Basic Information

Insect: Orussus abietinus
Gene Symbol: -
Assembly: GCA_000612105.2
Location: NW:422306-429119[+]

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 30 0.18 90 2.3 1.2 30 62 59 91 54 94 0.78

2 30 0.094 47 3.2 2.5 33 56 107 130 101 132 0.70

3 30 0.0002 0.099 11.8 2.8 28 56 219 247 212 254 0.86

4 30 0.41 2e+02 1.1 0.3 33 64 319 350 308 360 0.64

5 30 3.5 1.8e+03 -1.8 0.2 33 55 378 400 367 409 0.62

6 30 0.0067 3.3 6.9 4.4 29 62 427 460 414 470 0.82

7 30 0.44 2.2e+02 1.1 1.0 25 64 458 500 457 501 0.85

8 30 0.0064 3.2 6.9 6.7 32 62 503 533 495 536 0.91

9 30 1.6e-05 0.0081 15.2 4.8 26 63 539 576 534 578 0.90

10 30 3.6e-05 0.018 14.1 14.9 24 64 586 626 583 627 0.94

11 30 4.9e-05 0.024 13.7 5.2 28 59 635 666 630 672 0.89

12 30 0.036 18 4.6 7.4 22 59 685 722 679 723 0.83

13 30 6.6e-07 0.00033 19.7 10.9 24 64 715 755 712 756 0.93

14 30 0.003 1.5 8.0 1.3 34 65 760 791 755 791 0.89

15 30 0.27 1.4e+02 1.7 5.1 22 58 790 826 789 829 0.88

16 30 6e-05 0.029 13.4 3.6 29 62 832 865 827 868 0.89

17 30 0.0033 1.6 7.9 3.2 22 64 853 895 853 896 0.94

18 30 0.00058 0.29 10.3 4.5 31 65 911 945 900 945 0.88

19 30 0.0039 1.9 7.6 8.2 21 57 922 958 914 971 0.62

20 30 0.0039 1.9 7.6 6.4 32 59 961 988 943 994 0.55

21 30 9.2e-05 0.046 12.8 4.2 26 63 969 1006 964 1008 0.91

22 30 0.075 37 3.5 4.0 26 62 1011 1047 1007 1049 0.86

23 30 0.0009 0.44 9.7 3.6 28 61 1076 1109 1065 1113 0.66

24 30 0.85 4.2e+02 0.1 10.1 18 63 1108 1153 1101 1162 0.76

25 30 0.45 2.2e+02 1.0 5.0 35 60 1174 1199 1147 1204 0.72

26 30 2e-05 0.01 14.9 3.6 22 65 1213 1256 1211 1258 0.95

27 30 0.017 8.3 5.6 4.1 22 55 1255 1288 1253 1297 0.77

28 30 0.41 2e+02 1.2 9.9 22 64 1324 1366 1312 1367 0.82

29 30 8.3e-06 0.0041 16.2 2.6 27 63 1379 1415 1375 1417 0.87

30 30 0.52 2.6e+02 0.8 0.2 30 47 1410 1427 1408 1446 0.76

#	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	30	0.18	90	2.3	1.2	30	62	59	91	54	94	0.78
2	30	0.094	47	3.2	2.5	33	56	107	130	101	132	0.70
3	30	0.0002	0.099	11.8	2.8	28	56	219	247	212	254	0.86
4	30	0.41	2e+02	1.1	0.3	33	64	319	350	308	360	0.64
5	30	3.5	1.8e+03	-1.8	0.2	33	55	378	400	367	409	0.62
6	30	0.0067	3.3	6.9	4.4	29	62	427	460	414	470	0.82
7	30	0.44	2.2e+02	1.1	1.0	25	64	458	500	457	501	0.85
8	30	0.0064	3.2	6.9	6.7	32	62	503	533	495	536	0.91
9	30	1.6e-05	0.0081	15.2	4.8	26	63	539	576	534	578	0.90
10	30	3.6e-05	0.018	14.1	14.9	24	64	586	626	583	627	0.94
11	30	4.9e-05	0.024	13.7	5.2	28	59	635	666	630	672	0.89
12	30	0.036	18	4.6	7.4	22	59	685	722	679	723	0.83
13	30	6.6e-07	0.00033	19.7	10.9	24	64	715	755	712	756	0.93
14	30	0.003	1.5	8.0	1.3	34	65	760	791	755	791	0.89
15	30	0.27	1.4e+02	1.7	5.1	22	58	790	826	789	829	0.88
16	30	6e-05	0.029	13.4	3.6	29	62	832	865	827	868	0.89
17	30	0.0033	1.6	7.9	3.2	22	64	853	895	853	896	0.94
18	30	0.00058	0.29	10.3	4.5	31	65	911	945	900	945	0.88
19	30	0.0039	1.9	7.6	8.2	21	57	922	958	914	971	0.62
20	30	0.0039	1.9	7.6	6.4	32	59	961	988	943	994	0.55
21	30	9.2e-05	0.046	12.8	4.2	26	63	969	1006	964	1008	0.91
22	30	0.075	37	3.5	4.0	26	62	1011	1047	1007	1049	0.86
23	30	0.0009	0.44	9.7	3.6	28	61	1076	1109	1065	1113	0.66
24	30	0.85	4.2e+02	0.1	10.1	18	63	1108	1153	1101	1162	0.76
25	30	0.45	2.2e+02	1.0	5.0	35	60	1174	1199	1147	1204	0.72
26	30	2e-05	0.01	14.9	3.6	22	65	1213	1256	1211	1258	0.95
27	30	0.017	8.3	5.6	4.1	22	55	1255	1288	1253	1297	0.77
28	30	0.41	2e+02	1.2	9.9	22	64	1324	1366	1312	1367	0.82
29	30	8.3e-06	0.0041	16.2	2.6	27	63	1379	1415	1375	1417	0.87
30	30	0.52	2.6e+02	0.8	0.2	30	47	1410	1427	1408	1446	0.76

Sequence Information

Coding Sequence: atggACCGATGTCCCGGAGTTTCCTGCCTCTGCGGATGTGCATCGCCGCCCTGCATGCAACCTGCGGAACCTCCGCACGAGCCCTGCTGTTGTTGTAATTACAATCCATTCAGCGACAATACGAAGGATGCGGAAATTTACGATCTCCCTTTCGCACTTCGAAAGCTAACGGTGATGAAATGTCAGATGAAAAAATGGCGCATGGAGCGGCTGCAGTTGGAGAGCGAGACGAGGTCTCTGAAGAAGACCTTGCAATCTTTGGGAGTTGACGTGGAAGAGGCACTGAGGCCAGACCCTTTGATAGTTCACTATCGAGAAGAGACGGAGAAGTTGGAGAACGAGAAGAGCGAGCTGGAGGACAGGGTCAGGAATTTGGAGGAGACTCTGGCCGAGAGAGATTGCTGCGATGATCCAGAAGAGACGGTGCAATACATGAGACAGAGGATGCAGATGCTGAGAGAGCGGGTcaccgaggagaaaaagggATTGATGGAGATAATTGGCGCGTTGAAGATCAAACTCGCAAAGGCCGAAGAGGACTCTTCCTGTGCAGCTCTGAATCGTCTCAGGGCGAAGCTGAGAGAACTGTTAAAAGGCGGCCAGAAAGCCGACGAACAGGTTTCCAAGGTTGTCGAAAAATCTATCGAAGCTCTGGTCGAGCTGTCGAAAAGTTGCGACGATCTGAGAGCCGAAAACGAACGACTGCAGAGGGAATTAGctgcattgagaaaaaatagaGACTTGTCAGCGGAAGCTTCGCAGAGGCCTGAAACATACGAGAAAGCAGGGAAAAAGGCTGATAGGACGGATGCGCCTGATTTTCCGAATCAACCGAGAAGCTGCGAAGCACTGGTGGCTGATTTGAGAAGACAGCTTGCAGAGAAGGATCTGATGATCAATGAACTTCAGAAGCAACTGTATCAACAGAAGAGCGTGACGAGCGAGTTGACAGTTGATCTCGATCAAATGACCATCAGCTACAAAGCTCTACTGGCAGAAGTGACAGCGATGAAGGAGGAGCTGAAGAAAAGGGACGATAAAGTGACCGAGCTGCTGGGAGATCTAAGAAACTCAGCAATGGACATGCTAGGCATGACTGCACTTCGAAGTGAAATAGAGCTGATAAAGCCGCAGATGTACAACCTTCAGCTTGAGCGAGATCAACTAATAGACGAGCTAGGAAGGGTTCGAGAAGCAATTTCCGAGAGGAACGATCAGATAGCAAAAATTCTGGAACAGAAACAGAAAACGACGGACGATTGCGACTCAAAATTGGCAGAAATGCAAACGCGAATAGACACACTTCTAGCCGAGGAAGAGTTATTGAGGAAAGAGAACGAAGACATGCGGACGACGATAGAGGACTTAGAACAGGAAATAGATAACCTAAAAACACGCGTAACAGAATTGGAGAAATGTTGCGGAGACACCGCAGACTTGTCACGAAAGATTCgggaatttgaagaaaatctTCAGGGTCTGAGCAAAGAGCTCGAAGCGGCGAGAAAAAGAGTGAACGAGTTGGAGGACGAGAAAGAGAAGCTCATTAAGGAGCTGGAAATGGCAAGAGCGACCTTGGAAGAGATGAAAGAAGAATTGGGAGCTATGAAAATCGCGAGAGAAACGGTACAGAAGGAACTGGATGAACTGAAGTCTGAGAATTCCAGATTGGAAGAAGAACTCGATGCTTTGAGATCAGAGAATGGGAATTTAAAAGACAATCTTGAAGTACTTGCTGCAGAAGTGCAGAGTTTGAAGGAATTAAACGAGAATCttaagaaggaaaaggaaagccTCGAAGCTGAGAATCAGAAACTGCTTTCGGAACTCAACAATTTAAGAGAGAAGCTCGCCCAGTTGGAGGAAGAGTTGGACAGACTGTTGACCCGGTTGAAGGGATTGGAAGAACTGGAGAAAGAGGTGGAAAAGATGAAGTCTGAGAACGATTCTCTGAAGTCCCAGGTGGAAGTTTTGAAAGCTGAgacggagaaattaaatatggaCAACACGAGATTGAAAGGAGAGGGGGATGGCCAAAGAGTGGAACAGGAGAGGTTGAAAACGACTTTAGATCAGGttgaaaaagagagagataggttgaaaaatgaattagaTGCACTAAAGGTAGAGGCTGACAATCTGAGGGAAGAGGCCtctaaattaaagaaagaagTCGACGATCTGAAAgctgagaataaaaaattagagaaTGAAAACGAGGAactgaaaaaggaaagggatgCCTTGAAGAGACATTTAGCCGAATTGGATATCTTATTGGAAGACGTGAAAGAGGAAAACGTCGATTTGAAGCAAGAAATTGGCAAATTGAAGGAGATGGTCGCCGGGCTGCAAGTCGAGAACGAAAAGCTGAAGACTGAGTTGGAAGATCTGGAGGTTCAGATGTGCAAGGTAAAGGTGGCGACTGAGAAGCTGAATGCTGAGATCGAAAAGCTGAAGAAGGAATTGAGTAATTGTCAAATCGAAGCCGGGGAACTGGAGAGACAGATAAATGCtttgaaagaggaaaaaaagaaacttcaaGATGAAATCGGGAAGCTGAAGAGTGAAATAAATAGACTGAACAACGAGTGGTCTGCTTTGATGGCTGCCAAAGAAGCGGCTCTGCAGGAAGCATCGTTGTTGAGAGAAGAACTGGGAGTCCTGAAAGCAGAATTGATGAAATCGAGGGGCGAGAACGAGAAGCTGAAGTCCGACTTAGAAGATGCGAAGAGGCAAGCTTCGAATTGTAAGGAAGAGACGAATAAACTCCGTGACGAGGTTGCAGCACTGAGGGCTGAGATCGAGAAGCTGAAGGCGAATGCTGAAAAACTGAGAATGGAGAACGACAAATTGAACGAGGAACTTCGAAAAGCTACGTATGAAGTAGAAGCACTGAGAGGGGAAAATAACAGGCTGAAAAGCGAGGCCGACAAGCTGAgggatgaaaattcaaaactGAAGGACGATGTCGAAGTTCTgaggaaggagaaggagaagatgTCCTCCGAACTCGCTGCGGCCAAAGGTGAAGCCGAAAAACTAAAATCGGAATTGGCTGCCAGTCAATCCGAAAGAGACAAATTGAAGGTAGATGCTGACAAGTTAAAGAACGAACTGgaagatgttaaaaaaaatatggagaCGGCAAGGAAAGGAAGCGAAGGTTCGGAAAAGGCCCTAGCAGATGCCGAAGCGAAGGTTCGAAATTTCCAAAGCAAACTATCAACCCTGGAGGCAGAAAAGGAGAAGCTAGTTGGCGAACTGAACAAGCTGAGAAGCGAAGTTGATAAACTAGACAAGGAAGCAGCAACTTTGAGAGCTGCCAGAGAAGCAGCTCTGAAAGAAGCCGAATCCTTGAAATCCGAGTTGGCTGCTCTGAAAGCTGAGCTGGAAAAGTGCCGTGCTGATGGCGAAAAATTAAGGGCAGAACTGGAGAATTGCAAGGCACAACTCAAGGATGCGCTGGAGGCCCTGAAGAGTCAAAGCAGCGACAGCGGGAAAACGGTCACAGAATTGGAAACCCAGAGAGCTGAGAACGCAAAACTGAAGGCGGACCTGGATAAGCTGAAAGCCGAGCTAAACGCTCTGAAGTCAATAAGCGACGAGTACGACAAACTAAAATCTGAAAACGCAAAGATGAAGGCAGAGATCGAAAAACTGAGAGGAGAAATTGCTGAACTGAAGACCGAAAATGGAAAGCTAAGCGCCGAGAACGCGAAGCTGGTCGACGCTAATGCGAAGCTGAAGGAGGATAACGAGAAACTCAAGGACTTGAGCAATAAGTTGCTGAATGACGTAGAGAATTTAAAGAAGGAGAACGAGAAGCTGAAGAACGGATTTTCGGATGCAGAAGCGAAGATAAAAGAGCTGGAAGGACTTGTGCGCTCGGCGGGTGATCGGATGGAGAAGCAAAGGTTGTCCGAGGTTCCGAAACACGCGTTAGACAAGGTTAATCAAGAGTTAAATCGCGAAAGGGCCGCGAAGGATGCTGCCCTGAAAGAAGTGGAAGCCTTGAAGAATGCCCTGGCCGAGTTGAGGGAAGAATTGAAGAAATGTCGCGCTGAGAACGAGAAATCGAAGGCCGAGCTGGAAAAGCGCGTGGAAGGGCAGCCTGAATCGAAACAGCCCAAGACGAAGGAAGACAAGAGCGATGTTGATAAATTGAAATCGGACAATGACAAGTTGAATCGGGAGATCGAAAAGCTGCGCAAAGAGAATGCAAGGCTGAAGGCCGATCTGGAAGTTTGCCAGGCGGAAAATGCGAAACTCAGGGGGCAGCTCGACGCTCGGGCCGCGAAGCGTCTGCAAGGATACGTCGAATTTCTCGAGGCGAAAAAAGAAGTCAAACCCGAGATGGCCGAGCAGCTGAAGCACGAAAAGGATCCAGGAAACTGGTCGTTCCCTGGGATACAGGACGTCTTGAAGGACTCTGAAAATCTATCGACAAACCTCCATCGGGTTGAGAAGGAAATCCAAAATCTGGAAGGATTGGCAAGCCCGGTCTGGAAAAGCAATCaagttgtaaaaaaaattttacagGGTACCGAGGAAACCGCGCGGATTGGACAAACGGAAATCGGGGAAGAGGATGAAGACGGTGAAGtagaagacgaagaagaggtCCTCGGTGTCTCCGAAGAGTCTGAACGACCTAGCGAAGTTTTCGATCCCGAGATCTGGCTAAACGCATTGACCCTGACCGAGCTGGCGGAGTTGCACGACCGGATTTGTCTCTTAACATCGTCAATGGtcaggcaagatggcggaacaGACATCCTAAATCGGAGGATTGCGGCACTTCAGAAGCAGATCTCCGAGAAGCAGGCCGAAGCTGCATTAAAAGTGCAGGAGATGAGACACGCACTTCGACAAGAGCAGGCGCGCTTGATTAAACTATCCGAGGAAATGAACGCGGAAAGGAAACGCAATCTCGCACTTCAGCTGACAATGGATGGAGCCGGGAACATCGTCCCAAAAACTTCGGAAAGTCGCAAAGTAGTCTGTCCATCCTTTGCAAAAAGGAGACATTGA
Protein Sequence: MDRCPGVSCLCGCASPPCMQPAEPPHEPCCCCNYNPFSDNTKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKKTLQSLGVDVEEALRPDPLIVHYREETEKLENEKSELEDRVRNLEETLAERDCCDDPEETVQYMRQRMQMLRERVTEEKKGLMEIIGALKIKLAKAEEDSSCAALNRLRAKLRELLKGGQKADEQVSKVVEKSIEALVELSKSCDDLRAENERLQRELAALRKNRDLSAEASQRPETYEKAGKKADRTDAPDFPNQPRSCEALVADLRRQLAEKDLMINELQKQLYQQKSVTSELTVDLDQMTISYKALLAEVTAMKEELKKRDDKVTELLGDLRNSAMDMLGMTALRSEIELIKPQMYNLQLERDQLIDELGRVREAISERNDQIAKILEQKQKTTDDCDSKLAEMQTRIDTLLAEEELLRKENEDMRTTIEDLEQEIDNLKTRVTELEKCCGDTADLSRKIREFEENLQGLSKELEAARKRVNELEDEKEKLIKELEMARATLEEMKEELGAMKIARETVQKELDELKSENSRLEEELDALRSENGNLKDNLEVLAAEVQSLKELNENLKKEKESLEAENQKLLSELNNLREKLAQLEEELDRLLTRLKGLEELEKEVEKMKSENDSLKSQVEVLKAETEKLNMDNTRLKGEGDGQRVEQERLKTTLDQVEKERDRLKNELDALKVEADNLREEASKLKKEVDDLKAENKKLENENEELKKERDALKRHLAELDILLEDVKEENVDLKQEIGKLKEMVAGLQVENEKLKTELEDLEVQMCKVKVATEKLNAEIEKLKKELSNCQIEAGELERQINALKEEKKKLQDEIGKLKSEINRLNNEWSALMAAKEAALQEASLLREELGVLKAELMKSRGENEKLKSDLEDAKRQASNCKEETNKLRDEVAALRAEIEKLKANAEKLRMENDKLNEELRKATYEVEALRGENNRLKSEADKLRDENSKLKDDVEVLRKEKEKMSSELAAAKGEAEKLKSELAASQSERDKLKVDADKLKNELEDVKKNMETARKGSEGSEKALADAEAKVRNFQSKLSTLEAEKEKLVGELNKLRSEVDKLDKEAATLRAAREAALKEAESLKSELAALKAELEKCRADGEKLRAELENCKAQLKDALEALKSQSSDSGKTVTELETQRAENAKLKADLDKLKAELNALKSISDEYDKLKSENAKMKAEIEKLRGEIAELKTENGKLSAENAKLVDANAKLKEDNEKLKDLSNKLLNDVENLKKENEKLKNGFSDAEAKIKELEGLVRSAGDRMEKQRLSEVPKHALDKVNQELNRERAAKDAALKEVEALKNALAELREELKKCRAENEKSKAELEKRVEGQPESKQPKTKEDKSDVDKLKSDNDKLNREIEKLRKENARLKADLEVCQAENAKLRGQLDARAAKRLQGYVEFLEAKKEVKPEMAEQLKHEKDPGNWSFPGIQDVLKDSENLSTNLHRVEKEIQNLEGLASPVWKSNQVVKKILQGTEETARIGQTEIGEEDEDGEVEDEEEVLGVSEESERPSEVFDPEIWLNALTLTELAELHDRICLLTSSMVRQDGGTDILNRRIAALQKQISEKQAEAALKVQEMRHALRQEQARLIKLSEEMNAERKRNLALQLTMDGAGNIVPKTSESRKVVCPSFAKRRH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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