Basic Information

Insect: Bombus lapidarius
Gene Symbol: -
Assembly: GCA_936014575.1
Location: CAKXZU010000004.1:6650469-6662708[-]

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 0.18 1.2e+02 2.7 0.5 32 57 53 78 47 85 0.54

2 43 4.2 2.8e+03 -1.7 1.6 33 55 99 121 97 124 0.54

3 43 6 3.9e+03 -2.2 0.1 40 60 151 171 146 174 0.86

4 43 0.036 23 4.9 0.5 30 56 212 238 204 244 0.82

5 43 0.48 3.1e+02 1.3 0.3 28 63 265 300 263 302 0.89

6 43 0.011 7.5 6.5 5.1 29 62 345 378 343 381 0.78

7 43 0.015 10 6.1 5.6 24 64 400 440 397 441 0.93

8 43 0.00056 0.37 10.7 0.5 24 58 466 500 464 506 0.82

9 43 0.13 85 3.1 3.4 22 64 520 562 518 563 0.90

10 43 0.039 25 4.8 5.9 20 63 560 603 558 605 0.78

11 43 0.012 7.6 6.5 7.3 25 63 607 645 603 647 0.84

12 43 0.035 23 5.0 1.3 26 58 643 675 640 682 0.89

13 43 0.084 55 3.7 1.6 21 64 659 702 658 703 0.83

14 43 7.5e-05 0.049 13.5 3.9 28 65 722 759 708 759 0.89

15 43 0.087 58 3.7 4.6 41 58 766 783 751 811 0.53

16 43 0.17 1.1e+02 2.7 0.4 35 63 802 830 788 832 0.66

17 43 0.39 2.6e+02 1.6 6.2 26 59 825 858 808 865 0.85

18 43 7.5e-05 0.05 13.5 3.8 25 65 869 909 858 909 0.79

19 43 0.0083 5.4 7.0 0.2 33 63 905 935 903 937 0.87

20 43 0.013 8.6 6.3 2.8 24 58 942 979 940 986 0.78

21 43 0.01 6.8 6.7 0.3 27 63 969 1005 968 1007 0.87

22 43 0.028 19 5.2 0.1 33 62 1003 1032 997 1034 0.88

23 43 0.0034 2.3 8.2 3.6 28 62 1026 1060 1014 1063 0.73

24 43 7.1e-06 0.0047 16.8 4.0 27 62 1060 1095 1057 1098 0.89

25 43 0.27 1.8e+02 2.1 0.7 29 60 1094 1125 1093 1129 0.83

26 43 0.0013 0.89 9.5 0.6 21 62 1117 1158 1116 1160 0.93

27 43 0.0011 0.69 9.8 3.4 25 58 1177 1210 1166 1217 0.79

28 43 0.0025 1.7 8.6 1.8 26 64 1206 1244 1204 1250 0.71

29 43 0.1 66 3.5 3.3 24 64 1272 1314 1269 1315 0.81

30 43 0.0032 2.1 8.3 2.0 18 62 1324 1368 1320 1371 0.90

31 43 0.075 50 3.9 1.4 27 64 1361 1398 1355 1406 0.62

32 43 0.44 2.9e+02 1.4 1.1 24 52 1403 1431 1400 1440 0.56

33 43 0.0016 1.1 9.2 2.5 26 62 1475 1511 1473 1514 0.92

34 43 0.14 91 3.1 5.6 25 62 1516 1553 1513 1556 0.82

35 43 0.071 47 4.0 3.6 26 64 1573 1611 1556 1612 0.81

36 43 0.001 0.69 9.8 5.0 30 64 1605 1639 1603 1654 0.71

37 43 0.007 4.6 7.2 3.9 28 59 1652 1683 1647 1688 0.88

38 43 0.016 10 6.1 4.0 30 63 1685 1718 1683 1720 0.82

39 43 1.7 1.1e+03 -0.5 5.5 32 60 1743 1771 1722 1776 0.77

40 43 0.00036 0.24 11.3 2.7 25 63 1771 1809 1768 1811 0.89

41 43 0.0083 5.4 7.0 0.5 32 63 1813 1844 1809 1846 0.79

42 43 0.0047 3.1 7.8 2.7 21 53 1844 1876 1843 1879 0.91

43 43 0.0019 1.2 9.0 6.9 27 60 1871 1904 1868 1907 0.91

#	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	0.18	1.2e+02	2.7	0.5	32	57	53	78	47	85	0.54
2	43	4.2	2.8e+03	-1.7	1.6	33	55	99	121	97	124	0.54
3	43	6	3.9e+03	-2.2	0.1	40	60	151	171	146	174	0.86
4	43	0.036	23	4.9	0.5	30	56	212	238	204	244	0.82
5	43	0.48	3.1e+02	1.3	0.3	28	63	265	300	263	302	0.89
6	43	0.011	7.5	6.5	5.1	29	62	345	378	343	381	0.78
7	43	0.015	10	6.1	5.6	24	64	400	440	397	441	0.93
8	43	0.00056	0.37	10.7	0.5	24	58	466	500	464	506	0.82
9	43	0.13	85	3.1	3.4	22	64	520	562	518	563	0.90
10	43	0.039	25	4.8	5.9	20	63	560	603	558	605	0.78
11	43	0.012	7.6	6.5	7.3	25	63	607	645	603	647	0.84
12	43	0.035	23	5.0	1.3	26	58	643	675	640	682	0.89
13	43	0.084	55	3.7	1.6	21	64	659	702	658	703	0.83
14	43	7.5e-05	0.049	13.5	3.9	28	65	722	759	708	759	0.89
15	43	0.087	58	3.7	4.6	41	58	766	783	751	811	0.53
16	43	0.17	1.1e+02	2.7	0.4	35	63	802	830	788	832	0.66
17	43	0.39	2.6e+02	1.6	6.2	26	59	825	858	808	865	0.85
18	43	7.5e-05	0.05	13.5	3.8	25	65	869	909	858	909	0.79
19	43	0.0083	5.4	7.0	0.2	33	63	905	935	903	937	0.87
20	43	0.013	8.6	6.3	2.8	24	58	942	979	940	986	0.78
21	43	0.01	6.8	6.7	0.3	27	63	969	1005	968	1007	0.87
22	43	0.028	19	5.2	0.1	33	62	1003	1032	997	1034	0.88
23	43	0.0034	2.3	8.2	3.6	28	62	1026	1060	1014	1063	0.73
24	43	7.1e-06	0.0047	16.8	4.0	27	62	1060	1095	1057	1098	0.89
25	43	0.27	1.8e+02	2.1	0.7	29	60	1094	1125	1093	1129	0.83
26	43	0.0013	0.89	9.5	0.6	21	62	1117	1158	1116	1160	0.93
27	43	0.0011	0.69	9.8	3.4	25	58	1177	1210	1166	1217	0.79
28	43	0.0025	1.7	8.6	1.8	26	64	1206	1244	1204	1250	0.71
29	43	0.1	66	3.5	3.3	24	64	1272	1314	1269	1315	0.81
30	43	0.0032	2.1	8.3	2.0	18	62	1324	1368	1320	1371	0.90
31	43	0.075	50	3.9	1.4	27	64	1361	1398	1355	1406	0.62
32	43	0.44	2.9e+02	1.4	1.1	24	52	1403	1431	1400	1440	0.56
33	43	0.0016	1.1	9.2	2.5	26	62	1475	1511	1473	1514	0.92
34	43	0.14	91	3.1	5.6	25	62	1516	1553	1513	1556	0.82
35	43	0.071	47	4.0	3.6	26	64	1573	1611	1556	1612	0.81
36	43	0.001	0.69	9.8	5.0	30	64	1605	1639	1603	1654	0.71
37	43	0.007	4.6	7.2	3.9	28	59	1652	1683	1647	1688	0.88
38	43	0.016	10	6.1	4.0	30	63	1685	1718	1683	1720	0.82
39	43	1.7	1.1e+03	-0.5	5.5	32	60	1743	1771	1722	1776	0.77
40	43	0.00036	0.24	11.3	2.7	25	63	1771	1809	1768	1811	0.89
41	43	0.0083	5.4	7.0	0.5	32	63	1813	1844	1809	1846	0.79
42	43	0.0047	3.1	7.8	2.7	21	53	1844	1876	1843	1879	0.91
43	43	0.0019	1.2	9.0	6.9	27	60	1871	1904	1868	1907	0.91

Sequence Information

Coding Sequence: ATGGAGATTTGCCGATGCGGATGCGAGGCATCGTCGCAAGAATCGATCGATCCACCGCACGAGCCGTGCTGTTGCTGCAATTACGATCCATTCAGCGACAAAGAAGCAGAAATCTACGACCTCTCGTTTGCCCTGAAGAAGCTCACTGTAATGAAGTGTCAGATGAAAAAGTGGCGAATGGAAAGACTTCAACTCGAGAGCGAAAATAGGTCTTTGAAACAAGCCCTCCAATCATTCGGTGTGAATGCGGATGAGATATTGAAGCCCGATCCGCTGTTAGTGCACTCCCGAGAAGAAATCGAAAGGCTGAAAAATGCAAACGCGGTGCTGCAAGATAAAGCGAGGGATCTCGAGGAAACTCTCGCCGAGCGAGATTGCTGTGACGATCCCGACGCCACGATCCGCTTTCTAAGAGAGAAGATAAGATATCTTAGAGAGGGTTTCGCGCTTGAAAAGAAAGAATTGCGAGACATGATATCGGATTTGAGGTTGAAGCTGGCGCAGACCGAGGAGGACATCAGCTGCCCCGCGATATATCGTTTAAGGGCAAAGCTGCGTGATCTTATGAAAGGTGAAGCGGCTGAACAACAGATTTCCAAAGTTGTGGAGAAATCGATCGAAACCTTGGTGGATCTTTCGAAGAGCTGCGATGATCTGCGTTTGGAAAACGAACGTCTTCTTGCTCAAGTGACAGAATTGCGCGGTGCATTGGTTGATCTCGAAGGAAAGGAAACGCCAGAAACGATATTGCAGACGGCCGAAACAACCACAGTGCCGGAGTATATTGACATTTCAGATTTATTGGATAAGCTGAACAGCTGCGAGGATACCGTGGCTGATCTAAGAAAGCAGTTAGGACAAAGAGACGAGCAGATCGATGCACTGAACAAAGAGCTGGAATCGATGATCAGTCGAAAAGGTTTAGAGGAACAGATAGAAGCCATGAAAGAGGAACTTAGGAGGAAAGATGACAAGATCGCAGGACTACTGAACAACCTAAGACAATCAGAAATAGACTTGTTGGGGTTATCTTCTCTGAAATCCGAAGCGGAGAACCTGAAATCAGAGTTACATGATCTGAAATCAGAGAGAACTGAATTACTGAACGAACTAAACAAACTGCGAGAAGCAATGAAGGATAGAGACGATCAGATAATAGATTTACTGGAGCAGAGGAACAACTTGGAGAAGGAGTACAAGAATAAGACGGCAGAATTACAGTCAAAACTGGATGAGGCAAATGACGAGATCGATGATTTGAAAGTTGAGATAACTAAACTGAAGAATGAGTTGGAAGAGTGTAAGATGTTAAACGAGAAGCTGGAACAGTGCTGTCTGGAGAAAAACGCAATTTCGGAAAAGCTACACGGCTTCGAAGAGGATCTTGCAGCCGCGAAAGCGATGATAGCGAATCTGGAAAGTGAGGTGGACACTTTAAGGCGAGACAAGGAAAATTTGTCGAACGAACTGGATGAGGCGAGGGAACAGGTGGAGGCGTTCATTGGACGACTGGAGGATGAAAGGGCGGTCAGGACCGCATTGGAGAAGGAACTGGAGAGAAGCCGAGATGAGATTGAATTGTTAGAGAGGGAGATATTCGATCTGAAAGGTCAGATCGATGCCGAAAGGAAGGAGAACGAGGAGCTTCGCGAAACGTTAGAAGCATCGGTCGGCGAGAGGGAAAAGTTGAGGGCTCGGTTAGAGCAGCTGGAGAACGAGAACGATGATCTGATGAAAAGGACGAAGGTGCTAGACAATTTGAATAACCAGCTAAGGAACGACCACGATAGCATGAAGCAGGCTTTGGACAATTTGCAAGCAGAGATCAACAAACTGGAGGATGAATTGGCCAAGGCGGAGCAAGAACGGGATGCGTTGTTGAACGAGAATAACGGTATGAAAAAGCAGCTGGAACAAGCGATGGCGGAGAACGAGAGTCTGACAGGCAAATTGGACGAAGCTGGTAAAGAAGTTAATAAACTGAAACTGCAGAGGGACGAGCTACAGAAGAGCCTCGATGGGATCAATCTCGAGAACGATTCACTGAAACGAGATATGAGGGCGTTAAGGGATGACCTTGAGGATTCCAGAAGGCAAGCGGAGGAACTAAAAGCCGCTGGTGACGCGTTAAAAGCGACGGATAAGGATAAGATACTGGAACTTGCAAAGCTGCAAGAACAAGTAGAGAACTGCAAGTTCGAAAATAATCGCTTAACGAAGGAAAATGATGATTTGAGATCTAAAATAATAGAATTGGAGGGAAAGTTGGAGGAGTTGGACAAGTTAAAGGGAATAAATACAGATTTACTGGCTGAAGTAGATCGTTTGAGAAAAGAATTAGAAAAAGCGTTGGAGGACATTGATCAATTGAAATCCGAAATAGGTTCCTTGAAGGATGGACTCGATAATTGTGTGGGCGAGATGCAAGAGCTGAGAATCGAAAATGGCGAGCTGAAAATACAGAAGGAAACCTTGAAGTCTGAGATGCAGGCAATTACCGATCGCTTAATGAAAGACAATGACGATTTAAAAGCAAAAATGTCCGAATTGGAAGAAAAGTTAAGCGAATTGGATAAAATGAAACTAGAAAATGTTGATTTGCTTGATGAAGTAGATCGTTTGAAACAGGAATTGGCAAAAGCCTGGGAAGAAGTTGATCGATTGAAATCCGAAGCAGCATCTCTGAAAAACGCACTCGATAAGTGCGTGGACGAGATGGAAAAGCTGAGAACTGAGAGCGACCAGCTTAAATCGGAGAATCAAGCTTTCAAGTCTGACATTCACGGACTTGATGATCGCTTAACGAAGGAAATCGCCAATCTGAAGGCAAAAAACGCGGAATTGGAAGGAAAATTGGTGGCATTCGATAAATTGAAGTGGGAAAATGAGGATTTACTTGGTGAAGTCGATCGTTTGAGACGTGAATTGGCAAAAGCCTTAGAGGATATGGATCAATTGAAATCTGAGATAGGTTCTTTGAAAAACGGACTGGATAAATGTGTCGGCGAGATGGATCAGCTGAGAACTGAAAACAGCGGTTTGAAGTCTGAAATTCAGGGAATGAGGGGCGAAGGGGACAATTTGTCGGCGGAGTTAAATAATCTGAAGAACGAGAATTCTCTTTTGAAAGACGAAAGAGATCGATTGAGCAAGCAATTGAGCGACTGTAAGATGGAAAACGAAAAATTCAGAGCGGAGAAGGCTCACCTGGAAGCTGAAAATGAGAAGCTGAAAGGAGAGATAAACTCGTGCAAGGAAGAGAATGACAAATTAAAGGACGAACTTGGAAAATCACGGGAACAATTGCAGTCATCGAACGACGAATTGAATAAATTAAAGGCTAATCTCGACAGAGCTGAGGAGAAAATTCGATCTCTGGAGCCGCTGATCACCCGTTTGCATAGTGAAAATGATAAATTGCGTGACGATTTGACGAGTTTGGAGAACGAGGCCAACGATTTCAAAGCAAAATTGGCTCGAGAAACGGCTGACAATGAAAAGATGCAGAACGACCTGAAGATACTGGAGGATCAGGTGCACGATCTAAGTGAGAAGCTGGTCAATGCTAGGGCAGAAAATGACACTTTGAAACAGGAGAATCAAAGTCTAAAAGCCAAGTTATTAAATATGGATCATGATCTGTCGAATTTGAAAGCGGAGTGTGCGGATCTGAAACGAGAGATTGCTGATCTGAAGAAATTAATCGACGAATTAAAAGAAAAAATTGCTAAACTGGAAGCAGACATAGATCATTGGAAAATGGAGAATTGCAAACTTCGGTTGGACATTGATAAATCGAAAGCTGATCTTGAGAAAGCCTTGAAAGATTTGCTCGAATGCCAGGCTTCGAAGAAAGCACTAGAGGCAGAGATGTACCGCCTGAAGATTGAGAAAGGCGAGCTTGACAAGAGGCTTGTCGATTTAACGTCTCAACTCGAGCAACAGGGAAAAGCGTTCGAAGCAGAAAAATCGGCCAGAAATAAGGGTGATTCAGAAATCACGGCCTTGAAGGAGGAACTGGATGCCTTGAAAAAGGAACTAGAAAAATTGAGAGCTGACAGCAACAGATACAGAAATGAAATAGACGACCTAGGAAGGCAGCTTGCGGTAACAAAAAATGAACTGGAGAAGTGCAAAGAAGAGGTTTCTGTATTAAGAGATGCCAATAACGCTTTAAAGTCTCAATTGGATCCGTTGAAAAGTTTAAAGGACGAATACAATAAGTTGAAGGCCGATTTAGATTCTCTTAAAGAGGAGAACGTGAACCTTCTGCAGGATAGGAAGAATTTCGAAGGCGAGTATACTAGGCTGAAAGGAGAAGGCGATGGACAGAAGGCAGAGATCGATAGATTGAGGTCAAACTTGAATGCAGAGGAGGCAGCTGCGGAAAAATTGAGGGCGGATCTTGGAAATTGCCAAACTGAGAACGATAGACTGCAAAAGCAATTAAACGACGTGAAAAATGAGTTGGATGAACTAACAAAGGGAAACGATCGTATAAAGAACGAGATGGATAAGCTGAAGAAGGCGCTCGCGGACGCGGAAGCAAAGATAAAGTTGCTGGAAAGTGAACTATCCGATTTGTTAGCCGAGAAAAAAGAATTGGTCAACGAACTGTATCGTTTCCGCGAACAGCTAAACAATCGTACAAACGAGCTAGAAGAGCAGATGGCCGCAAAAGATGCGGCCAAGAAGGAATTGGCCGACATGAAGGATGAGCTGACCGCTCTAAAAGCGGCGTTGGATAAGGTTCGCAGCGAAAACGATAAGCTGTGGAACGAGAACGAAAAGGTGAATGTGGAATTAACCAAGTTGAACGGGCAATTAGAAACTCTGAAGGAGGATAATGCGAAGTTGGGAGACGAAAACGCGAATCTGAAGAACGAAAACGCGAATCTAAAGAACGACAATGCGAAATTGGCGGCGGAGTTAACTGGAACGAAAAACAAATTGGCAGAAGCGGAGAAACAGCTGAACGATCTAGAGAAAGAAAACGACGTCTTGAATAACAAAATAGCCGATCTCGAGAACACAGTGAACGACCTCGAACCTTTGAAGAGACAATTAGAAGATGCTAAGAAAGAAGTGGATAGGCTGAGGCCAGAGCTAGATAGATTGAAATCAGAGAATGCAGAACTGCAAAACAATTTAAATAACGCCATAGAGGAATCGAATAGGTTAAGAAATGATTTGGACAAATTGAAAAGCGATTACGACAAATCAAGGTCTGAATTAGCTGACCTGAAGGAGGAGAGAGATAGTCGGAGAGAACGGAACGCAGAATTGGAGAAAGAATTAGGGAAAATAAAGAAAGAGAGTGCGAATCTGAAGGGCGAGTTAGCCGATTGTCAAGCGGAGAACGAAAGATTGCGTAATGGATTGACAGATTTGAAGTCGGAAAATGCAAAACTGCAGGACGATTTAAACAAGGCGAAGAACGAAGCGAACAAATTAAAAGCCGATTTGGATAAATTGAAAAGCGATTATGGTGAATTGCGGTCGGAATTAGGTAAACTAAGGGATGAGAAGAATAGGCACAAAGAACGCGATACTGCGTTGGCCACGGATCTGGATAAATTGAAGAAAGAGAATGACGAGTTAAAAGATGGGAATGAGAAACTGAAAGGCCAGTTATTCGATTGCCAAGAGGAGAGGGAAAGGCTACGCAAGGAATTGGGAAAGCTGGAAAGAGAAAATGCAAAATTGAAAGAAGTGAAAAAGATGGATCCCAAGGAAACGGAGATGGACAAAGATATTTTGGATGACTGCGGTGATTTCATAAAGGCGAATGAATTATTGGGGATGAAATTCAAAAAACAGAATGAAGGTGTGCTGCGCATTCGGAATTATATTAGATATTTGGAAGGTAAAGCTGCAGAACCGAAAATGGCGGACAGGCCGGAAGAAGAGGCAGAAATTGATCCAGTATTAAGGAAAGACATTGCAGATCTGTTGAAGAAATCTCACGATTTATCTAATGATATCTATCAAACGGAACAGGAAATAAAAAATCTTGGAGCTGAACCCGGCGAGGGCATTTTCGATCCTGACAGCTGGCTAAACTCGTTGACATTGACACAGTTAGCTGAGCTTCACGATAAGATTTGCCAGTTGACATTGGACATGGTGCACCAGGACAGCAGAGGAGCGGTGCCGTGCGATGGTTATGAACCAGCGACTCCGTCAAAGGCGGATTATAATATTTTGAACCAGCGTATAGCTGCTTTGCAGAAACAGATAGCGGAGAAGCAAATGGAGGCAGGCTGGAAGCTTCAGGAACTGAGGAGGGCTCTTCAAAACGAGCAGGCTAACTTAATTCGAATCTCCGATCGGATGAACATTGAAAGAAAACGCAATTTGAACCTACAGCATAGCATGGACGATTCACCGTAA
Protein Sequence: MEICRCGCEASSQESIDPPHEPCCCCNYDPFSDKEAEIYDLSFALKKLTVMKCQMKKWRMERLQLESENRSLKQALQSFGVNADEILKPDPLLVHSREEIERLKNANAVLQDKARDLEETLAERDCCDDPDATIRFLREKIRYLREGFALEKKELRDMISDLRLKLAQTEEDISCPAIYRLRAKLRDLMKGEAAEQQISKVVEKSIETLVDLSKSCDDLRLENERLLAQVTELRGALVDLEGKETPETILQTAETTTVPEYIDISDLLDKLNSCEDTVADLRKQLGQRDEQIDALNKELESMISRKGLEEQIEAMKEELRRKDDKIAGLLNNLRQSEIDLLGLSSLKSEAENLKSELHDLKSERTELLNELNKLREAMKDRDDQIIDLLEQRNNLEKEYKNKTAELQSKLDEANDEIDDLKVEITKLKNELEECKMLNEKLEQCCLEKNAISEKLHGFEEDLAAAKAMIANLESEVDTLRRDKENLSNELDEAREQVEAFIGRLEDERAVRTALEKELERSRDEIELLEREIFDLKGQIDAERKENEELRETLEASVGEREKLRARLEQLENENDDLMKRTKVLDNLNNQLRNDHDSMKQALDNLQAEINKLEDELAKAEQERDALLNENNGMKKQLEQAMAENESLTGKLDEAGKEVNKLKLQRDELQKSLDGINLENDSLKRDMRALRDDLEDSRRQAEELKAAGDALKATDKDKILELAKLQEQVENCKFENNRLTKENDDLRSKIIELEGKLEELDKLKGINTDLLAEVDRLRKELEKALEDIDQLKSEIGSLKDGLDNCVGEMQELRIENGELKIQKETLKSEMQAITDRLMKDNDDLKAKMSELEEKLSELDKMKLENVDLLDEVDRLKQELAKAWEEVDRLKSEAASLKNALDKCVDEMEKLRTESDQLKSENQAFKSDIHGLDDRLTKEIANLKAKNAELEGKLVAFDKLKWENEDLLGEVDRLRRELAKALEDMDQLKSEIGSLKNGLDKCVGEMDQLRTENSGLKSEIQGMRGEGDNLSAELNNLKNENSLLKDERDRLSKQLSDCKMENEKFRAEKAHLEAENEKLKGEINSCKEENDKLKDELGKSREQLQSSNDELNKLKANLDRAEEKIRSLEPLITRLHSENDKLRDDLTSLENEANDFKAKLARETADNEKMQNDLKILEDQVHDLSEKLVNARAENDTLKQENQSLKAKLLNMDHDLSNLKAECADLKREIADLKKLIDELKEKIAKLEADIDHWKMENCKLRLDIDKSKADLEKALKDLLECQASKKALEAEMYRLKIEKGELDKRLVDLTSQLEQQGKAFEAEKSARNKGDSEITALKEELDALKKELEKLRADSNRYRNEIDDLGRQLAVTKNELEKCKEEVSVLRDANNALKSQLDPLKSLKDEYNKLKADLDSLKEENVNLLQDRKNFEGEYTRLKGEGDGQKAEIDRLRSNLNAEEAAAEKLRADLGNCQTENDRLQKQLNDVKNELDELTKGNDRIKNEMDKLKKALADAEAKIKLLESELSDLLAEKKELVNELYRFREQLNNRTNELEEQMAAKDAAKKELADMKDELTALKAALDKVRSENDKLWNENEKVNVELTKLNGQLETLKEDNAKLGDENANLKNENANLKNDNAKLAAELTGTKNKLAEAEKQLNDLEKENDVLNNKIADLENTVNDLEPLKRQLEDAKKEVDRLRPELDRLKSENAELQNNLNNAIEESNRLRNDLDKLKSDYDKSRSELADLKEERDSRRERNAELEKELGKIKKESANLKGELADCQAENERLRNGLTDLKSENAKLQDDLNKAKNEANKLKADLDKLKSDYGELRSELGKLRDEKNRHKERDTALATDLDKLKKENDELKDGNEKLKGQLFDCQEERERLRKELGKLERENAKLKEVKKMDPKETEMDKDILDDCGDFIKANELLGMKFKKQNEGVLRIRNYIRYLEGKAAEPKMADRPEEEAEIDPVLRKDIADLLKKSHDLSNDIYQTEQEIKNLGAEPGEGIFDPDSWLNSLTLTQLAELHDKICQLTLDMVHQDSRGAVPCDGYEPATPSKADYNILNQRIAALQKQIAEKQMEAGWKLQELRRALQNEQANLIRISDRMNIERKRNLNLQHSMDDSP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00232996;
90% Identity: iTF_00216838;
80% Identity: -