Basic Information

Insect: Hymenopus coronatus
Gene Symbol: -
Assembly: GCA_030762935.1
Location: CM060880.1:35349320-35354349[+]

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 0.052 2.5e+02 4.5 0.0 26 62 18 54 15 62 0.76

2 30 0.0037 18 8.1 0.2 25 62 66 103 63 106 0.81

3 30 0.0049 24 7.7 0.2 25 58 101 134 93 141 0.55

4 30 0.033 1.6e+02 5.1 0.2 27 58 138 169 130 175 0.58

5 30 0.01 50 6.7 0.1 26 62 179 215 175 218 0.74

6 30 0.0039 19 8.1 0.2 25 62 192 229 190 232 0.87

7 30 0.028 1.3e+02 5.3 0.1 26 62 214 250 212 253 0.79

8 30 0.0036 17 8.2 0.3 25 61 234 270 225 274 0.70

9 30 0.0031 15 8.4 0.3 25 61 248 284 241 288 0.80

10 30 0.042 2e+02 4.7 0.4 25 63 290 328 287 330 0.83

11 30 0.0074 35 7.2 0.7 26 58 326 358 309 372 0.58

12 30 0.69 3.3e+03 0.9 0.1 26 45 375 394 371 417 0.77

13 30 0.023 1.1e+02 5.6 0.2 29 61 430 462 418 466 0.68

14 30 2 9.3e+03 -0.6 0.0 26 63 525 562 522 564 0.82

15 30 1.5 7.2e+03 -0.2 0.0 29 61 563 595 550 599 0.62

16 30 0.026 1.2e+02 5.4 0.4 30 60 599 629 578 638 0.59

17 30 6.1 2.9e+04 -2.2 0.0 33 59 665 691 663 697 0.64

18 30 5.9 2.8e+04 -2.1 0.1 29 59 703 733 698 739 0.64

19 30 3.1 1.5e+04 -1.2 0.0 28 53 757 782 749 792 0.51

20 30 5.1 2.4e+04 -1.9 2.9 19 44 852 878 851 886 0.54

21 30 1.9 9.2e+03 -0.6 2.0 18 44 886 913 884 934 0.78

22 30 3.5 1.7e+04 -1.4 0.0 32 56 966 990 963 997 0.83

23 30 0.0047 23 7.8 0.6 27 62 1024 1059 1020 1072 0.68

24 30 0.0031 15 8.4 0.6 25 61 1071 1107 1064 1110 0.82

25 30 0.02 95 5.8 0.1 25 56 1113 1144 1112 1150 0.88

26 30 0.0051 25 7.7 0.1 26 61 1198 1233 1190 1240 0.79

27 30 8.4 4e+04 -2.6 0.0 48 56 1290 1298 1271 1325 0.50

28 30 0.006 29 7.5 0.2 26 61 1331 1366 1329 1370 0.78

29 30 0.012 57 6.5 0.1 30 61 1370 1401 1364 1411 0.57

30 30 0.0064 31 7.4 0.1 26 61 1415 1450 1413 1453 0.88

#	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	0.052	2.5e+02	4.5	0.0	26	62	18	54	15	62	0.76
2	30	0.0037	18	8.1	0.2	25	62	66	103	63	106	0.81
3	30	0.0049	24	7.7	0.2	25	58	101	134	93	141	0.55
4	30	0.033	1.6e+02	5.1	0.2	27	58	138	169	130	175	0.58
5	30	0.01	50	6.7	0.1	26	62	179	215	175	218	0.74
6	30	0.0039	19	8.1	0.2	25	62	192	229	190	232	0.87
7	30	0.028	1.3e+02	5.3	0.1	26	62	214	250	212	253	0.79
8	30	0.0036	17	8.2	0.3	25	61	234	270	225	274	0.70
9	30	0.0031	15	8.4	0.3	25	61	248	284	241	288	0.80
10	30	0.042	2e+02	4.7	0.4	25	63	290	328	287	330	0.83
11	30	0.0074	35	7.2	0.7	26	58	326	358	309	372	0.58
12	30	0.69	3.3e+03	0.9	0.1	26	45	375	394	371	417	0.77
13	30	0.023	1.1e+02	5.6	0.2	29	61	430	462	418	466	0.68
14	30	2	9.3e+03	-0.6	0.0	26	63	525	562	522	564	0.82
15	30	1.5	7.2e+03	-0.2	0.0	29	61	563	595	550	599	0.62
16	30	0.026	1.2e+02	5.4	0.4	30	60	599	629	578	638	0.59
17	30	6.1	2.9e+04	-2.2	0.0	33	59	665	691	663	697	0.64
18	30	5.9	2.8e+04	-2.1	0.1	29	59	703	733	698	739	0.64
19	30	3.1	1.5e+04	-1.2	0.0	28	53	757	782	749	792	0.51
20	30	5.1	2.4e+04	-1.9	2.9	19	44	852	878	851	886	0.54
21	30	1.9	9.2e+03	-0.6	2.0	18	44	886	913	884	934	0.78
22	30	3.5	1.7e+04	-1.4	0.0	32	56	966	990	963	997	0.83
23	30	0.0047	23	7.8	0.6	27	62	1024	1059	1020	1072	0.68
24	30	0.0031	15	8.4	0.6	25	61	1071	1107	1064	1110	0.82
25	30	0.02	95	5.8	0.1	25	56	1113	1144	1112	1150	0.88
26	30	0.0051	25	7.7	0.1	26	61	1198	1233	1190	1240	0.79
27	30	8.4	4e+04	-2.6	0.0	48	56	1290	1298	1271	1325	0.50
28	30	0.006	29	7.5	0.2	26	61	1331	1366	1329	1370	0.78
29	30	0.012	57	6.5	0.1	30	61	1370	1401	1364	1411	0.57
30	30	0.0064	31	7.4	0.1	26	61	1415	1450	1413	1453	0.88

Sequence Information

Coding Sequence: ATGAGTGCAAAGACCGCCGAGGTGACTGCACAGACCGCATACTTGAGGACAAAAACCaccgacttgactgcacagaccgccgactttaGTGCACCGACCGCCGACCTGACAGCACATAACGCCGACTTGACAGCACAGACAGCCCacttgagtgcacagaccgcAGACCTGACAGCTCAGGCAGCCGACAtgacagcacagaccgccgacttgacagCTCAGACAgccgacctgacagcacagaccgccgacctgacaGCTCAGAGAgccgacctgacagcacagacAGCCGACCTGACGGCACAGACTGCCGACTTGACAGCACAGACAGCCGATttgacagcacagaccgccgacctgacagcacagaccgccgacttgacagcacagaccgccgacctgtcagcacagaccgccgacctgagtgcacagaccgccgacctgagtgcacagaccgccgacttgacagcacagacagccgacctgacagcacagacTGCCGACTTGACAGCACAACCAGCCGAACCAACAGCACAGACTGCCGacttgacagcacagaccgccgacctaACAGCACAGACTAAAGACTTGACAGCACAGACTGCCGACCTCACATCACAGACAGCCGACCTGGCAGCACAGATAGCCGACCTGGCAGCACAGACAGCCGACCTGACAGCACAGTCCTCCGACTTGACAGCACAGACCTCCGACTTGACAGCACAGACAGCCGACTTGACAGCACAGACAgccgacctgacagcacagaccgccgacctgacagcacagaccgccgacctgacagcacagaccgccgaTTTGACAGAACAACCAgccgacctgacagcacagaccgccgacttgacagCACAGACAGCCAACCTGACAGCACAGACTGCCGACTTGAGTGCACAGACCACCGAAATGACAGCACAGACAGCCAacttgacagcacagaccgccgacctgagTGCACAGACCACCGAAAtgacagcacagaccgccgaACTGACAGCTCAGACAGCCGACCTGAGTGCACAGACTgccgacttgactgcacagacagccgacctgagtgcacagaccgccgactcgactgcacagaccgccgactcgaCTACACAGACCGCCGAgttgactgcacagaccgccgacttgactgcacagaccgccaACTTGACCGACTTGACTGCACAGTCCGCCGACCTcacagcacagaccgccgactcgaGTGATCAGTCCACCGACCTGACAGCAAAGACCaccgacttgactgcacagaccattgacttgactgcacagaccaccgacttgaCTGCACAGTCCACTGACTTGACTGCACAGACTGCCGAAttgacagcacagaccgccgacttgagtgcacagaccgccgacttgacagCACAGACCCCCAACTCgaatgcacagaccgccgacaTGAGTGCACAGACTGCCGACTCgaatgcacagaccgccgactcgaATGCACAGACTGCCGACctgactgcacagaccgccgactcgaatgcacagaccgccgacttgagtgcacagaccgccgactcgaatgcacagaccgccgacttgactgcacagaccgccgactcgaatgcacagaccgccgacctgacagcacagaACGCCGACTCGAATGCACAGACCGCCAACTTGACTGCACAGTACGCCGACCTcacagcacagaccgccgactcgaGTGATCAGTCCACCGACCTGACAGCAAAGACCaccgacttgactgcacagaccaccgacttgactgcacagtccaccgacttgactgcacagtccaccgacttgactgcacagtccaccgacttgactgcacagactGCCGAAttgacagcacagaccgccgacttgagtgcacagaccgccgacttgacagCACAGACCCCCAACTCgaatgcacagaccgccgacaTGAGTGCACAGACTGCCGACTCgaatgcacagaccgccgactcgaatgcacagaccgccgacctgactgcacagaccgccgacctgacTGCACAGACTGCCGACTCgaatgcacagaccgccgacttgagtgcacagaccgccgactcgaatgcacagaccgccgacttgactgcacagaccgccgactcgaatgcacagaccgccgacctgacagcacagaACGCCGACTCGAATGCACAGACCGCCAACTTGACtacacagaccgccgacttgactacacagaccgccgacttTGCACACACCGCCGACTTGAGTGCACAGACTGCCGACTTGAGTGCACAGACTGCCGACTTCAGttcacagaccgccgacttgagtgCACAGACAGCCGATCTGACAGCACAGACCACCGACTCAAGTGCACAGACCCgccgacttgactgcacagactgccgacttgagtgcacagacagccgacctgacagcacagaccaCCCACTCGAGTGCACAGACCGTTTACTTGAGttcacagaccgccgacttgactgcacagaccgccgacttaaGTGCACAGACTGCCGATTAGAATGCATATACCGCCGACctgactgcacagaccgccgactcgaatgcacagaccgccgactcgaatgcacagaccgccgacttgagtgcacagaccgccgactcgaATGCACAGACCGCGGACTCgaatgcacagaccgccgacctgagcgcacagaccgccgacttgagtgcacagaccgccgactcgaatgcacagaccgccgacttgactgcacagacctGGACTCGAATGCACAGACCGCCGATttgacagcacagaccgccgacttgacagCACAGACTGCCACCGCTGACCCGACAGCACAGACCGCCAACTCgaatgcacagaccgccgactcgaatgcacagaccgccgactcgaatgcacagaccgccgacttaaCTGCACAGACCGCCTACTTGACAGCACCGACCGCCGACCTtactgcacagaccgccgactcgaGTGCACAGACTGCTGTCTTGATAGCACAGACCACCTACCTAACAACACAGACCGCCGATCTGACTGCTCCGACCGCCGACCCgacagcacagaccgccgacttgactgcacagaccgccgacttgactgcacagaccgccgacttgagagcacagaccgccgacctgacagcacagaccgccgacttgagtgcacagaccgccgaatTGACTGCACAGACTGCCGacttgacagcacagaccgccgacctgacagcacagaGCGTCGACCTGACAGCACAGAGCGCCGAActgacagcacagaccgccgaactgacagcacagaccgccgacttgactgcacagaccgccgactcgaGTGCACAGACCGACAacctgacagcacagaccgccgacctgacagcacagagcgccgacctgacagcacagaccgccgacttgactgCCAAGACCGCCGACTCGAATACACAGACCGCGGACTCGAATACACAGACCGCCGACCTAAgcgcacagaccgccgacttgagtgcacagaccgccgactcgaatgcacagaccgccgacttgactgcacagacccTGGACTCgaatgcacagaccgccgacctgagCGCACAGACCGCCGATttgacagcacagaccgccgacttgacagCACAGACTGCCGTCCTGACAGCACAGATCgccgacttgactgcacagatcgacgacttgactgcacagaccgccgacttgactgcacagagCGCCTACTCGAATGCACAGACCGCTgacctgacagcacagaccgccCACTCGAATGCACAGACCGCCCACTCGAATGCACAGACCGCCAACTCGAATGCACAGACTGCCGACTTAACTGCACAGACCGCCTACTTGACAGCACTGACCGCCGACCTtactgcacagaccgccgactcgaGTGCACAGACTGCTGACTTGATAGCACAGACCACCTACCTGACAGCACAGACTGCCGACCTGACTGCTCTGAACGCCGACCCgacagcacagaccgccgacttgacatcacagaccgccgacttgacatcacagaccgccgacttgagagcacagaccgccgacctgacagcacagaccgccgacttgactgcacagactgccgacctgacagcacagaccgccgacctgacagcacagaGCGCCGATCTGACAGCACAGAGCGCCGATctgacagcacagaccgccgacttgactacacagaccgccgacttgactgcacagaccgccgactcgagtgcacagaccgccaacctgacagcacagaccgccgacctgacagcacagagcgccgacctgacagcacagaccgccgacttgactgcacagaccgccgatTTGACTTCACAGACCGCCGACTcgagtgcacagaccgccgacttgactgcacagacaTTCGATCAGAACACACATACCACCGTCCTTACttcacagaccgccgacttgagtgcacagaccgccgtTTTGAATGCACAGACCGTCGACACTgccgacttgactgcacagacaTTCGACCTGAACACAAATACTACCGTCCTTACTTCACAGACCGCCGACGTGAGTGCACAGACCGCTGACCCGACTGCGcagaccgccgacttgagtgCACAGACCGTCGACTCGGCTGCTCAGTGCGCCGAtttgagtgcacagaccgccgacttgactgCACAATCGTGGACTACGCTGCACTGA
Protein Sequence: MSAKTAEVTAQTAYLRTKTTDLTAQTADFSAPTADLTAHNADLTAQTAHLSAQTADLTAQAADMTAQTADLTAQTADLTAQTADLTAQRADLTAQTADLTAQTADLTAQTADLTAQTADLTAQTADLTAQTADLSAQTADLSAQTADLSAQTADLTAQTADLTAQTADLTAQPAEPTAQTADLTAQTADLTAQTKDLTAQTADLTSQTADLAAQIADLAAQTADLTAQSSDLTAQTSDLTAQTADLTAQTADLTAQTADLTAQTADLTAQTADLTEQPADLTAQTADLTAQTANLTAQTADLSAQTTEMTAQTANLTAQTADLSAQTTEMTAQTAELTAQTADLSAQTADLTAQTADLSAQTADSTAQTADSTTQTAELTAQTADLTAQTANLTDLTAQSADLTAQTADSSDQSTDLTAKTTDLTAQTIDLTAQTTDLTAQSTDLTAQTAELTAQTADLSAQTADLTAQTPNSNAQTADMSAQTADSNAQTADSNAQTADLTAQTADSNAQTADLSAQTADSNAQTADLTAQTADSNAQTADLTAQNADSNAQTANLTAQYADLTAQTADSSDQSTDLTAKTTDLTAQTTDLTAQSTDLTAQSTDLTAQSTDLTAQTAELTAQTADLSAQTADLTAQTPNSNAQTADMSAQTADSNAQTADSNAQTADLTAQTADLTAQTADSNAQTADLSAQTADSNAQTADLTAQTADSNAQTADLTAQNADSNAQTANLTTQTADLTTQTADFAHTADLSAQTADLSAQTADFSSQTADLSAQTADLTAQTTDSSAQTRRLDCTDCRLECTDSRPDSTDHPLECTDRLLEFTDRRLDCTDRRLKCTDCRLECIYRRPDCTDRRLECTDRRLECTDRRLECTDRRLECTDRGLECTDRRPERTDRRLECTDRRLECTDRRLDCTDLDSNAQTADLTAQTADLTAQTATADPTAQTANSNAQTADSNAQTADSNAQTADLTAQTAYLTAPTADLTAQTADSSAQTAVLIAQTTYLTTQTADLTAPTADPTAQTADLTAQTADLTAQTADLRAQTADLTAQTADLSAQTAELTAQTADLTAQTADLTAQSVDLTAQSAELTAQTAELTAQTADLTAQTADSSAQTDNLTAQTADLTAQSADLTAQTADLTAKTADSNTQTADSNTQTADLSAQTADLSAQTADSNAQTADLTAQTLDSNAQTADLSAQTADLTAQTADLTAQTAVLTAQIADLTAQIDDLTAQTADLTAQSAYSNAQTADLTAQTAHSNAQTAHSNAQTANSNAQTADLTAQTAYLTALTADLTAQTADSSAQTADLIAQTTYLTAQTADLTALNADPTAQTADLTSQTADLTSQTADLRAQTADLTAQTADLTAQTADLTAQTADLTAQSADLTAQSADLTAQTADLTTQTADLTAQTADSSAQTANLTAQTADLTAQSADLTAQTADLTAQTADLTSQTADSSAQTADLTAQTFDQNTHTTVLTSQTADLSAQTAVLNAQTVDTADLTAQTFDLNTNTTVLTSQTADVSAQTADPTAQTADLSAQTVDSAAQCADLSAQTADLTAQSWTTLH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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