Basic Information

Insect: Melikaiella ostensackeni
Gene Symbol: -
Assembly: GCA_032362435.1
Location: JAUMHM010000087.1:11539856-11565407[+]

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 39 0.35 1.5e+03 1.5 0.6 31 58 60 87 54 93 0.69

2 39 0.085 3.6e+02 3.5 1.1 37 64 104 131 101 132 0.80

3 39 0.92 3.9e+03 0.2 0.2 35 58 154 177 145 180 0.78

4 39 0.0073 31 6.9 3.7 25 55 216 246 212 253 0.91

5 39 0.063 2.7e+02 3.9 0.6 35 61 315 341 297 345 0.78

6 39 9.2 3.9e+04 -3.0 0.1 42 54 349 361 348 367 0.67

7 39 0.0024 10 8.5 0.6 27 61 408 442 405 446 0.89

8 39 0.013 55 6.1 2.9 27 62 443 481 440 482 0.86

9 39 3e-05 0.13 14.5 3.9 27 63 488 524 485 526 0.93

10 39 0.0041 18 7.7 7.0 22 65 530 573 529 573 0.94

11 39 0.00028 1.2 11.4 2.5 24 63 567 606 566 608 0.91

12 39 0.47 2e+03 1.1 8.2 27 64 647 684 644 691 0.72

13 39 0.0082 35 6.7 8.0 24 60 693 729 692 733 0.90

14 39 0.00034 1.5 11.1 7.9 24 65 717 758 716 758 0.92

15 39 0.0005 2.1 10.6 11.0 21 64 735 778 733 779 0.94

16 39 0.21 8.9e+02 2.2 9.1 21 63 756 798 756 803 0.90

17 39 0.033 1.4e+02 4.8 8.5 22 65 799 842 798 842 0.94

18 39 0.012 53 6.2 2.8 22 60 841 879 840 883 0.90

19 39 0.057 2.4e+02 4.0 4.8 22 59 855 892 853 898 0.84

20 39 0.072 3.1e+02 3.7 3.4 24 63 885 924 882 931 0.84

21 39 0.00025 1.1 11.6 5.7 33 63 957 987 931 989 0.88

22 39 2 8.5e+03 -0.9 0.0 26 58 999 1031 996 1034 0.76

23 39 0.065 2.8e+02 3.9 0.3 30 61 1024 1055 1016 1059 0.69

24 39 0.0072 31 6.9 6.2 25 57 1061 1093 1059 1101 0.90

25 39 0.019 81 5.6 7.2 25 62 1103 1140 1098 1142 0.88

26 39 0.063 2.7e+02 3.9 0.2 24 63 1144 1183 1141 1185 0.87

27 39 0.00038 1.6 11.0 1.8 37 63 1192 1218 1186 1220 0.53

28 39 0.00018 0.77 12.0 3.1 24 62 1214 1252 1213 1255 0.93

29 39 0.00046 2 10.7 1.5 24 62 1256 1294 1253 1296 0.83

30 39 2.1e-06 0.0088 18.3 3.4 25 63 1299 1337 1298 1338 0.94

31 39 2.5 1.1e+04 -1.2 0.2 32 48 1362 1378 1356 1383 0.75

32 39 0.00013 0.56 12.5 3.6 30 64 1381 1415 1365 1416 0.81

33 39 0.097 4.1e+02 3.3 6.8 26 64 1437 1475 1435 1476 0.86

34 39 0.022 94 5.4 2.2 26 62 1465 1501 1462 1503 0.93

35 39 0.00041 1.8 10.9 9.8 12 64 1507 1559 1505 1560 0.93

36 39 1.2e-05 0.05 15.8 2.4 21 61 1551 1591 1551 1595 0.94

37 39 0.058 2.5e+02 4.0 0.2 30 63 1616 1649 1607 1651 0.82

38 39 2.3 9.6e+03 -1.1 3.3 29 59 1671 1701 1653 1732 0.71

39 39 4.1 1.8e+04 -1.9 0.3 34 63 1766 1795 1762 1796 0.80

#	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	39	0.35	1.5e+03	1.5	0.6	31	58	60	87	54	93	0.69
2	39	0.085	3.6e+02	3.5	1.1	37	64	104	131	101	132	0.80
3	39	0.92	3.9e+03	0.2	0.2	35	58	154	177	145	180	0.78
4	39	0.0073	31	6.9	3.7	25	55	216	246	212	253	0.91
5	39	0.063	2.7e+02	3.9	0.6	35	61	315	341	297	345	0.78
6	39	9.2	3.9e+04	-3.0	0.1	42	54	349	361	348	367	0.67
7	39	0.0024	10	8.5	0.6	27	61	408	442	405	446	0.89
8	39	0.013	55	6.1	2.9	27	62	443	481	440	482	0.86
9	39	3e-05	0.13	14.5	3.9	27	63	488	524	485	526	0.93
10	39	0.0041	18	7.7	7.0	22	65	530	573	529	573	0.94
11	39	0.00028	1.2	11.4	2.5	24	63	567	606	566	608	0.91
12	39	0.47	2e+03	1.1	8.2	27	64	647	684	644	691	0.72
13	39	0.0082	35	6.7	8.0	24	60	693	729	692	733	0.90
14	39	0.00034	1.5	11.1	7.9	24	65	717	758	716	758	0.92
15	39	0.0005	2.1	10.6	11.0	21	64	735	778	733	779	0.94
16	39	0.21	8.9e+02	2.2	9.1	21	63	756	798	756	803	0.90
17	39	0.033	1.4e+02	4.8	8.5	22	65	799	842	798	842	0.94
18	39	0.012	53	6.2	2.8	22	60	841	879	840	883	0.90
19	39	0.057	2.4e+02	4.0	4.8	22	59	855	892	853	898	0.84
20	39	0.072	3.1e+02	3.7	3.4	24	63	885	924	882	931	0.84
21	39	0.00025	1.1	11.6	5.7	33	63	957	987	931	989	0.88
22	39	2	8.5e+03	-0.9	0.0	26	58	999	1031	996	1034	0.76
23	39	0.065	2.8e+02	3.9	0.3	30	61	1024	1055	1016	1059	0.69
24	39	0.0072	31	6.9	6.2	25	57	1061	1093	1059	1101	0.90
25	39	0.019	81	5.6	7.2	25	62	1103	1140	1098	1142	0.88
26	39	0.063	2.7e+02	3.9	0.2	24	63	1144	1183	1141	1185	0.87
27	39	0.00038	1.6	11.0	1.8	37	63	1192	1218	1186	1220	0.53
28	39	0.00018	0.77	12.0	3.1	24	62	1214	1252	1213	1255	0.93
29	39	0.00046	2	10.7	1.5	24	62	1256	1294	1253	1296	0.83
30	39	2.1e-06	0.0088	18.3	3.4	25	63	1299	1337	1298	1338	0.94
31	39	2.5	1.1e+04	-1.2	0.2	32	48	1362	1378	1356	1383	0.75
32	39	0.00013	0.56	12.5	3.6	30	64	1381	1415	1365	1416	0.81
33	39	0.097	4.1e+02	3.3	6.8	26	64	1437	1475	1435	1476	0.86
34	39	0.022	94	5.4	2.2	26	62	1465	1501	1462	1503	0.93
35	39	0.00041	1.8	10.9	9.8	12	64	1507	1559	1505	1560	0.93
36	39	1.2e-05	0.05	15.8	2.4	21	61	1551	1591	1551	1595	0.94
37	39	0.058	2.5e+02	4.0	0.2	30	63	1616	1649	1607	1651	0.82
38	39	2.3	9.6e+03	-1.1	3.3	29	59	1671	1701	1653	1732	0.71
39	39	4.1	1.8e+04	-1.9	0.3	34	63	1766	1795	1762	1796	0.80

Sequence Information

Coding Sequence: atGAATGATTTGCATGATAAATTTTGTCACTGTGGATGCGACGCACCGGAGACATATAAATCAGAGGAGCCACCAAACGAACCATGTTGTTGCTGTAATTATAATCCATTCAGCGATAATTCTGAGGATGTAGAAATTTACGATCTACCTTTTGCCCTGCGAAAACTAACAGTAATGAAGTGCCAAATGAAAAAGTGGCGAATGGAACGACTTCAATTAGAAAGTGAAACTCGATCTTTAAAGCAAGCCCTTCAACAGTAtgGCATTAATGTTGACGAAGCTTTACAACCTGATCCTCTAATTGTCCACTATCGGGAGGAAAATTTGCGACTTCAAAATCTTAATGATGAATTGAAGGATAAAGTGAAAGATCTCGGTGAAACTTTGGAAGAACGTGATTACTCTGAAGATCCTTGCGACTCAGTAAAATACATCAGAGAAAAAATGAAGGACCTTCGAAAACGTTTTGCTGATGAAAAGAGAGAATTGAGAGACAGAATAGCAGCCTTGAATCTGAAGCTTGCAGAAATGGATGACGACAGTTCTTGTTCAGCTCTGAATCGCCTAAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAGAGGGCCGACCATCAAGTCTCGATGGTTGTagaaaaatctatagaaacgatggtagagctttcaaaaagctgcgaagatttgaaattcgaaaacgaAAACCTCTTGGCTCAATTAGAagctcttcgaaaaaaattgtcagtaaAGGAAGTGAAGAAAGAAAGTCCATCAGTCACAGTGGAAGGGCCAGACGTTTCTCTCATTGCTGATTTGAGAAGACAACTGGCTGAGAAGGAGCAAACTCTGAACGATCTGGAGAAAAagctttttgaagaaaaaagagtatCTGGACAGCTTGAAGAAGATTTGGACAAAATGACTGTTAGCTACAAAGCATTGATGAAAGAACTTGCTGCTATGAaggaagaattgaaaaagaggGACGCAAAGCTCACTGAACTTTTAGGAAATTTAAGAAGTTCCACTATAGATCTCCTTGGAATGGAGAAACTGACAAATGAAATTGAAACACTCAAACCTCAACTTTACAATACTGAAATAGAGAGGAATCAACTTTTAGACGATCTGGGAAAAATTCGAGGCCTCGTATCGGAAAGAAATGAtcagattttacaaattttagaacaaaaagagaaaatgtCTGGTGACTGTAATGCAAAACTAGATGCAATGCAGATCAGGGTTGATGTTTTATTGGACCAAGAAGctctactaaaaaaagaaatcaaagacttgaaatcaaaaatcgaaGAATTGGATGATGAAATTGCAGGTCTAcaagcaaaaatattaaaactggaACAAAAAAGCAATGAAAATGAAGATCTGATTAAGAAGATTCAAGATTTCGAGGAACAGCTTGCTAAATTAAGTGCAGAACTTTTTTCAgctcaaaatcacgaaaaagaACTTGAAAGTGAAGTCAGTGATTTAAAGTCTGAAAACGAAAAATTGCTAAAGAATTTGGCTGATGTTGGggcagaaattgaaaaactgaagaaaGATTTGGAGGCTGAAAAAGCTGCCAGAATGAAAGTGGAAAATGCAAAATTGCAAgcagaaattaagaaattgaaagatgaattcacaaatttagaagctgagaaaaataatcttgaaaatGAGTTGAATGTCTTGAAAGATGAAGCAGAAAAGTTAGAAGCTGACGTGAAAGGATTATCAAATGAGAATGGAGCCCTTAGAGGAGAACTAGAAAATATTAAGCTAGAAAAAGATAAACtggaaaaagatttgaaagctgCTGATGCAGAAATCGAAAAACTTAAAGGTGAATTAGAAaaggagaaatttgaaaaggaatCTGTTCTGAAAGAactcgaaaattataaaaagcaaTTGGGTTTGATAAAAGATGAGTTGGAAAATCTGAAAGCTCAATTGGAAAAATCATCAGCTGAATTAGCAGCTCTTAGAGAtcagaatcaaaaattgaaagatgaCTTGGAAAACGTTAAACgagaattagaaaaatcattGGCTGAGAATGCAAACGTGAAAGAAAATCTAGATAAACTAGCACTAGAAGTATCAGCTCTCAAGGAGCAAAATGAAAAGTTGAAGGCTATGGTTGAGAAGATGAATGAAGAACTCAAGGATTTAGAAAAACTGAAGGCCAAGAATGATAAACTATTagaagaaaatgataaattaaaatctgcaGTTGATCAGTTGCAAGACGAGAACAGGAAATTGAAAGATGAAAAGAAAAACCTGGAAGATaacttagaaaaattgaagattgattTGGAAAAGTTGAAGACTGATTTTGATAAGCTGAAGTCAGAAAATGAAGAGTTGAAGTATGATCTAGAGAAAGGAAAAGCTCAgactgaaaacttgaaaaatgaattgaaggATTTGTCAGAAGAATTGAACAAGGTCAGAAAAGAAAAAgccgattttcaagaaaagttaacaaatcttgaaagtgatttagaaaaattaaaagtgcaGAATACTAATTTGAATTCAGAACTGAAAAAAGCAAGAGGAGATAATGAGGTGTTGAAGAATGAAATGGATTCTTTGATGAACGAAAATTCGAAGCTTAAAACAGAAGGAGATAGTCAAAAGGAGGAAAAGAATAAAGCAAATAAAGAGGTGAGATcacttaaagatcaaaatgaaaaattatctcgtGATCTAGATAATGCTAcatcagaaattaatttcttgaaaggAGAAGtcgataaattaaaatctgatttGGAGTCCTCAGAAAGCAAAAAGAAAGCAGCTGAAGATGAAttgaatgctttgaaaaatGAGCTGAGAGATTTTCTTACAAAGTTTGACGAACTCAAGGATGAAAATAATCGTCTCAAGTCAGAAAAGGACAGTCTTCGAAAGCAATTAAACGATATGAAGAACGATTTATCGAGATTCGaggctgaaaattttgatgtgaagaaagaaatttccaaattcaaagcAGAATTAGCTAAGATTATAGCTGAAAATGGTAATTTGAAAACACAACTTGCTGAAATAGCAGAGGATTATGATCATTGTCAGGCAGACGGTTgcaaattgaaaagtgaaattgacAAGTTGAAGGCAGCAGTTGAGAACCTGAGGAAAGAATCAAGCGACTGTGAAGCGAAAATAAAAGAACTAGAGAGTCATCTTTTGTCTAAAGAGGACGAAAAAAATAGGCTGGAACAAGAAATCGAAAGTTTGAAGAAGAATTTGGCAGCTGAGAAAGCTGATAAGGAAACAGCTTTGAAGAAAGTGGAAGAAGTCAAGGAAGAACTGAAGCTTTTGAAAGCTGAATTGGATAAGTTGAGATCTGCAAATGATCAGCTTAGGGCAGAAACAGATGATTTGAAGAAGCAATTGGTAATGAGTAAAGATGCATTGAATAAAGCTGAGAGTGAAATTTCGGCTTTGAGAGATGATAATAATAGATTGAAGGGTCAGGGTGATACTTTAGCtaataaaagtgaaaagttGAGTGGGGAGCTGAACAAATGGAAAACTGAAGCTGAAGCTCAACGAGATGaaaatgctaaattgaaaggTGAAGTTGATAAGTTGAGGGCAGAAAATGCtaaactcaaaaatgaaattaatagctTGGGGATTGAAGTTAGTGGACTTAAGAGCGATAACAGTaaactcaaaaatgaattaGAAGCCGCAAAAAGTGAGCTCGAGAAGTTGAAATCCGAATTGGGAGCTTCGAAAgctgaaaatgagaaattgaaaGGGGAAATGAATAGTTTGAAGAGTGAAGTTGGTAGATTGAATGAGGAGGTTAGTAAGATGAGAGCCGATGTggagaaattgagaaaatcctTGGCTGATGGAGAAgctagaattaaaaatttggaaggtCAAGTTGCCTCTTTAGAATCTGAAAAAGCAAAACTTGTAAAAGAATTGAATGGTTTGAGGGACGAACTGGAGAAATTGAGAAAGGACTTAACAGCTGAGAAAAGTGCTAAGGAAACCGCTCTTAAAGAAGCAGATGGTTCTAAGTCAGAATTATCAATGATGAGGGGTGAACTGGAAAAATCTAGAGCAGAGaatgaaaagttgaaatctGATTTGGAAGCATCAAAGAAGAAAGTTGCTGAATTAACGAATGAAAATAGTGTCTTAAAAGCAGAGGTCGGAAAATTAGAAAAggaattaaatgatttcaagagcgACAACTCGAAGCTCAAAGGTGATTTggataaagtgaaaaataatctaGATAAGGTGGCGGCTGATTTTAATGCTTATAAAGCAGAAAAGGAGAAGGAATTGAATAATCTCAAAGCAGAGAATGAGCGATTAAAGAAAGATCTTGCAGATATGGGAGTGAAggtgaaaaatttggaagatcAGCTGAAAAGTCTTCAAGGTGCTAAAGCACAATTAGAAGCAGATATTGCAGATTCAAAATCGCAGATGGAGAAGTTGAAGCAAGATCTGTTGGTTGAAAAAGGAAATAGAGAAGCTGCTAGGAAAGAACTCGAGgctttgaaaaatactttagcTGACTTGAGAAACGAAATGGGAAAGCTTAGGGAAGAAAATGAGAAGTTGATACTAGAAAATGCAAATTTGAGAAAGCAGATTGATAAGATGAAAAGCGatgctgaaaaattgaaagggGATTTGGATCATCTTGGAGCTAAGAATGAAAAGTTGAAAGCAGAAATTAATAGGTTGAAAGCAGagttagaaaatatgaaagtagAGAAGGATAAGATGAAGGGTGAGCTTGAAAAATCGAAAGGAGATCTAGCAAAGTTGCGTGATGATTTACAAAACGCAAAGGGAAATGCTGATAAATTGatgtctgaaaataaaaaactaaaaagtgatttagcTGAAGCAAAGGCAGGAGTTGATATGTTGAAAGCGAATGTTAGTAAGGGAAGTATTGAATGTAATAAGTGGAAGGAAGAATTGGAAAAGTTGAAAGTTGAGCTTGCAAAAACAAAAGGTGAAGCTAATAAATGTAAAGCAGAAGTGGATAAGTTGAAAGCTGAAACACCTAAAGGTCGtcctgaaaaaaaagaactaaaaaattcTGGAGACGAATGTGGTGACTTTATTAAATCCAATGAGATTTTGAGGAAGAGAATTCAGAAACAAAATGAAGCTATTGATCGTGTAAGAGAATTCATTGGTTTCGTGGAAGGTAAAAGTTCATCGAAACCTTTGATGGCTGAGGATTATAATGCAGATGGTGATTCTAGTGGATGGATTGAACCAGCAGTAAATGAGGTTATGGAAAAGTCACAAAAactatcagaaaatattttcagagctgagaaagaaattcaagaactCGAGGCTTTTCTTCATCAAAAGGTTcggattaattaa
Protein Sequence: MNDLHDKFCHCGCDAPETYKSEEPPNEPCCCCNYNPFSDNSEDVEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGINVDEALQPDPLIVHYREENLRLQNLNDELKDKVKDLGETLEERDYSEDPCDSVKYIREKMKDLRKRFADEKRELRDRIAALNLKLAEMDDDSSCSALNRLRAKLRELMKGGQRADHQVSMVVEKSIETMVELSKSCEDLKFENENLLAQLEALRKKLSVKEVKKESPSVTVEGPDVSLIADLRRQLAEKEQTLNDLEKKLFEEKRVSGQLEEDLDKMTVSYKALMKELAAMKEELKKRDAKLTELLGNLRSSTIDLLGMEKLTNEIETLKPQLYNTEIERNQLLDDLGKIRGLVSERNDQILQILEQKEKMSGDCNAKLDAMQIRVDVLLDQEALLKKEIKDLKSKIEELDDEIAGLQAKILKLEQKSNENEDLIKKIQDFEEQLAKLSAELFSAQNHEKELESEVSDLKSENEKLLKNLADVGAEIEKLKKDLEAEKAARMKVENAKLQAEIKKLKDEFTNLEAEKNNLENELNVLKDEAEKLEADVKGLSNENGALRGELENIKLEKDKLEKDLKAADAEIEKLKGELEKEKFEKESVLKELENYKKQLGLIKDELENLKAQLEKSSAELAALRDQNQKLKDDLENVKRELEKSLAENANVKENLDKLALEVSALKEQNEKLKAMVEKMNEELKDLEKLKAKNDKLLEENDKLKSAVDQLQDENRKLKDEKKNLEDNLEKLKIDLEKLKTDFDKLKSENEELKYDLEKGKAQTENLKNELKDLSEELNKVRKEKADFQEKLTNLESDLEKLKVQNTNLNSELKKARGDNEVLKNEMDSLMNENSKLKTEGDSQKEEKNKANKEVRSLKDQNEKLSRDLDNATSEINFLKGEVDKLKSDLESSESKKKAAEDELNALKNELRDFLTKFDELKDENNRLKSEKDSLRKQLNDMKNDLSRFEAENFDVKKEISKFKAELAKIIAENGNLKTQLAEIAEDYDHCQADGCKLKSEIDKLKAAVENLRKESSDCEAKIKELESHLLSKEDEKNRLEQEIESLKKNLAAEKADKETALKKVEEVKEELKLLKAELDKLRSANDQLRAETDDLKKQLVMSKDALNKAESEISALRDDNNRLKGQGDTLANKSEKLSGELNKWKTEAEAQRDENAKLKGEVDKLRAENAKLKNEINSLGIEVSGLKSDNSKLKNELEAAKSELEKLKSELGASKAENEKLKGEMNSLKSEVGRLNEEVSKMRADVEKLRKSLADGEARIKNLEGQVASLESEKAKLVKELNGLRDELEKLRKDLTAEKSAKETALKEADGSKSELSMMRGELEKSRAENEKLKSDLEASKKKVAELTNENSVLKAEVGKLEKELNDFKSDNSKLKGDLDKVKNNLDKVAADFNAYKAEKEKELNNLKAENERLKKDLADMGVKVKNLEDQLKSLQGAKAQLEADIADSKSQMEKLKQDLLVEKGNREAARKELEALKNTLADLRNEMGKLREENEKLILENANLRKQIDKMKSDAEKLKGDLDHLGAKNEKLKAEINRLKAELENMKVEKDKMKGELEKSKGDLAKLRDDLQNAKGNADKLMSENKKLKSDLAEAKAGVDMLKANVSKGSIECNKWKEELEKLKVELAKTKGEANKCKAEVDKLKAETPKGRPEKKELKNSGDECGDFIKSNEILRKRIQKQNEAIDRVREFIGFVEGKSSSKPLMAEDYNADGDSSGWIEPAVNEVMEKSQKLSENIFRAEKEIQELEAFLHQKVRIN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: -
90% Identity: -
80% Identity: -