Basic Information

Insect: Lasioglossum pauxillum
Gene Symbol: -
Assembly: GCA_028455745.1
Location: CM052309.1:25997925-26008614[+]

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 1.4 1.6e+03 -0.3 0.1 26 50 44 68 39 75 0.67

2 48 1.4 1.6e+03 -0.3 0.8 33 55 89 111 86 114 0.66

3 48 6.2 7.3e+03 -2.4 1.2 36 60 137 161 128 164 0.71

4 48 6.8e-05 0.08 13.5 1.7 30 61 203 234 196 237 0.89

5 48 2.6 3.1e+03 -1.2 3.8 28 63 268 303 266 305 0.91

6 48 0.051 60 4.3 0.8 31 62 350 381 345 388 0.53

7 48 4.2 5e+03 -1.9 3.4 27 55 395 427 392 437 0.55

8 48 0.39 4.6e+02 1.4 2.6 33 62 443 472 436 475 0.89

9 48 0.00025 0.29 11.7 3.5 24 63 476 515 474 517 0.94

10 48 0.021 25 5.5 7.3 24 64 504 544 504 545 0.94

11 48 0.56 6.6e+02 0.9 6.7 25 57 519 551 516 554 0.79

12 48 0.00016 0.19 12.2 3.0 26 65 541 580 539 580 0.91

13 48 0.041 49 4.6 7.8 21 60 578 617 577 622 0.95

14 48 4.5e-05 0.053 14.0 3.3 24 63 630 669 629 671 0.95

15 48 0.0061 7.1 7.2 10.0 24 63 658 697 657 706 0.95

16 48 0.04 47 4.6 9.7 18 63 673 718 671 725 0.84

17 48 2.7e-05 0.032 14.7 1.9 33 62 723 752 718 761 0.76

18 48 0.0017 2 9.0 7.1 24 62 777 815 773 824 0.59

19 48 0.0014 1.6 9.3 9.1 21 64 830 873 816 874 0.82

20 48 0.084 99 3.6 8.6 22 64 845 887 845 888 0.78

21 48 2e-06 0.0023 18.4 10.8 22 62 887 927 886 930 0.93

22 48 0.00064 0.76 10.3 5.5 22 64 929 971 927 972 0.91

23 48 0.0012 1.4 9.5 8.0 27 64 955 992 954 993 0.91

24 48 0.00012 0.14 12.7 10.6 22 65 978 1021 977 1021 0.93

25 48 0.0011 1.3 9.5 2.2 28 56 1012 1040 1010 1049 0.88

26 48 0.042 50 4.5 2.8 36 56 1020 1040 1019 1077 0.84

27 48 0.00016 0.19 12.3 2.3 33 64 1073 1104 1065 1105 0.88

28 48 5.2e-05 0.061 13.8 3.8 25 64 1079 1118 1076 1119 0.91

29 48 0.027 32 5.1 4.0 24 64 1113 1153 1111 1160 0.82

30 48 0.00011 0.13 12.8 6.9 24 64 1162 1202 1161 1203 0.92

31 48 0.036 43 4.7 6.8 26 64 1206 1244 1201 1245 0.81

32 48 0.03 36 5.0 6.8 26 58 1248 1287 1244 1289 0.56

33 48 6.9e-06 0.0082 16.6 9.9 21 64 1271 1314 1267 1315 0.91

34 48 0.00019 0.23 12.0 5.8 21 59 1285 1323 1284 1327 0.68

35 48 0.0027 3.2 8.3 7.9 23 53 1343 1373 1341 1387 0.86

36 48 3.3e-06 0.0038 17.7 4.9 26 65 1391 1430 1388 1430 0.91

37 48 0.013 15 6.2 10.0 24 65 1445 1486 1428 1486 0.90

38 48 1.5e-05 0.018 15.5 13.9 22 64 1471 1513 1470 1514 0.94

39 48 0.073 86 3.8 6.3 24 61 1508 1545 1507 1549 0.85

40 48 0.012 15 6.2 11.8 28 63 1543 1578 1541 1587 0.92

41 48 0.00071 0.84 10.2 5.2 24 64 1588 1628 1580 1629 0.93

42 48 0.057 67 4.1 7.1 25 61 1631 1667 1629 1671 0.82

43 48 0.041 48 4.6 12.0 21 64 1648 1691 1643 1692 0.92

44 48 0.13 1.5e+02 3.0 3.6 21 60 1669 1708 1665 1712 0.84

45 48 2.4e-06 0.0028 18.1 6.2 27 64 1714 1751 1708 1752 0.91

46 48 0.0012 1.4 9.5 3.9 24 61 1746 1783 1745 1786 0.92

47 48 0.47 5.5e+02 1.2 0.4 41 60 1850 1869 1821 1888 0.63

48 48 3.1 3.7e+03 -1.5 1.2 36 51 1973 1988 1952 1996 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	48	1.4	1.6e+03	-0.3	0.1	26	50	44	68	39	75	0.67
2	48	1.4	1.6e+03	-0.3	0.8	33	55	89	111	86	114	0.66
3	48	6.2	7.3e+03	-2.4	1.2	36	60	137	161	128	164	0.71
4	48	6.8e-05	0.08	13.5	1.7	30	61	203	234	196	237	0.89
5	48	2.6	3.1e+03	-1.2	3.8	28	63	268	303	266	305	0.91
6	48	0.051	60	4.3	0.8	31	62	350	381	345	388	0.53
7	48	4.2	5e+03	-1.9	3.4	27	55	395	427	392	437	0.55
8	48	0.39	4.6e+02	1.4	2.6	33	62	443	472	436	475	0.89
9	48	0.00025	0.29	11.7	3.5	24	63	476	515	474	517	0.94
10	48	0.021	25	5.5	7.3	24	64	504	544	504	545	0.94
11	48	0.56	6.6e+02	0.9	6.7	25	57	519	551	516	554	0.79
12	48	0.00016	0.19	12.2	3.0	26	65	541	580	539	580	0.91
13	48	0.041	49	4.6	7.8	21	60	578	617	577	622	0.95
14	48	4.5e-05	0.053	14.0	3.3	24	63	630	669	629	671	0.95
15	48	0.0061	7.1	7.2	10.0	24	63	658	697	657	706	0.95
16	48	0.04	47	4.6	9.7	18	63	673	718	671	725	0.84
17	48	2.7e-05	0.032	14.7	1.9	33	62	723	752	718	761	0.76
18	48	0.0017	2	9.0	7.1	24	62	777	815	773	824	0.59
19	48	0.0014	1.6	9.3	9.1	21	64	830	873	816	874	0.82
20	48	0.084	99	3.6	8.6	22	64	845	887	845	888	0.78
21	48	2e-06	0.0023	18.4	10.8	22	62	887	927	886	930	0.93
22	48	0.00064	0.76	10.3	5.5	22	64	929	971	927	972	0.91
23	48	0.0012	1.4	9.5	8.0	27	64	955	992	954	993	0.91
24	48	0.00012	0.14	12.7	10.6	22	65	978	1021	977	1021	0.93
25	48	0.0011	1.3	9.5	2.2	28	56	1012	1040	1010	1049	0.88
26	48	0.042	50	4.5	2.8	36	56	1020	1040	1019	1077	0.84
27	48	0.00016	0.19	12.3	2.3	33	64	1073	1104	1065	1105	0.88
28	48	5.2e-05	0.061	13.8	3.8	25	64	1079	1118	1076	1119	0.91
29	48	0.027	32	5.1	4.0	24	64	1113	1153	1111	1160	0.82
30	48	0.00011	0.13	12.8	6.9	24	64	1162	1202	1161	1203	0.92
31	48	0.036	43	4.7	6.8	26	64	1206	1244	1201	1245	0.81
32	48	0.03	36	5.0	6.8	26	58	1248	1287	1244	1289	0.56
33	48	6.9e-06	0.0082	16.6	9.9	21	64	1271	1314	1267	1315	0.91
34	48	0.00019	0.23	12.0	5.8	21	59	1285	1323	1284	1327	0.68
35	48	0.0027	3.2	8.3	7.9	23	53	1343	1373	1341	1387	0.86
36	48	3.3e-06	0.0038	17.7	4.9	26	65	1391	1430	1388	1430	0.91
37	48	0.013	15	6.2	10.0	24	65	1445	1486	1428	1486	0.90
38	48	1.5e-05	0.018	15.5	13.9	22	64	1471	1513	1470	1514	0.94
39	48	0.073	86	3.8	6.3	24	61	1508	1545	1507	1549	0.85
40	48	0.012	15	6.2	11.8	28	63	1543	1578	1541	1587	0.92
41	48	0.00071	0.84	10.2	5.2	24	64	1588	1628	1580	1629	0.93
42	48	0.057	67	4.1	7.1	25	61	1631	1667	1629	1671	0.82
43	48	0.041	48	4.6	12.0	21	64	1648	1691	1643	1692	0.92
44	48	0.13	1.5e+02	3.0	3.6	21	60	1669	1708	1665	1712	0.84
45	48	2.4e-06	0.0028	18.1	6.2	27	64	1714	1751	1708	1752	0.91
46	48	0.0012	1.4	9.5	3.9	24	61	1746	1783	1745	1786	0.92
47	48	0.47	5.5e+02	1.2	0.4	41	60	1850	1869	1821	1888	0.63
48	48	3.1	3.7e+03	-1.5	1.2	36	51	1973	1988	1952	1996	0.64

Sequence Information

Coding Sequence: ATGGAATCGATGAATCCACCGAACGAGCCATGTTGTTGCTGCAGTTACAATCCCTTCAGCGACAATGCCAAAGAATCGGAGATTTACGACCTCTCGTTTGCCCTGAGGAAACTGGCCGTAATGAAGTGTCAGATGAAGAAATGGCGAATGGAACGACTTCAGTTTGAGAGCGAAAATAGGTCTTTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCTGATCCGCTGCTCGTGCAGTCCCGGGAAGAAATCGAATGGCTGCAAAATGCAAACGCGGCGCTCGAAGATAAAGTGAGGGATCTAGAAGAAACCCTCGCCGAACGAGATTGCTGCGACGATCCTTGTGCATCGGTACACTATATCAGGGAGAAGATGAGAGATCTGCGGGAGCGCTTTGCACTTGAAAAAAAAGAATTAAGGGACATGATATCGAACTTGAAATTAAAACTCGCGCAGACTGAGGAGGACGTGAGCTGTCCTGCGATATATCGCCTGAGGGCGAAGCTCCGCGAACTGATGAAAGGAGGTCAAACAGCGGACCAGCAGGTCTCGAAAGTCGTGGAGAGATCGATTGAAACGTTGGTGGATCTGTCGAACAGCTGCGACGATCTGCGTCTTGAAAACGAGCAGCTTTTGGCCGAGATAGCCGAGCTACGTCGTCAATTGGCGGAACTTGAAAAAATGCGACCGAAAGAACCTGTGGAAGAAATGCGACCGAAAGAACCCGTGGAAGAAATGCTACGAACAGCCGAGACAACGACGGTCCCTGAATACATAGACGTCTCCGACCTGCTGCAGAAACTCGAAGACTGCGATCACACTGTTTCCGAATTGAAACGTCAATTAGACGAGAAAGATAAGCTTATCGAGGCGCTGAAGAAACAACTTGAAAACATGGTAGATCAGCAGGCTTTGTTGGATGAGATCGCTGCCATGAAGGGGGAACTCTCGAAAAGAGACGATAAGATGAGGAACCTTCTGAACGAGATGAGGCAATCAGAGATAGACATGTTGGGCATGAGCAACCTAAGATCGGAGCTGGACACGTTGAAGCCTCGATTATCTCAACTCGAGGAGGAGAGGGACTCGTTGATAGACGAAGTGGCGAAGATGAGAAAATTATTAGCCGAAAGGAACGATCAAATAATTGATATACTGGAGCACAAGAACAAGTTAGAGCAGGAGCTGGCGGAGAAGGAGGCGGAGGCTCAGCGGATTATCGACAGCTTGAAAAAGGAGATGGACGACTTGCTGGCGCGAATGGCGAATTTGCAGGGCGAGCTCGACGAGCGTGATAAGCGAATCGCGGAGCTGGAGAAGTGTTGCTCCGAGAGGGACGAGCTTTTAGAGAAATTGCAGGCCGCGCAGGACGAGTTGGATTCGCTGCGAGGCCAACTAGCGTCTGCGAAAGCTACAATAGAGGATCTTAAGGGTGAAGTAGATTCCCTGAAGAAAGACAAGGAGAATCTGCTGAAAGAGTTGGACGAAATCAAGGAGCAGATGAATGCGTTGAGTGACCAACTAGCGGAGGAGAGAGCCGCGAAGGAGGCTCTACAAAAGGAGCTAGAATCTGCCCGGAAAGACCTCGAAGATCTGCGAAAGGAGAACTCCGATCTGAAGGGTCAGCTGGAGAAAGCAAGGAACGAGAATGACAAGCTCAAAAAAGAGAACGATGCTTTCAAAGCTGAGCTGGACGACATGACCTCGGAGCTTGATAAACTGAAGAAAGCGAATGACGAGCTGCAGAAGAACTTGGACGCAGCGAAGCTGGAGAACGATAAGTTGAAGAACGATCTAGAAGAATCTCGACAAGAGATGGACAAGCTGCGAGCTGATGGTGATGCGTTGAAGAGTTTAGATGCGGACACGAAAGCTAAGATGGACAAACTTCAGTCGCAATTGGACGATCTGAAAGCGGAAAGGGACCGGTTGGCTGGCGAGAATGCGGACATGAAGGCCAAGAATTTAGAATTGGAACGGCAATTGGATGACGCGACGAAAGCGTTGGAAAAAATGAGAGCAGAGAATGCTGATCTGCTGGAGGAGCTGGAACGTTTGAAGGCAGAACTAGCGAGAGCCAAAAGCACGATTGAACAATTGAAAGAGGAGATGGAGTCCCTGAAGAACGCGTTGGACAAGTGCGTGGGTGAGATGGAGAGGCTAACATCCGAGAATGAGGACCTTAAGGCAAAGAACGAGGCTCTTAGAGCGGAGCTTGATCGATGCAAGGCCGATAGGGACTCGTTGAAGAACGACTTAGAGCGAACCAAGGCGGAATTGGACGGTGTGATCAACGAACTGAACAAGCTGAAGGAGGAGCACGGGTTGCTTAAACAAAATTTCGACCGACTGGAAGGTGAAAGGGATAAGCTGCAGGAGGAGCTGAACAATCTGAAGAACGAGATGGGGAAGCTTCGAGAGGAAATAGATGCCGCGAAGCAGAGAGAAGCTGCGTTAAATTCCGAGCTTGATCGTATTAAGAAGGAAAAGGATGCGTTAGCATCGGAATTGAGTAAACTGAAAGATGAAAATTCAGCTTTGCAAGACGAGAGGGATCGATTGAAGAAACAATTGAACGACGCGAACGCTGAGATCGAGAAGTTGAAGGAAGAGCTGGATAGGTTGAAGGACGAGCTGGCTAGGTTGAAGGACGAGCAAGAGAACCTGGAGAAGGAGAGAGATCAGTTGAAGCAGGACAACGAGAAACTGAACGCCGAAGTTGAGCAACTTCGCAAAGAAAGAGACTCGTTAAATGGCGAGCTTGATCGCGTTAAGAAGGAGAAGGATGCGTTAGCATCGGAATTGGGCAAACTGAAAGATGAAAATGCAGCTTTGCAGGGCGAGAGGGATCGATTGGAGAAACAATTGGACGACGCGAACGCTGAGGTCGAGAAGCTGAAGGCAGAGCTGGCTAGGTTGAAGGACGAACTCGAGAAGCTGGGGAAAGAGAGAGATCAGTTGAAGCAGGACAACGAGAAACTGAACGCCGAAGTTGAACAACTGCGCAAAGAAAGGGACTCGTTGAACGACGATTTAAAGAAGCTGCGAGATGAGAATAGCAGGTTACAAGGCGAGGTGAATGATTTGAGGGAAAAACTGAATGATGAGAGGAAGGCCAACGATATCTTGAAGAAAGATTTGATGATGTTAGACAGCGAAGTGAAGGATTTGGGCAAGGCTCTTGATGAGGCCAGGGCGAAAAATGCTGCCTTAGCGGAGGAGAATCAAGCACTTCAGTCAAAGTTAAAGGATTTGCAAGATGAGCTTGGCAGTTTGAGGGCAGAGTGCGCTGATTTGAAGTCGGAGATCGAAGACTTGAAGCAGCAAATTGCTGATTTGAAGGCGAAGATCGCTAAATTGGAGGAGGACGTGGAACATTGGAAGTTAGAGAACTGTAAGATCAAGATGGAGGTGGATAAACTGAAGGAAGACTTGGAGAAAGCGTTAAAGGAGCTGAATGACTGCAAGGCCGCGAAGGACGCGTGCCAGGCAGAGGTGAACCGTCTCAAAGCCGAGAAAGCCGAGCTAGAGAAGAAACTCGCAGATTTACAGTCAGAAATTGAACAGTTGAAGAAGTCGCTTGAAGCAGAAAAATCGGCTAGAAGCAAGTGTGAGGCGGAGCTTGCAGCCCTGAGGAATGAGCTGGACGCGTTGAAGAAGGAGTTGGAAAACCTTCGAGACGAGAGCAGAAGGTGCAAAGGAGAATTGGAAGAGCTTAGAAAGAAGATCTCGGAGCTGACCAACGACCTGAACAACTGCAGAGAAGAGGTTAACGCGTTGAGAGATGCGAACGAAAAGTTGAAGGCGGAGGTGAACGCGTTGAACAACGAGAAGAACAAACTTCAAGAAGAGCGAGATAGATTGAAGAACGAAGTGGAATCTCTTCGGGCAGAGAACGCAGACCTTCGTCAAGATCGAGACAAGCTAGCGAACGAAACTAACAGGCTGAGGGGCGAGGGTGATGGACAGAAATCAGAGCTTGACAACTTGAAGTCCGACTTATCTGCGCAGAAGGCTGCTGTGCAGAAGCTGCAAAATGATTTGAAGAAATGCCAGGACGAGAACGACAGGTTGAAACAGCAACTGGCTGAGATGGAGAAGTTGAAGGACGAGAAGAATCGATTGGAAAAGGCGTTAGCAGACGCGGAAGCTAAAGCGAAGGCTCTGGAAGGCCAGCTGAAAGATCTGCAGGCCGAGAAACAAGAGCTGCTCAATGAGCTGCAACGGCTGCGCGACGAGATGGGTCGCCTTATAAACGAGATTGACAAACATAAAGCTGCTACTGAAGCAGCCATGAGAGAACTGGCTGCCTTGAAGCAGGAGTTAAGCAATTTGAGAGCTACGCTGGACAAAGCCCGCGCCGAAAACGAAGCATTGAACAAAGAGAACGAGAAACTGAAGTCGGACATGGCGAAATTAAATCAGCAGCTGCAGGCATTGCAGGAAGAGAACGCGCAGCTGAAGAAGGAGAACGAGCAGCTAGCCTCGGAATTAGCAGCGGCAAAGGAGAAATTAAAAGAAGCTGAAGACATGTTGAACAATTTGCGCAAGGAAAATGATGATTTGAAGAAGAGGATCGCTGATCTTGAAAATACTGTGAAGGAGTTGGAGACGCTGAAGAAACAGCTGGAGGATTGCAGGGCCGAGTTGGCCAGGTTGAAGGCGGAATTGGAGAAATTGAAAGAGGAGAATGAGAATTTGAAAAACCAGCTAAGGGATGCCCAAAATGAGTTGAAGGAGGTTAAGGACTTGAAGGATAAGCTGCAGCAGGAACTTGATGCTTTGAAGGCTGATCATGATAGATTGAAGGACGAGTTAGGGAAACTGAAGGAGATTAATGAGAAATTGAAGGACGAGTTGGACGATTTGAAGGCACTGAATGATAAATTGAAGGATGATTTGAAAAATCAGAAGGCGATCAATGATAAGCTGAAGGAGGAGGCAGAGCAGTTGAAGAAAGAACTTGAAGCGCAGAAGGCTGCCAATGATATGCTGAAGGATGAGGCAGATATGTTGAAGAAAGAACTTGAAGCGCAGAAGGCTGCCAATGATAAGTTGAAGGACGATCAGAAGAAGTTGTTGGCTGACATCGATAAATTAAAGGATGCCGGTAGAAGTTCTGAGGCAGGGTTAACGAATGAATTGGATAGGTTGAAGAAGGAAAATAATAACTTGAAGTCTGAAATTGAGAGGTTGAAGAAGGAAAATGATGAATTGAAGTCTGAAATCGAGAGGTTGAAAAAGGAATTGAATAATTGCCAGGATTATAATGACAGGCTGCGCAGAGAATTGGAAGGCTGCAAAGACGAACTTAAGAAACTGAAAGCTACTGCAGATCAAGATACAGTGACTTTAAGAAGCCTAGCAGACGATTGTGGCGATTACATCAGAGCAAATGATTTGTTAAGGAAAAGACTTGACAAGCAAAATGAAGGTGTACAACGTGTTCGTGACTACATAACGTTCCTGGAGGGTAAAGTTGAAAATGAACCCAAAATGGCGGACGAATTGGAGGACGATTCCAGCATTGACCCAGAAATGAAAAAGGAGATAGAAGAGTTACTGAAAAAGTCGCAGGATTTATCTGAAAATATTTATAACACTGAAAAAGAAATTCAGAATATTGCTGCTATTTTAAAACAACTTAAGGATGCTCCACCTATTGTTAGCGACAAGGCATTTGATCCCGATTCGTGGCTTAACTCGTTGAAGTTAACGCAATTGGCCGAGCTCCACGACAAGATTTGCCTATTGACATCGGACATGGTGCATCAGGACAAGCCGAGGCCAGTTAGTTGTATACCAGGGAGTCCACTAAGTGCGGATTACAATATTTTAAATCAGCGGATAGCCGCTCTGCAGAAACAGATAGCGGAGAAGCAAATGGAGACGGGATGGAAGCTAGAAGAGCTGAAGCGAGCTCTTCGGCAGGAGCAGGCTAACCTAATTCGAATCTCCGACGAAATGAATTTAGAGAGAAAACGTAATTTGGCCCTTCAGTTAGGAATGGATGATGCATCTTAA
Protein Sequence: MESMNPPNEPCCCCSYNPFSDNAKESEIYDLSFALRKLAVMKCQMKKWRMERLQFESENRSLKQALQSFGVNVDEILKPDPLLVQSREEIEWLQNANAALEDKVRDLEETLAERDCCDDPCASVHYIREKMRDLRERFALEKKELRDMISNLKLKLAQTEEDVSCPAIYRLRAKLRELMKGGQTADQQVSKVVERSIETLVDLSNSCDDLRLENEQLLAEIAELRRQLAELEKMRPKEPVEEMRPKEPVEEMLRTAETTTVPEYIDVSDLLQKLEDCDHTVSELKRQLDEKDKLIEALKKQLENMVDQQALLDEIAAMKGELSKRDDKMRNLLNEMRQSEIDMLGMSNLRSELDTLKPRLSQLEEERDSLIDEVAKMRKLLAERNDQIIDILEHKNKLEQELAEKEAEAQRIIDSLKKEMDDLLARMANLQGELDERDKRIAELEKCCSERDELLEKLQAAQDELDSLRGQLASAKATIEDLKGEVDSLKKDKENLLKELDEIKEQMNALSDQLAEERAAKEALQKELESARKDLEDLRKENSDLKGQLEKARNENDKLKKENDAFKAELDDMTSELDKLKKANDELQKNLDAAKLENDKLKNDLEESRQEMDKLRADGDALKSLDADTKAKMDKLQSQLDDLKAERDRLAGENADMKAKNLELERQLDDATKALEKMRAENADLLEELERLKAELARAKSTIEQLKEEMESLKNALDKCVGEMERLTSENEDLKAKNEALRAELDRCKADRDSLKNDLERTKAELDGVINELNKLKEEHGLLKQNFDRLEGERDKLQEELNNLKNEMGKLREEIDAAKQREAALNSELDRIKKEKDALASELSKLKDENSALQDERDRLKKQLNDANAEIEKLKEELDRLKDELARLKDEQENLEKERDQLKQDNEKLNAEVEQLRKERDSLNGELDRVKKEKDALASELGKLKDENAALQGERDRLEKQLDDANAEVEKLKAELARLKDELEKLGKERDQLKQDNEKLNAEVEQLRKERDSLNDDLKKLRDENSRLQGEVNDLREKLNDERKANDILKKDLMMLDSEVKDLGKALDEARAKNAALAEENQALQSKLKDLQDELGSLRAECADLKSEIEDLKQQIADLKAKIAKLEEDVEHWKLENCKIKMEVDKLKEDLEKALKELNDCKAAKDACQAEVNRLKAEKAELEKKLADLQSEIEQLKKSLEAEKSARSKCEAELAALRNELDALKKELENLRDESRRCKGELEELRKKISELTNDLNNCREEVNALRDANEKLKAEVNALNNEKNKLQEERDRLKNEVESLRAENADLRQDRDKLANETNRLRGEGDGQKSELDNLKSDLSAQKAAVQKLQNDLKKCQDENDRLKQQLAEMEKLKDEKNRLEKALADAEAKAKALEGQLKDLQAEKQELLNELQRLRDEMGRLINEIDKHKAATEAAMRELAALKQELSNLRATLDKARAENEALNKENEKLKSDMAKLNQQLQALQEENAQLKKENEQLASELAAAKEKLKEAEDMLNNLRKENDDLKKRIADLENTVKELETLKKQLEDCRAELARLKAELEKLKEENENLKNQLRDAQNELKEVKDLKDKLQQELDALKADHDRLKDELGKLKEINEKLKDELDDLKALNDKLKDDLKNQKAINDKLKEEAEQLKKELEAQKAANDMLKDEADMLKKELEAQKAANDKLKDDQKKLLADIDKLKDAGRSSEAGLTNELDRLKKENNNLKSEIERLKKENDELKSEIERLKKELNNCQDYNDRLRRELEGCKDELKKLKATADQDTVTLRSLADDCGDYIRANDLLRKRLDKQNEGVQRVRDYITFLEGKVENEPKMADELEDDSSIDPEMKKEIEELLKKSQDLSENIYNTEKEIQNIAAILKQLKDAPPIVSDKAFDPDSWLNSLKLTQLAELHDKICLLTSDMVHQDKPRPVSCIPGSPLSADYNILNQRIAALQKQIAEKQMETGWKLEELKRALRQEQANLIRISDEMNLERKRNLALQLGMDDAS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00860130;
90% Identity: iTF_00860869;
80% Identity: -