Basic Information

Insect: Lasioglossum malachurum
Gene Symbol: -
Assembly: GCA_028455605.1
Location: CM052316.1:8521160-8531027[-]

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 1.4 1.2e+03 -0.4 0.1 26 50 44 68 39 75 0.67

2 46 1.4 1.1e+03 -0.3 0.8 33 55 89 111 86 114 0.66

3 46 6.3 5.3e+03 -2.4 1.2 36 60 137 161 128 164 0.71

4 46 0.0008 0.67 10.0 2.4 30 61 203 234 196 237 0.89

5 46 1.3 1.1e+03 -0.2 2.9 28 63 295 330 293 332 0.91

6 46 0.17 1.5e+02 2.6 0.4 30 55 383 408 374 416 0.79

7 46 0.84 7.1e+02 0.4 3.8 26 62 421 461 419 464 0.74

8 46 1.5 1.3e+03 -0.5 1.4 33 62 470 499 462 502 0.73

9 46 3.8e-05 0.032 14.3 4.0 24 63 503 542 500 544 0.94

10 46 0.019 16 5.7 7.1 24 64 531 571 531 572 0.94

11 46 0.77 6.4e+02 0.5 12.4 27 61 552 589 542 591 0.60

12 46 0.00021 0.18 11.9 5.0 26 65 568 607 566 607 0.91

13 46 0.05 42 4.3 7.3 21 60 605 644 604 649 0.94

14 46 0.00015 0.13 12.4 5.1 24 62 657 695 656 695 0.95

15 46 0.00025 0.21 11.6 7.8 23 63 684 724 683 726 0.95

16 46 0.12 1e+02 3.0 1.2 40 62 729 751 722 753 0.78

17 46 3.1e-05 0.026 14.6 1.4 33 62 750 779 748 782 0.90

18 46 0.0026 2.2 8.4 7.7 24 62 804 842 800 852 0.57

19 46 0.0016 1.3 9.1 5.8 21 57 857 893 843 901 0.73

20 46 0.17 1.5e+02 2.5 5.9 27 60 884 917 881 922 0.66

21 46 8.7e-06 0.0073 16.3 7.5 22 62 914 954 913 957 0.93

22 46 0.0013 1.1 9.4 5.0 22 64 956 998 955 999 0.87

23 46 0.00035 0.29 11.2 13.0 22 65 1005 1048 997 1048 0.94

24 46 0.0015 1.2 9.2 3.6 26 57 1037 1068 1035 1076 0.87

25 46 0.054 45 4.2 3.4 36 57 1047 1068 1046 1104 0.80

26 46 0.00026 0.22 11.6 2.8 33 64 1100 1131 1083 1132 0.90

27 46 6.8e-05 0.057 13.5 4.2 25 63 1106 1144 1099 1146 0.88

28 46 0.006 5 7.2 1.5 24 63 1140 1179 1139 1181 0.93

29 46 0.00018 0.15 12.1 5.6 24 64 1189 1229 1188 1230 0.91

30 46 0.021 17 5.5 6.1 26 64 1233 1271 1229 1272 0.81

31 46 0.021 17 5.5 2.2 30 64 1258 1292 1257 1293 0.89

32 46 0.04 34 4.6 7.7 24 61 1273 1310 1266 1315 0.70

33 46 8.5e-06 0.0071 16.4 10.0 21 64 1298 1341 1292 1342 0.92

34 46 0.0066 5.5 7.1 7.7 23 53 1370 1400 1368 1418 0.85

35 46 3.3e-06 0.0028 17.7 5.3 26 65 1418 1457 1415 1457 0.91

36 46 0.08 67 3.6 8.7 23 64 1471 1512 1458 1512 0.91

37 46 3.6e-05 0.03 14.4 12.9 26 64 1502 1540 1497 1541 0.92

38 46 0.076 63 3.7 6.4 24 61 1535 1572 1534 1576 0.85

39 46 0.028 24 5.1 9.6 28 63 1570 1605 1566 1614 0.90

40 46 0.0031 2.6 8.2 7.2 24 65 1615 1656 1607 1656 0.93

41 46 0.079 66 3.7 6.7 24 60 1657 1693 1654 1696 0.85

42 46 0.32 2.7e+02 1.7 8.1 21 60 1696 1735 1690 1739 0.84

43 46 1.4e-06 0.0012 18.9 5.1 27 64 1741 1778 1734 1779 0.91

44 46 0.00078 0.65 10.1 2.4 25 61 1774 1810 1773 1813 0.92

45 46 1 8.6e+02 0.1 0.5 41 60 1877 1896 1850 1916 0.65

46 46 3.2 2.7e+03 -1.5 1.2 36 51 1998 2013 1977 2021 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	46	1.4	1.2e+03	-0.4	0.1	26	50	44	68	39	75	0.67
2	46	1.4	1.1e+03	-0.3	0.8	33	55	89	111	86	114	0.66
3	46	6.3	5.3e+03	-2.4	1.2	36	60	137	161	128	164	0.71
4	46	0.0008	0.67	10.0	2.4	30	61	203	234	196	237	0.89
5	46	1.3	1.1e+03	-0.2	2.9	28	63	295	330	293	332	0.91
6	46	0.17	1.5e+02	2.6	0.4	30	55	383	408	374	416	0.79
7	46	0.84	7.1e+02	0.4	3.8	26	62	421	461	419	464	0.74
8	46	1.5	1.3e+03	-0.5	1.4	33	62	470	499	462	502	0.73
9	46	3.8e-05	0.032	14.3	4.0	24	63	503	542	500	544	0.94
10	46	0.019	16	5.7	7.1	24	64	531	571	531	572	0.94
11	46	0.77	6.4e+02	0.5	12.4	27	61	552	589	542	591	0.60
12	46	0.00021	0.18	11.9	5.0	26	65	568	607	566	607	0.91
13	46	0.05	42	4.3	7.3	21	60	605	644	604	649	0.94
14	46	0.00015	0.13	12.4	5.1	24	62	657	695	656	695	0.95
15	46	0.00025	0.21	11.6	7.8	23	63	684	724	683	726	0.95
16	46	0.12	1e+02	3.0	1.2	40	62	729	751	722	753	0.78
17	46	3.1e-05	0.026	14.6	1.4	33	62	750	779	748	782	0.90
18	46	0.0026	2.2	8.4	7.7	24	62	804	842	800	852	0.57
19	46	0.0016	1.3	9.1	5.8	21	57	857	893	843	901	0.73
20	46	0.17	1.5e+02	2.5	5.9	27	60	884	917	881	922	0.66
21	46	8.7e-06	0.0073	16.3	7.5	22	62	914	954	913	957	0.93
22	46	0.0013	1.1	9.4	5.0	22	64	956	998	955	999	0.87
23	46	0.00035	0.29	11.2	13.0	22	65	1005	1048	997	1048	0.94
24	46	0.0015	1.2	9.2	3.6	26	57	1037	1068	1035	1076	0.87
25	46	0.054	45	4.2	3.4	36	57	1047	1068	1046	1104	0.80
26	46	0.00026	0.22	11.6	2.8	33	64	1100	1131	1083	1132	0.90
27	46	6.8e-05	0.057	13.5	4.2	25	63	1106	1144	1099	1146	0.88
28	46	0.006	5	7.2	1.5	24	63	1140	1179	1139	1181	0.93
29	46	0.00018	0.15	12.1	5.6	24	64	1189	1229	1188	1230	0.91
30	46	0.021	17	5.5	6.1	26	64	1233	1271	1229	1272	0.81
31	46	0.021	17	5.5	2.2	30	64	1258	1292	1257	1293	0.89
32	46	0.04	34	4.6	7.7	24	61	1273	1310	1266	1315	0.70
33	46	8.5e-06	0.0071	16.4	10.0	21	64	1298	1341	1292	1342	0.92
34	46	0.0066	5.5	7.1	7.7	23	53	1370	1400	1368	1418	0.85
35	46	3.3e-06	0.0028	17.7	5.3	26	65	1418	1457	1415	1457	0.91
36	46	0.08	67	3.6	8.7	23	64	1471	1512	1458	1512	0.91
37	46	3.6e-05	0.03	14.4	12.9	26	64	1502	1540	1497	1541	0.92
38	46	0.076	63	3.7	6.4	24	61	1535	1572	1534	1576	0.85
39	46	0.028	24	5.1	9.6	28	63	1570	1605	1566	1614	0.90
40	46	0.0031	2.6	8.2	7.2	24	65	1615	1656	1607	1656	0.93
41	46	0.079	66	3.7	6.7	24	60	1657	1693	1654	1696	0.85
42	46	0.32	2.7e+02	1.7	8.1	21	60	1696	1735	1690	1739	0.84
43	46	1.4e-06	0.0012	18.9	5.1	27	64	1741	1778	1734	1779	0.91
44	46	0.00078	0.65	10.1	2.4	25	61	1774	1810	1773	1813	0.92
45	46	1	8.6e+02	0.1	0.5	41	60	1877	1896	1850	1916	0.65
46	46	3.2	2.7e+03	-1.5	1.2	36	51	1998	2013	1977	2021	0.64

Sequence Information

Coding Sequence: ATGGAATCGATGAATCCACCGAACGAGCCATGTTGTTGCTGCAGTTACAATCCCTTCAGCGACAATGCGAAAGAATCGGAGATTTACGACCTCTCGTTTGCCCTGAGGAAACTGGCCGTAATGAAGTGTCAGATGAAGAAATGGCGAATGGAACGACTTCAGTTCGAGAGCGAAAATAGGTCTTTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCTGATCCGCTGCTCGTGCAGTCCCGGGAAGAAATCGAATGGCTGCAAAATGCAAACGCGGCGCTCGAAGATAAAGTGAGGGATCTAGAAGAAACCCTCGCCGAACGAGATTGCTGCGACGATCCTTGTGCATCGGTACACTATATCAGGGAGAAGATGAGAGATCTGCGGGAGCGCTTTGCACTTGAAAAAAAAGAATTAAGGGACATGATATCGAACTTGAAATTAAAACTCGCGCAGACTGAGGAGGACGTGAGCTGTCCTGCGATATATCGCCTGAGGGCGAAGCTCCGCGAACTGATGAAAGGAGGTCAAACAGCGGACCAGCAGGTCTCGAAAGTCGTGGAGAGATCGATTGAAACGTTGGTGGATCTGTCGAACAGCTGCGACGATCTGCGTCTTGAAAACGAGCAGCTTTTGGCCCAGATAGCCGAGCTACAACGTCAATTGGCGGAACTTGAAAAAATGCGACCGGAAGAACCTGTGCAAGTAAGGCTAATGGTAGAACCTGTGGAAGAAATGCGGATGGAAGAGCCGGTGGAAGAAACGCGGATGGAAGAGCCGGTGGAAGAAATGCGGATGGAAGAGCCGATGGAAGAAATGCTACGAACAGCCGAGACGACGACGGTTCCTGAATACATAGACGTCTCCGACTTGCTGCAGAAACTCGAAGACTGCGATCACACTGTTTCCGAATTGAAACGTCAATTAGACGAGAAAGATAAGCTTATCGAGGCGCTGAAGAAACAACTTGAAAACGTGGTAGATCAGCAGGCTTTGCTGGATGAGATCGGTGCCATGAAGGGGGAACTCACGAAAAGAGACGATAAGATGAGGAACCTTCTGAACGAGATGAGGCAATCAGAGATAGACCTGTTGGGCATGAGCAACCTAAGATCGGAGCTGGACATCTTGAAGCCTCGATTATCTGAACTCGAGGATGAGCGGGACTCGTTGATAGACGAAGTGGCGAAGATGAGAAAATTATTAGCCGAAAGGAACGATCAAATAATTGATATACTGGAGCACAAGAACAAGTTAGAGCAGGACCTGGCGGAGAAGGAGGCGGAGGCTCAGCAGATTATTGACAGCTTGAAACAGGAGATAGACGACTTGCAGGCGCGAATGGCGAATTTGCAGGGCGAGCTCGACGAGCGTGATAAGCGAATCGCGGAGCTGGAGAAGTGTTGTTCCGACAGGGACGAGCTTTTAGAGAAATTACAGGCAGCGCAGGACGAGTTGGCTTCGTTGCGAGGCGAACTAGCGTCTGCGAAAGCTACAATAGAGGATCTTAACGGTGAAGTAGATGCCCTGAAGAAAGACAAGGAGAAACTGCAGAAAGAGTTGGACGAAATCAAGGAGCAGATGAATGCGTTGAGTGACCAACTAGCGGAGGAGAGAGCCGCGAAGGAGGCTCTACAAAAGGAGCTAGAATCTGCCCGGAAAGACCTCGAAGACCTGCGGAAGGAGAACTCCGATCTGAAGGGTCAGCTGGAGCAAGCAAGGGAGGAGAATGACAAGCTCAAACAAGAGAACGATGCTTTCAAAGCTGAGCTGGATAACATGACCTCGGAGCTTGATAAACTGAAGAAAGCGAATGACGAGCTGCAGAAGAACTTGGACGCAGCGAAGCTGGAGAACGATAAGTTGAAGAACGATCTAGAAGAATCTCGACAAGAGATGGACAGGTTGCGAGCTGATGGTGATGCATTGAAGAGTTCAGATGCGGATACAAAAGCTAAGATGAACAAACTTCAGTCGCAATTGGACGATCTGGAAGCGGAAAGGGATCGGTTGGCTGGCGAGAATGCGGACATGAAGGCCAAGAATTTGGAATTAGAACGGCAATTGGATGACGCGACGAAAGAGTTGGACAAAATGAGAGCAGAGAATGCTGATCTGCTGGAGGAGCTGGAACGTTTGAAGGCAGAACTAGCGAGAGCCAATAGCACGATTGAACAATTGAAAGAGGAGATGGAATCCCTGAAGAACGCTTTGGACAAGTGCGTGGGTGAGATGGAGAAGCTAACATCCGAGAATGAGGACCTTAAGGCGAAGAACGAGGCTCTTAGAGCGGAGCTTGATCGATGCAAGGCCGATAGGGACTCGCTGAAGAACGACTTAGAGCGAACCAAGGCGGAATTGGACGGTGTGATCAACGAACTGAACAAGCTGAAGGAGGAGCACGGGTTGCTTAAACAAAATTTCGACCGACTGGAAGGTGAAAGGGATAAGCTGCAGGAGGAGCTGAACAATCTGAAGAACGAGATGGGGAAGCTTCGAGAGGAAATAGATGCCGCGAAGCAGAGAGAAGCTGCGTTAAATTCCGAGCTTGATCGTGTTAAGAAGGATGACGATGCGTTGGCATCGGAATTGGGTGAACTGAAAGATGAAAATGCAGCTTTGCAGGACGAGAGGGATCGATTGAAGAAACAATTGAACGACGCGAACGCTGACATCGAGAAGTTGAAGGAAGAGTTGGATAGGTTGAAAGGCGAGCTGGCTAGGTTGAAGGAGGATGACGAGAACCTGGGGAAGGAGAGAGATCAGTTGAAGCAGGACAACGAGAAACTTAACGCCGAAGTTGAGCAACTTCGCAAAGAGAGAGACTCGTTAAACGGCGAGCTTGATCGTGTTAAGAAGGAAAAGGATGCGTTAGCATCGGAATTGGGCAAACTGAAAGATGAAAATGCAGCTTTGCAGGGCGAAAAGGATCGATTGGAGAAACAATTGAACGACGCGAACGCTGAGATCGAGAAACTGAAGGAAGAGCTGGCTAGGTTAAAGGACGAGCACGAGAAGCTGGGGAAAGAGAGAGATCAGTTGAAGCAGGACAACGAGAAACTTAACGCCGAAGTTGAACAACTGCGCAAAGAAAGAGACTCGTTGAACGACGATTTAAAGAAGCTGCGGGATGAGAATAGCAGGTTACAAGGCGAGGTGAATGATTTGAGGGAAAAACTGAATGATGAGAGAAAGGCCAACGAGATCTTGAAGAAAGATTTGATGATGTTAGACAGCGAGGTGAAGGATTTGGGTAAGGCTCTTGATGAGGCCAGGGCGAAAAATGCTACCTTAGCGGAGGAGAATCAAGCGCTTCAGTCGAAGTTAAAGGATTTGCAAGACGAGCTTGGCAGTTTGAGGGCAGAGTGCGCTGATTTGAAATCGGAGATCGAAGACTTGAAGCAGCAAATTGCTGATTTGAAGGCGAAGATCGCTAAATTGGAGGAGGACGTGGAACATTGGAAGTTAGAGAACTGTAAGATCAAGATGGAGGTGGATAAACTGAAGGACGACTTGGAGAGGGCGTTAAAGGATCTGAATGACTGCAAGGCCGCGAAGGACGCGTGCCAGGCAGAGGTGAACCGTCTCAAAGCCGAGAAAGCCGATCTAGAGAAGAAACTCGCAGACTTACAGTCAGAAATTGAACAGTTGAAGAAGTCGCTTGAAGCAGAAAAATCGGCTAAAAGCAAGTGTGAGGCGGAGCTTGCAGCCCTGAGGAATGAGCTGGACGCGTTGAAGAAGGAGTTGGAAAACCTTCGAGACGAGAGCAGAAGGTGCAAAGGGGAATTAGAAGAGCTTAGAAAGAAGATCTCGGAGCTGACCAACGACCTGAACAAGTGCAAAGAAGAGGTGAACGCGTTGAGAGATGCGAACGACAAGTTGAAGGCGGAGGTGAACGCGTTGAACAATGAGAAGAACAAACTTCAAGAGGAGCGAGATAGATTGAAGAACGAAGCGGAATCCCTCCGGGCAGAGAACGCAGACCTTCGTCAAGATCGAGACAAGCTAGCGAACGAAACTAACCGACTGAGGGGCGAGGGTGATGGACAGAAATCGGAGCTTGACAACTTGAAGTCTGACTTATCTGCACAGAAGGCTGCTGTTCAGAAGCTGCAAGACGATTTGAAGAAATGCCAGGACGAGAACGACAGGTTGAAACAGCAACTGGGTGAGATGGAGAAGTTGAAGGACGAGAAGAATCGATTGGAAAAGGCGTTAGCAGACGTGGAAGCTAAAGCGAAGGCTCTGGAAGGCCAGCTGAAAGATCTGCAGGCTGAGAAACAAGAGCTGCTCAATGAGCTGCAACGGCTGCGCGACGAGGTGGGTCGCCTTATGAACGAGATTGACAAACACAAAGCTGCTACTGAAGCAGCCATGAAAGAACTGACTGCCTTGAAGCAGGAGTTAAGCAATTTGAGAGCTACGCTGGATAAAGCCCGCGCCGAAAACGAAGCATTGAACAAAGAGAACGAGAAACTGATGTCGGACATGGCGAAATTAAATCAGCAGCTGCAGGCGTTGCAGGAAGAGAACGCGAAGCTGAAGAAGGAGAACGAGCAGTTGGCCTCGGAATTAGCAGCGGCAAAGGAGAAATTAAAAGAAGCCGAAGACATGTTGAACAATCTGCGCAAGGAAAATGATGATTTGAAGAAGAGGATCGCTGATCTTGAAAATACTGTGAAGGAGTTGGAGACGCTGAAGAAACAGCTGGAGGATTGCAGGGCCGAGTTGGCGAGGTTGAAGGCGGAATTGGAGAAATTGAAAGGGGAGAATGAGAATTTGAAAAACCAGCTGAGTGATGCTCAAAATGAGTTGAAGGAGATTAAGGACTTGAAGAATAAGCTGCAGCAGGAACTTGATGCTTTGAAGGCCGATCATGATAGATTGAAAGGCGAGTTAGAGAAACTGAAGGAGATTAATGAGAAATTGAAGGACGAGTTGGATGCTTTGAAGGCATTGAATGATAAATTGAAGGATGATTTGAAAAATCAGAAGGCGATCAATGATAAGCTGAAGGAGGAGGCAGAGAAGTTGAAGAAAGAACTTGAAGCGCAGAAGGCTGCCAATGATATGCTGAAGGATGAGGCAGAGAAGTTGAAGAAAGAACTTGAAGCGCAGAAGGCTGCCAATGAGAAGTTGAAGGATGATCAGAAGAAGTTGTTGGCTGACATTGATAAATTAAAGGATGCGGGTAGAAGTTCTGAGGCAGGGTTAACGAATGAAATGGATAGGCTGAAGAAGGAAAATAATGACTTGAAGTCTGAAATTGAGAGGTTGAAGAAGGAAAATGATGAATTGAAGTCTGAAATTGAGAGGTTGAAGAAGGAATTGAATAATTGCCAGGATTATAATGATAGGCTGCGCAGAGAAATGGAAGGCTGCAAAGACGAACTTAAGAAACTGAAAGCTGCGGCAGATCAAGATACAGTGACTTTAAGAAGCCTAGCAGACGATTGTGGCGATTACATCAGGGCAAATGATTTGTTAAGGGAAAAACTTGACAAGCAAAACGAAGGTGTACAACGTGTCCGTGACTACATAGCTTTCCTGGAGGGTAAAGTTGAAAATGAACCCAAAATGGCGGACGAATTGGAGGACGATTCCAGCATTGACCCAGAAATGAAAAAGGAGATAGAAGAGTTACTGAAAAAGTCGCGGGATTTATCTGAAAATATTTATAACACTGAAAAAGAAATTCAGAATATTGCTGCTATGCTGAAACAACTTAAGGATGTTCCAGTTAGCGACAAGGCGTTTGATCCCGATTCGTGGCTTAACTCGTTGAAGTTAACGCAACTGGCAGATCTCCACGACAAGATTTGCCTATTGACATCGGACATGGTGCATCAGGACAAGCCGAGAGCAGTTAGTTGTGTCCCCGGGAGTCCACTAAGTGCGGATTACAATATTTTAAATCAGCGGATAGCCGCTCTGCAGAAACAGATAGCGGAGAAGCAAATGGAGACGGGATGGAAGCTAGAAGAGCTGAAGCGAGCTCTTCGGCAGGAGCAGGCTAACCTAATTCGAATCTCCGACGAAATGAATTTAGAGAGAAAACGTAATTTGGCCCTTCAGTTAGGAATGGATGATGCATCTTAA
Protein Sequence: MESMNPPNEPCCCCSYNPFSDNAKESEIYDLSFALRKLAVMKCQMKKWRMERLQFESENRSLKQALQSFGVNVDEILKPDPLLVQSREEIEWLQNANAALEDKVRDLEETLAERDCCDDPCASVHYIREKMRDLRERFALEKKELRDMISNLKLKLAQTEEDVSCPAIYRLRAKLRELMKGGQTADQQVSKVVERSIETLVDLSNSCDDLRLENEQLLAQIAELQRQLAELEKMRPEEPVQVRLMVEPVEEMRMEEPVEETRMEEPVEEMRMEEPMEEMLRTAETTTVPEYIDVSDLLQKLEDCDHTVSELKRQLDEKDKLIEALKKQLENVVDQQALLDEIGAMKGELTKRDDKMRNLLNEMRQSEIDLLGMSNLRSELDILKPRLSELEDERDSLIDEVAKMRKLLAERNDQIIDILEHKNKLEQDLAEKEAEAQQIIDSLKQEIDDLQARMANLQGELDERDKRIAELEKCCSDRDELLEKLQAAQDELASLRGELASAKATIEDLNGEVDALKKDKEKLQKELDEIKEQMNALSDQLAEERAAKEALQKELESARKDLEDLRKENSDLKGQLEQAREENDKLKQENDAFKAELDNMTSELDKLKKANDELQKNLDAAKLENDKLKNDLEESRQEMDRLRADGDALKSSDADTKAKMNKLQSQLDDLEAERDRLAGENADMKAKNLELERQLDDATKELDKMRAENADLLEELERLKAELARANSTIEQLKEEMESLKNALDKCVGEMEKLTSENEDLKAKNEALRAELDRCKADRDSLKNDLERTKAELDGVINELNKLKEEHGLLKQNFDRLEGERDKLQEELNNLKNEMGKLREEIDAAKQREAALNSELDRVKKDDDALASELGELKDENAALQDERDRLKKQLNDANADIEKLKEELDRLKGELARLKEDDENLGKERDQLKQDNEKLNAEVEQLRKERDSLNGELDRVKKEKDALASELGKLKDENAALQGEKDRLEKQLNDANAEIEKLKEELARLKDEHEKLGKERDQLKQDNEKLNAEVEQLRKERDSLNDDLKKLRDENSRLQGEVNDLREKLNDERKANEILKKDLMMLDSEVKDLGKALDEARAKNATLAEENQALQSKLKDLQDELGSLRAECADLKSEIEDLKQQIADLKAKIAKLEEDVEHWKLENCKIKMEVDKLKDDLERALKDLNDCKAAKDACQAEVNRLKAEKADLEKKLADLQSEIEQLKKSLEAEKSAKSKCEAELAALRNELDALKKELENLRDESRRCKGELEELRKKISELTNDLNKCKEEVNALRDANDKLKAEVNALNNEKNKLQEERDRLKNEAESLRAENADLRQDRDKLANETNRLRGEGDGQKSELDNLKSDLSAQKAAVQKLQDDLKKCQDENDRLKQQLGEMEKLKDEKNRLEKALADVEAKAKALEGQLKDLQAEKQELLNELQRLRDEVGRLMNEIDKHKAATEAAMKELTALKQELSNLRATLDKARAENEALNKENEKLMSDMAKLNQQLQALQEENAKLKKENEQLASELAAAKEKLKEAEDMLNNLRKENDDLKKRIADLENTVKELETLKKQLEDCRAELARLKAELEKLKGENENLKNQLSDAQNELKEIKDLKNKLQQELDALKADHDRLKGELEKLKEINEKLKDELDALKALNDKLKDDLKNQKAINDKLKEEAEKLKKELEAQKAANDMLKDEAEKLKKELEAQKAANEKLKDDQKKLLADIDKLKDAGRSSEAGLTNEMDRLKKENNDLKSEIERLKKENDELKSEIERLKKELNNCQDYNDRLRREMEGCKDELKKLKAAADQDTVTLRSLADDCGDYIRANDLLREKLDKQNEGVQRVRDYIAFLEGKVENEPKMADELEDDSSIDPEMKKEIEELLKKSRDLSENIYNTEKEIQNIAAMLKQLKDVPVSDKAFDPDSWLNSLKLTQLADLHDKICLLTSDMVHQDKPRAVSCVPGSPLSADYNILNQRIAALQKQIAEKQMETGWKLEELKRALRQEQANLIRISDEMNLERKRNLALQLGMDDAS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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