00016 0.13 12.3 7.4 21 58 1197 1234 1196 1248 0.72

31 43 0.0045 3.5 7.7 7.1 23 53 1255 1285 1253 1299 0.86

32 43 2.6e-06 0.002 18.1 6.0 25 65 1302 1342 1299 1342 0.92

33 43 0.0077 6 7.0 10.1 22 64 1355 1397 1340 1398 0.77

34 43 4.3e-05 0.034 14.2 13.0 22 64 1383 1425 1382 1426 0.93

35 43 1.2 9.2e+02 -0.0 2.2 35 59 1424 1448 1422 1457 0.67

36 43 0.051 40 4.3 13.2 30 63 1450 1483 1443 1492 0.81

37 43 0.0059 4.7 7.3 10.5 24 64 1493 1533 1485 1541 0.79

38 43 0.012 9.3 6.4 7.4 26 64 1537 1575 1533 1583 0.78

39 43 0.0035 2.7 8.1 7.5 21 60 1553 1592 1552 1596 0.93

40 43 0.00019 0.15 12.1 6.3 27 57 1598 1628 1594 1630 0.89

41 43 0.00012 0.091 12.8 3.0 28 62 1620 1654 1619 1656 0.92

42 43 5.7 4.5e+03 -2.2 0.1 36 60 1712 1739 1702 1743 0.68

43 43 4.5 3.5e+03 -1.9 1.0 36 51 1841 1856 1820 1863 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	43	1.3	1.1e+03	-0.2	0.1	26	50	63	87	58	94	0.67
2	43	1.3	1e+03	-0.2	0.8	33	55	108	130	105	133	0.66
3	43	3	2.3e+03	-1.3	0.6	38	60	158	180	148	183	0.81
4	43	0.00043	0.33	11.0	2.4	30	61	222	253	215	256	0.89
5	43	5.1	4e+03	-2.1	5.1	28	63	278	313	276	315	0.89
6	43	0.16	1.3e+02	2.7	0.6	27	55	363	391	357	401	0.69
7	43	3.2	2.5e+03	-1.4	3.8	26	58	404	440	402	447	0.58
8	43	1.4	1.1e+03	-0.2	2.1	33	62	453	482	444	485	0.83
9	43	0.00024	0.19	11.8	4.3	24	63	486	525	483	527	0.94
10	43	0.0088	6.9	6.8	6.4	24	64	514	554	513	555	0.95
11	43	0.00024	0.19	11.7	4.8	26	65	551	590	548	590	0.91
12	43	0.012	9.4	6.3	6.6	21	60	588	627	587	632	0.95
13	43	3.5e-05	0.028	14.4	3.0	24	62	640	678	639	680	0.94
14	43	0.00085	0.67	10.0	5.8	24	63	668	707	667	709	0.95
15	43	0.054	42	4.2	5.1	22	62	687	727	681	737	0.65
16	43	8.5e-05	0.067	13.2	2.8	32	61	732	761	714	765	0.78
17	43	0.17	1.3e+02	2.7	1.2	25	64	760	799	759	800	0.81
18	43	0.0055	4.3	7.4	9.4	24	60	794	830	785	835	0.89
19	43	0.00015	0.12	12.4	7.6	24	65	843	884	838	884	0.91
20	43	1.8e-05	0.014	15.4	9.7	22	65	890	933	888	933	0.94
21	43	0.0077	6	7.0	0.9	28	57	924	953	923	961	0.82
22	43	0.2	1.6e+02	2.4	4.0	22	57	932	981	931	989	0.56
23	43	0.00017	0.13	12.3	3.2	33	64	985	1016	980	1017	0.88
24	43	0.00047	0.37	10.8	1.4	30	63	1010	1043	1009	1051	0.85
25	43	0.042	33	4.6	1.5	24	64	1025	1065	1024	1066	0.89
26	43	0.006	4.7	7.3	8.3	24	63	1074	1113	1073	1115	0.85
27	43	0.0023	1.8	8.6	2.1	36	61	1121	1146	1116	1150	0.86
28	43	0.0031	2.4	8.2	3.4	29	65	1142	1178	1141	1178	0.89
29	43	7.5e-06	0.0059	16.6	11.3	21	64	1183	1226	1179	1227	0.93
30	43	0.00016	0.13	12.3	7.4	21	58	1197	1234	1196	1248	0.72
31	43	0.0045	3.5	7.7	7.1	23	53	1255	1285	1253	1299	0.86
32	43	2.6e-06	0.002	18.1	6.0	25	65	1302	1342	1299	1342	0.92
33	43	0.0077	6	7.0	10.1	22	64	1355	1397	1340	1398	0.77
34	43	4.3e-05	0.034	14.2	13.0	22	64	1383	1425	1382	1426	0.93
35	43	1.2	9.2e+02	-0.0	2.2	35	59	1424	1448	1422	1457	0.67
36	43	0.051	40	4.3	13.2	30	63	1450	1483	1443	1492	0.81
37	43	0.0059	4.7	7.3	10.5	24	64	1493	1533	1485	1541	0.79
38	43	0.012	9.3	6.4	7.4	26	64	1537	1575	1533	1583	0.78
39	43	0.0035	2.7	8.1	7.5	21	60	1553	1592	1552	1596	0.93
40	43	0.00019	0.15	12.1	6.3	27	57	1598	1628	1594	1630	0.89
41	43	0.00012	0.091	12.8	3.0	28	62	1620	1654	1619	1656	0.92
42	43	5.7	4.5e+03	-2.2	0.1	36	60	1712	1739	1702	1743	0.68
43	43	4.5	3.5e+03	-1.9	1.0	36	51	1841	1856	1820	1863	0.57

Sequence Information

Coding Sequence: ATGGAGAGCCGAGGTTCCACGCCGTCCTGCCCATGTGGATGCAACGCATCGCATTCTTCGGAATCAATGAATCCACCGAACGAGCCATGTTGTTGCTGCAGTTACAATCCCTTCAGCGACAATTCGAAAGAATCGGAGATTTACGACCTCTCGTTCGCCCTGAGGAAACTGGCCGTAATGAAGTGTCAAATGAAGAAATGGCGAATGGAACGACTTCAGTTCGAGAGCGAAAATAGGTCTTTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCTGATCCGCTGCTCGTGCAGTCCCGGGAAGAAATCGAATGGCTGCAAAATGCAAACGCGGCGCTCGAAGATAAAGTGAGGGATCTAGAAGAAACCCTCGCCGAACGAGATTGCTGCGACGATCCATGTGCATCGGTACACTATATCAGGGAGAAGATGAGAGTTCTGCGGGAGCGGTTTGCACTTGAAAAAAAAGAATTAAGGGACATGATATCGCACTTGAAATTAAAACTTGCGCAGACTGAGGAGGACGTGAGCTGTCCTGCGATATATCGCCTGAGGGCAAAGCTCCGTGAACTGATGAAAGGAGGTCAAACAGCGGACCAGCAGGTCTCGAAAGTCGTGGAGAGATCGATCGAAACGTTGGTGGATCTGTCGAACAGCTGCGACGACCTGCGTCTTGAAAACGAGCAGCTTTTGGCCCAGATAGCCGAGCTACGTCGCCAATTGGAGGAACTTGAAAAAATGCGACCGAAAGAGCCGGTGGAAGAAATGCTAAGAACAGCCGAAACAACGACGGTGCCTGAATACATAGACGTCTCCGAGCTGCTGCAGAAGCTCCAAGACTGCGAGCTCGCTGTTTCCGAATTGAAACATCAATTAGACGAGAGAGATAAGCTTATCGAGGCGCTGAAGAAACAACTTGAGAACATGGTAGATCAGCAGGTTCTGTTGGATGAGATCGCGGCCATGAAGGGGGAACTCGCGAAAAGAGACGATAAGATGAGGGATCTACTGAACGAGATGAGGCAATCAGAGATAGACCTGCTGGGTCTGAGCAAACTAAGATCGGAGCTGGACACCTTGAAGCCGCGGCTATCCGAACTCGAGGGCGAGAGGGACTCGCTGATAGACGAAGTGGCGAATCTGAGAAAATTATTGGCCGAGAGGAACGATCAAATAATTGAGATACTGGAGCACAAGAACAGGTTAGAGCAGGAGCTGGCGGAGAAGGAGGCGGAGGCTCAGCGGATTATCGACAGCTTGAAAAAGGAGATGGACGACTTGCTGGCGCGACTGGCAAATTTGCAGGGCGAGCTCGACGAGCGAGATAAGCGAATCGCGGAGCTGGAGAAGTGTTGCTCCGAGAGGGACGAGCTTTTACAGAAATTACAGGTCGCGGAGGACGAGTTGGCTTCGCTGCGAGGCGAGCTCGCGTCCGCGAAAGCTACGATAGAGGATCTTAAGGGCGAAGTAGATGCACTGAAGAAGGACAAGGAGAAGCTGCTGAAAGAGCTGGACGAAGTCAAGGAACGGATGAACGCGTTGAGCGACCAACTGGCGGAGGAGAGAGCGGCGAAGGAGGCTCTGCAAAAGGAGCTCGAATCTGCCCGGAAAGACCTCGAAGACCTGCGAAAAGAGAACTCCGATCTGAAGGGTCAGCTGGAACAAGCAAGGGAGGAGAATGACAAGCTGAGAAAAGAGAATGACGCTTTCAAAGCTGAGCTGGACAACATGACCTCGGAGCTTGATAAGCTGAAGAGAGCGAACGACGAGCTGCAGAAGAACTTGGACGCGGCGAAGTTGGAGAACGACAAGTTGAAGAGCGATCTTGAGGAATCTCGAAAAGAGATGGACAGGTTGCGAGCCGATGGGGATGCGCTAAAGAGTATGGACGCGGACGCGAAAGCTAAGATCGATCAACTCCAGTCGCAATTGGATGATCTGAAAGCGGAAAGGGATCGGTTGGCTGGCGAGAATGCGGACATGAAGGCCAAGAATTTGGAATTGGAACGGAAATTGGATGACGCGATGAACGCGTTGGAAAAACTCAGAGCAGAGAATGCTGATCTGCTGGGGGAGCTGGAACGTTTGAAGGCAGAACTAGCGAGAGCGAATAGCACGATTGATCAATTGAAAGAGGAGATGGGATCCCTGAAGAACGCGTTGGACAACTGCGTGGCTGAGATGGAGAGGCTAACAACCGAGAATGGGGACCTTAAGGCGAAGAACCAGGCACTTAGAGCGGAGCTTGATCAATGCAAGGCCGACAGGGACTCGTTGAAGAACGATTTGGAGCGAACCAAGGCGGAATTGGACGGTGTGACTAACGAGCTGAACAAGCTGAAGGAGGAGCACGGGTTGCTTAAACAAAATTTCGACCGACTGGAAGGTGAAAGGGATAAGCTGCAGGCGGAGCTGGAAAATCTGAAGAACGAGATGAAGAAGCTTCAAGAGGAAATAGATAGCGCGAAGCAGAGAGAAGCTGCGTTGAATGACGAGCTTGCTCGTGTCAAGAAGGAGAAAGATGCTTTAGCAGCGGAATTAGGCAAACTGAAAGATGAAAATTCTGCATTGCAGAACGAGAGGGATCAGTTGAGGAAACAATTGGACGACGCGAACGCTGAGCTCGAGAAGCTGAAGGAAGAGCTGACTCGGTTGAAGGACGAGCACGAGAAGTTGGGGAAGGAGAGAGACCAGTTGAAGCAGGACAACGAGAAACTGAATGCCGAAGTGGAGCAATTGCGCAGAGAAAGAGACTCGTTGAACGACGATTTAAAGAAGCTGCGAGACGAGAATAGCAGGCTACAAAACGATGTGAATGATTTGAGGGCGAGGCTCGATGATGAAAGAAAGGCCAACGAAATCTTGAAGAAAGATTTGATGATGTTAGACAGCGAGGTGAAGGATTTACGTAAGGCGCTTGACGAGGCCCGGGCGAAAAATGCTGCTTTGGCGGAGGAGAATCAAAGGCTTCAGTCGGAGTTGCGGGATTTGCAAGATGAGCTGGGCAGCTTGAGGGCGGAGTGCGCTGATTTAAAGTCGGAGATCGAAGATTTGAAGAAGGAAATCGCTGATTTAAAGGCGAAAATTGCCAAATTGGAGGAGGACCTGGAACATTGGAAGTTAGAGAACTGTAAGATCCAGATGGAGCTGGATAAACTGAAGAACGACTTGGAGAAGGCGTTGAAAGAGCTGAATGACTGCAAGGCCGCGAAAGAAGCGTGCCAGGCGGAGTTGAACCGTCTCAAAGCCGAGAAAGCCAATCTAGAGAAGAAACTCGCGGATTTAGAGGCAGAAATTGAACAATTAAAGAAGTCTCTCGAAGCGGAAAAGTCGGTTAGAAGCAAGTGCGAGGCGGAGCTTGCAGCCCTGAGGAATGAGGTGGACGCGTTGAAGAAGGAGTTGGAGAACCTTCGGGATGAGAGCAGAAGGTGCAGAGGGGAATTAGAAGAGCTCAGGAAAAAGATCTCGGAGCTGACCAACGAGCTGGACAAGTGCAAGGAAGAAGTTAACGCGTTGAGAGACGCGAACGAGAAGCTGAAGGCGGAGGTGAACGCGCTGAACAACGAGAAGAACAAACTTCAAGAGGAGCGAGATAGACTGAAGAACGAAGTGGAGTCTCTGAGGGCAGAGAATGCAGATCTCCGTCAAGAGCGAGACAAGCTAGCGAACGAAGCCAACAGGCTGAGGGGCGAGGGTGACGGACAGAGATCGGAGCTTGACAACTTGAGATCTGACTTGTCTGCGCAGAAGGCTGCAGTTCAGAAGCTGCAAAACGACCTGAAGAACTGCCAGGACGAGAACGACAGGCTGAAACAACAACTGGCTGAGATGGACAAGTTGAAGGACGAGAAGAATCGATTGGAGAAGGCGTTAGCGGATGCGGAAGCCAAAGTGAAAGCTTTGGAAGGTCAGCTGAAAGATCTGCAGGACGAGAAACAAGAGCTGCTCAATGAGCTGCAGCGGCTGCGCGACGAGCTGGGTCGCCTTATGAACGAGATTGACAAACATAAAGCTGCTGCTGAAGCAGCCACGAAAGAGCTGGCTGCCTTGAAGCAGGAGTTAAGCAATTTAAGGGCAATGCTGGATAAAGTCCGCGCCGAAAACGAAGCGTTGAACAAAGAGAACGAGAAACTGAAGTCGGACGTGGCGAAATTAAATCAGCAGCTGCAGGCATCGCAGGAGGAGAACGCGAAGCTGAAGAAAGAGAACGAGCAGTTGGCCTCGGAATTAGCAGCGTTAAAGGAGAAATTGAAAGAAGCCGAAGACCAGTTGAATGATTTGAAGAAGAGGATCGCTGATCTTGAGAATACTGTGAAGGAGTTGGAGCCGCTGAAGAAACAGCTGGAGGATTGCAGGGCCGAGCTGGCGAGATTGAAGGAGGAATTGGAAAAATTGAAAGAGGAGAATGAGAACTTGAAGAACGAGCTGAGGGATGCTCAAAATGAGTTGAAAGAGGTTAAGGAGTTGAAGGATAAGCTGCAGCAGGAGCTTGACGCTTTGAAGGCTGATCACGATAGGTTAAAGGATGAGTTAGAGAAACTGAAGGAGATTAACGAGAAACTGAAGGACGAGTTGGACGATTTGAAGGCATTGAATGATAAATTAAAGGACGATTTGAAAAATCAGAAGGCGATCAATGATAAGCTGAAGGACGAGGCAGAGAAGTTGAAGAAAGAACTTGAAGCTCTGAAGGCTGCCAATGATAAGTTGAAGGACGATCATAAGAAGTTGCTGGCTGAGATTGATAAATTAAAGAATGAGGGTAAAAGTTCTGAGGCAGCGTTGACGAATGAATTGAATAGGTTGAAGAAGGAAAATAATGAATTGAAGTCTGAAATTGAGAGGTTGAAAAAGGAATTGAGTAATTGCCAGGATGAAAATGATAGGCTGCGGAGAGAAATGGAAGGCTGGAAAAACGAACTTAAGAAACTGAAAGCTGCTGCAGAGAAAGATACAGTGACTTTAAGAAGCCTCGCAGACGATTGTGGCGATTACATCCGGGCAAATGATTTGTTAAGGGACAAACTTGACAAGCAAAACGAAGGTGTACAACGTGTCCGTGACTATATAACTTTCCTGGAGGGTAAAGCTGAAAATGAACCCGAAATGGCGGACGAATTGGAGGACGATCCCAGCATTGATCCAGAAATGAAAAAGGAGATAGGAGAATTATTGAAAAAGTCGCGGGATTTATCTGAAAATATTTATAACACTGAAAAGGAAATTCAGAATATCGCTGCTATTCTGAAACAACTGCAGGATGCTGCACTTGGCGACAAGGTGTTCGATCCCGATTCGTGGCTTAACTCGTTGACGTTAACGCAACTGGCGGAGCTCCACGACAAGATTTGTCTATTGACATCGGACATGGTGCATCAGGACAAGCCGAGGGCAGTCCCTTGTTCGCCAGGGAGTCCACTAAGTGCGGATTACAATATTTTAAATCAGCGGATAGCCGCTCTGCAGAAACAGATAGCGGAGAAGCAAATGGAGACGGGATGGAAGCTCCAAGAGCTGAAGCGAGCTCTTCGGCAGGAGCAGACTAACCTAATTCGAATCTCCGACGAAATGAATTTAGAGAGAAAACGTAATTTGGCCCTTCAGTTCAGAATGGATGATGCATCTTAA
Protein Sequence: MESRGSTPSCPCGCNASHSSESMNPPNEPCCCCSYNPFSDNSKESEIYDLSFALRKLAVMKCQMKKWRMERLQFESENRSLKQALQSFGVNVDEILKPDPLLVQSREEIEWLQNANAALEDKVRDLEETLAERDCCDDPCASVHYIREKMRVLRERFALEKKELRDMISHLKLKLAQTEEDVSCPAIYRLRAKLRELMKGGQTADQQVSKVVERSIETLVDLSNSCDDLRLENEQLLAQIAELRRQLEELEKMRPKEPVEEMLRTAETTTVPEYIDVSELLQKLQDCELAVSELKHQLDERDKLIEALKKQLENMVDQQVLLDEIAAMKGELAKRDDKMRDLLNEMRQSEIDLLGLSKLRSELDTLKPRLSELEGERDSLIDEVANLRKLLAERNDQIIEILEHKNRLEQELAEKEAEAQRIIDSLKKEMDDLLARLANLQGELDERDKRIAELEKCCSERDELLQKLQVAEDELASLRGELASAKATIEDLKGEVDALKKDKEKLLKELDEVKERMNALSDQLAEERAAKEALQKELESARKDLEDLRKENSDLKGQLEQAREENDKLRKENDAFKAELDNMTSELDKLKRANDELQKNLDAAKLENDKLKSDLEESRKEMDRLRADGDALKSMDADAKAKIDQLQSQLDDLKAERDRLAGENADMKAKNLELERKLDDAMNALEKLRAENADLLGELERLKAELARANSTIDQLKEEMGSLKNALDNCVAEMERLTTENGDLKAKNQALRAELDQCKADRDSLKNDLERTKAELDGVTNELNKLKEEHGLLKQNFDRLEGERDKLQAELENLKNEMKKLQEEIDSAKQREAALNDELARVKKEKDALAAELGKLKDENSALQNERDQLRKQLDDANAELEKLKEELTRLKDEHEKLGKERDQLKQDNEKLNAEVEQLRRERDSLNDDLKKLRDENSRLQNDVNDLRARLDDERKANEILKKDLMMLDSEVKDLRKALDEARAKNAALAEENQRLQSELRDLQDELGSLRAECADLKSEIEDLKKEIADLKAKIAKLEEDLEHWKLENCKIQMELDKLKNDLEKALKELNDCKAAKEACQAELNRLKAEKANLEKKLADLEAEIEQLKKSLEAEKSVRSKCEAELAALRNEVDALKKELENLRDESRRCRGELEELRKKISELTNELDKCKEEVNALRDANEKLKAEVNALNNEKNKLQEERDRLKNEVESLRAENADLRQERDKLANEANRLRGEGDGQRSELDNLRSDLSAQKAAVQKLQNDLKNCQDENDRLKQQLAEMDKLKDEKNRLEKALADAEAKVKALEGQLKDLQDEKQELLNELQRLRDELGRLMNEIDKHKAAAEAATKELAALKQELSNLRAMLDKVRAENEALNKENEKLKSDVAKLNQQLQASQEENAKLKKENEQLASELAALKEKLKEAEDQLNDLKKRIADLENTVKELEPLKKQLEDCRAELARLKEELEKLKEENENLKNELRDAQNELKEVKELKDKLQQELDALKADHDRLKDELEKLKEINEKLKDELDDLKALNDKLKDDLKNQKAINDKLKDEAEKLKKELEALKAANDKLKDDHKKLLAEIDKLKNEGKSSEAALTNELNRLKKENNELKSEIERLKKELSNCQDENDRLRREMEGWKNELKKLKAAAEKDTVTLRSLADDCGDYIRANDLLRDKLDKQNEGVQRVRDYITFLEGKAENEPEMADELEDDPSIDPEMKKEIGELLKKSRDLSENIYNTEKEIQNIAAILKQLQDAALGDKVFDPDSWLNSLTLTQLAELHDKICLLTSDMVHQDKPRAVPCSPGSPLSADYNILNQRIAALQKQIAEKQMETGWKLQELKRALRQEQTNLIRISDEMNLERKRNLALQFRMDDAS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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