Basic Information

Insect: Thereva nobilitata
Gene Symbol: -
Assembly: GCA_963855945.1
Location: OY979694.1:232335807-232349245[+]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [1].
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 27 1.4e-05 0.0033 19.5 0.7 3 23 282 302 281 302 0.97

2 27 3.7e-05 0.009 18.1 1.8 1 23 307 329 307 329 0.98

3 27 0.0017 0.42 12.9 0.2 1 20 335 354 335 356 0.94

4 27 0.00052 0.13 14.5 3.0 2 23 372 393 371 393 0.96

5 27 9.7e-06 0.0023 20.0 1.2 2 23 399 420 398 420 0.97

6 27 0.00016 0.039 16.1 6.0 2 23 430 451 426 451 0.93

7 27 4.3e-05 0.01 17.9 0.8 2 23 457 478 456 478 0.97

8 27 0.00028 0.068 15.4 3.0 2 23 488 509 488 509 0.98

9 27 0.0002 0.049 15.8 0.7 1 20 515 534 515 536 0.96

10 27 5.3e-07 0.00013 24.0 0.7 2 23 552 573 552 573 0.97

11 27 4.2e-05 0.01 18.0 0.9 2 23 579 600 578 600 0.97

12 27 0.1 25 7.3 1.8 1 21 606 626 606 627 0.87

13 27 0.00021 0.051 15.8 0.5 3 23 956 976 955 976 0.99

14 27 5.5e-05 0.013 17.6 6.9 1 23 981 1003 981 1003 0.98

15 27 3.3e-06 0.00081 21.4 1.1 2 23 1010 1031 1009 1031 0.97

16 27 0.00022 0.053 15.7 6.9 1 23 1036 1058 1036 1058 0.97

17 27 0.00081 0.2 13.9 2.0 2 23 1065 1086 1065 1086 0.96

18 27 1.4e-05 0.0033 19.5 2.1 1 23 1091 1113 1091 1113 0.97

19 27 0.0019 0.45 12.8 1.5 1 22 1119 1140 1119 1140 0.94

20 27 0.00026 0.063 15.5 0.8 2 23 1156 1177 1155 1177 0.96

21 27 0.00012 0.03 16.5 2.4 1 23 1182 1204 1182 1204 0.97

22 27 0.00059 0.14 14.3 0.5 1 20 1210 1229 1210 1231 0.94

23 27 5.5e-06 0.0013 20.8 1.8 2 23 1246 1267 1245 1267 0.97

24 27 2.6e-05 0.0063 18.6 3.7 1 23 1272 1294 1272 1294 0.98

25 27 1.7 4.1e+02 3.5 5.6 1 22 1300 1321 1300 1324 0.90

26 27 0.00018 0.044 16.0 2.7 2 23 1341 1362 1340 1362 0.97

27 27 2.2e-05 0.0053 18.9 1.2 1 21 1368 1388 1368 1389 0.97

#	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	27	1.4e-05	0.0033	19.5	0.7	3	23	282	302	281	302	0.97
2	27	3.7e-05	0.009	18.1	1.8	1	23	307	329	307	329	0.98
3	27	0.0017	0.42	12.9	0.2	1	20	335	354	335	356	0.94
4	27	0.00052	0.13	14.5	3.0	2	23	372	393	371	393	0.96
5	27	9.7e-06	0.0023	20.0	1.2	2	23	399	420	398	420	0.97
6	27	0.00016	0.039	16.1	6.0	2	23	430	451	426	451	0.93
7	27	4.3e-05	0.01	17.9	0.8	2	23	457	478	456	478	0.97
8	27	0.00028	0.068	15.4	3.0	2	23	488	509	488	509	0.98
9	27	0.0002	0.049	15.8	0.7	1	20	515	534	515	536	0.96
10	27	5.3e-07	0.00013	24.0	0.7	2	23	552	573	552	573	0.97
11	27	4.2e-05	0.01	18.0	0.9	2	23	579	600	578	600	0.97
12	27	0.1	25	7.3	1.8	1	21	606	626	606	627	0.87
13	27	0.00021	0.051	15.8	0.5	3	23	956	976	955	976	0.99
14	27	5.5e-05	0.013	17.6	6.9	1	23	981	1003	981	1003	0.98
15	27	3.3e-06	0.00081	21.4	1.1	2	23	1010	1031	1009	1031	0.97
16	27	0.00022	0.053	15.7	6.9	1	23	1036	1058	1036	1058	0.97
17	27	0.00081	0.2	13.9	2.0	2	23	1065	1086	1065	1086	0.96
18	27	1.4e-05	0.0033	19.5	2.1	1	23	1091	1113	1091	1113	0.97
19	27	0.0019	0.45	12.8	1.5	1	22	1119	1140	1119	1140	0.94
20	27	0.00026	0.063	15.5	0.8	2	23	1156	1177	1155	1177	0.96
21	27	0.00012	0.03	16.5	2.4	1	23	1182	1204	1182	1204	0.97
22	27	0.00059	0.14	14.3	0.5	1	20	1210	1229	1210	1231	0.94
23	27	5.5e-06	0.0013	20.8	1.8	2	23	1246	1267	1245	1267	0.97
24	27	2.6e-05	0.0063	18.6	3.7	1	23	1272	1294	1272	1294	0.98
25	27	1.7	4.1e+02	3.5	5.6	1	22	1300	1321	1300	1324	0.90
26	27	0.00018	0.044	16.0	2.7	2	23	1341	1362	1340	1362	0.97
27	27	2.2e-05	0.0053	18.9	1.2	1	21	1368	1388	1368	1389	0.97

Sequence Information

Coding Sequence: ATGCTTTATATTAATTTACAGGAAGAGTCGGAATATTTTAACCAGCGAGACTCATTTCCAACTAGAAACTCAACTGGATCAACTGTGAAGGAAGAACCACGCGTATCCGAGAACACGTCAATGGTTGATTTGAAAGATGCTGAAATCAACGAAAGCGAAAATTTTGAATCTAATCTAGATCATCCAAAGGGTAACATCGACATTTTATCGTGTATAGATCGTCGTCTACCGAGAATTGGTGCAGATAATACTGATTCTGACGATGAGGTACCCATTAGcttatttaaaaggaaattgGGTAAAAATGAGGATGAGGCCGATTCCCAAAGCAACTCTTTGTCTGAACCATGCTGCATTCCTTCTAACGTGAAGaaaaaaacaggTAAAACGAAAGCTAAAGGCAAAAATGTAATTAAGGAAGAAACTTTAGATCCTCAAAGTATTCGTGGTTCGGGAGGACAAATTGATAACAATGaaattcaTAGCGAGGAAATCACAATAAGAAATGAGAAGGTTGAGGAGGACTTCAAAGATTTTAACAAGGAAGGCTCTTTTCATTGCCAGCCAAATAAAAACTCAACTGGAACATCACTTTGTATTTTGGAAATTGTGAAGGAAGAACCACGCTTATCCGAAGGCACATCAATTGATGATTTAAAAGATGATGAAATTAACGCAAGTGGAAATTTTGAAGACAATCTTAATTACTTGGAAAGGAGCGTCGAGGAACCTGATGACATTAGTTTATTGAAAAGAAGATTGGCTAAAAATGAGGATGAAGCTGATTCTCAAAcaATTTCTTGCGAggaaacaacaacaagaaacaAGGCAATTGGGCATGGTTGCGAGATATGCggtaaaatatttagtacaaaatattacCTCAATGTTCATCTGGAACATCACAAGGGGATTACACACAAATGCGATCAGTGCGGCAAGGAATATAATAACAGTCTATCACTAAAAATCCATATGAAATGGCACGCTAATCCAAAACCGTATGCATGTGACAACTGTGGAAAGTTCTTTGCTTGGAAGAACAACTACACTAGGCATATGGACATTTGTAAACGTCCAGGTGAACCAAAGAAATTGAATACAACAAAAGTTGAATGCAAAATATGCGGTAAAAAATTCTGTTCCAAACAATATCTCAATTTTCACATGGAAAGTCACGCGGGGATTACACAAAAATGCGATCAATGCGACAAGGAATATCCAAACAGCCGTTCTCTACGCAGACACATGAAATGGCACGCAAATTCAAAATCTTTCAAGTGTGAAAAATGCGAAATAtgtgataaaaaatttaatactaaAGAATGCCTCGATCGACATATGCAAAATCACAAGGGGATTATACAAAAATGCGATCAATGCGACAAGGAATTTGAAAGTATATATAGTCTAAGCAGGCACATGAAATGGCACACTAATCTAAAACCGTTAAAGTGTGAAAAATGCGATCAGTGCGACAAGAAATTTGAAAGCATTCATACTCTACGCATTCACATGAAATTGCACACTAATCCTAATCTGTTTAAGTGTGAAAGCTGTGGGAAGTCGCTTTCTAGCAAATACAACTACATTAGCCATATGGACTTTTGTAAACGGCGAGGTAAACTACAACAATCGAATGACACAAAAGCTGAATGCGGCATATGCGGGAAAATTTTTAGAAGAAAAGATTACCTCAATTTACATATGAAAAAGCACAAGGGGATTACACAAAAATGCGATCAGTGCGACAAGGAATTTGAAAACATATATAGTCTACGCAGACACTTGAAATGGCACGCTAATCCAAAACCGTTTAAGTGTGAAAATTGTGGGAAGTTCTTTGCTTGGAAACGCAACTACGCTTGTCATATGAGAATTTGTAAACCTGTAGGTAATTCTTTCGAGGAAACACTTACAGTCGAGAAGCAAAGCTTGCACCCGGAAGGAAACAAAGATGTCGTGGTAACAGAAAAGTCTAAAGATTTTAACCAGGGCGTCTCATTTCTTTGTCAGCCAAGTAATCAGCAATTTAGTAATCTGGATATTGTGAAGGAAGAAGTAGGCATCTCCGAAAGCACATCAATTGCAGATTTGACAGATGCTGAAATCaacgaaactgaaaaatttcactttaagCTGGAACATCCGGAAGGGAAGATCGAGGAACTTGCTGAGGTTTTATCATGTACAGATCGTCGTGTAGCGAGCATTGATACCGGGCATAGTGATTCTGCGCATGAGGCACCCATTAGCttactgaaaaataaattgggTAAAAATGAAGATGAGATCGAtacccaaaataaaatattatttgaagCACTCTGCATTCCGTCTAACGTTAAAaaaaaaacgaGTGAAACAGAACCGGAAAGTGAAGTGAAGCAAGAAACTGTAGATCCTCAAAGTGTTGGCTTAAGTGGGTTAATTGATAACGGCAacaTTTCTTGCGAGGAAATCACAATAAGAAACGAGAAGATTGAGGAAGACTTCAAAGATTTTAACAAGGAAGACTCTTTTCATTGTCAGCCAAATAAAAACTCAACTGGATCATCACTTTATATTCTGGAAATTGTGAAGGAAGAGCCGCGCATATCCGAAGGTACATCAATTGTTGCTGTTAAACATGCTGAAATCGATGAAAGTGAAAAATTGGAATGTAATCTTAGTCATCCGGAAAGAAGCATCGAGGAACCTGATGACGTTTTATCATGTATAGATCATCGTCCAGGAAGCCCCGATACAGAGCATACCGATTCTAGTTTATTGAAAAATAGATTGGCTAAAAATGGGGATGAAGCTGATTCTCAAAgAAATTCTGGCGAGGAAATAACAATAAGAAATAAGACGGTTACGCATGGATGCGATATATGCGGTAAAAAACTTAATTCAAAACGTTACCTCAAAGTTCATCTGGAAACTCACAAGGGGATTAAACACAAATGCGATCAGTGCGGCAAAGAATTTACACATATCCATTATCTAAACAGGCACATGAAATGGCACACTAATCCAAACTATCAGAAATGCGAGATATGcggtaaaaaatttaatacaaaaCGTTACCTCCAAGTTCATCTGGAAAGTCATAAGGGGATTACACACAAATGCGATCAGTGCGGCAAGGAATTTACACATATCCATTATCTACGCAAGCACATGACATGGCACACTAATTCAAACTATGAAAAATGCGAGATATGcggtaaaaaatttaattcaaaacgtTACCTCAAATTTCATCTGGAAAGTCACAAGGGGATTACCCACAAATGCGATCAGTGCGACAAGGAATTTGAAAACATCTCTAGTTTACGCAGACACTTGAAATGGCACGCTAATCCAAAACCGTTTAAGTGTGAAAACTGTGGAAGGTCGTTTGCTGATAAAAACAGCTGCACTATGCATATGGAAACTTGTAAACGTCCAGGTGAACCGCAGCAATTGAATAAAACGAAAGTTGAATGCGGGATATGCGGTAAAAAAATTAGTTCAAAACGTTACCTCAAAGTTCATATGGAACATCACAAGGGGATTATACATAAATGCGATCAGTGCGGCAAGGAATATAATAACCGTCGATCTCTACGCATGCATATTGGAAGGCACGCTAATCCAAAACCGTATGCATGTGAAAAGTGTGGAAAGTTCTTTTCTTGGAAGAACAACTACACTAAGCATATGGACATTTGTAAACGTCCAGGTGAACCaaagaaattgaaaacaaaagttgAATGTGAAATATGCGGTAAAAAATTCtgttcaaaacgatatctcaaTTTGCACATGGAAAGTCACGCGGGAATTACACACAAATGCGATAAGTGCGGCAAGGAATTTAAAAGCATCTTTTCTCTACGCAGTCACATGAAATTACACACTGATCGGAAACTGTTTAAGTGTAAAAACTGTGGGGAGTCACTTTATTGTAAAAACAACTACGCTAAGCATATGGACATTTGTAAACATTCAGACAATATCTCAATATTCACAGAAAATCACGAGGGGATTACACAAAAATGCGATCAGTGCGGCAAGGAATACCACGACAGCCGTTCTCTACGCAGACACTTGAAATGGCACGCCAATCCAAAACCGTTTCAATGTGATAACTGTGGGAGGCGCTTTGCTATGAAAAAAAGCTACACTAGGCATATGAGACTTCGTAAACCTGCAGGTAACTCATTCAAGGAAACAGTAACAATCGAGAAGCCAAGCGAGTGA
Protein Sequence: MLYINLQEESEYFNQRDSFPTRNSTGSTVKEEPRVSENTSMVDLKDAEINESENFESNLDHPKGNIDILSCIDRRLPRIGADNTDSDDEVPISLFKRKLGKNEDEADSQSNSLSEPCCIPSNVKKKTGKTKAKGKNVIKEETLDPQSIRGSGGQIDNNEIHSEEITIRNEKVEEDFKDFNKEGSFHCQPNKNSTGTSLCILEIVKEEPRLSEGTSIDDLKDDEINASGNFEDNLNYLERSVEEPDDISLLKRRLAKNEDEADSQTISCEETTTRNKAIGHGCEICGKIFSTKYYLNVHLEHHKGITHKCDQCGKEYNNSLSLKIHMKWHANPKPYACDNCGKFFAWKNNYTRHMDICKRPGEPKKLNTTKVECKICGKKFCSKQYLNFHMESHAGITQKCDQCDKEYPNSRSLRRHMKWHANSKSFKCEKCEICDKKFNTKECLDRHMQNHKGIIQKCDQCDKEFESIYSLSRHMKWHTNLKPLKCEKCDQCDKKFESIHTLRIHMKLHTNPNLFKCESCGKSLSSKYNYISHMDFCKRRGKLQQSNDTKAECGICGKIFRRKDYLNLHMKKHKGITQKCDQCDKEFENIYSLRRHLKWHANPKPFKCENCGKFFAWKRNYACHMRICKPVGNSFEETLTVEKQSLHPEGNKDVVVTEKSKDFNQGVSFLCQPSNQQFSNLDIVKEEVGISESTSIADLTDAEINETEKFHFKLEHPEGKIEELAEVLSCTDRRVASIDTGHSDSAHEAPISLLKNKLGKNEDEIDTQNKILFEALCIPSNVKKKTSETEPESEVKQETVDPQSVGLSGLIDNGNISCEEITIRNEKIEEDFKDFNKEDSFHCQPNKNSTGSSLYILEIVKEEPRISEGTSIVAVKHAEIDESEKLECNLSHPERSIEEPDDVLSCIDHRPGSPDTEHTDSSLLKNRLAKNGDEADSQRNSGEEITIRNKTVTHGCDICGKKLNSKRYLKVHLETHKGIKHKCDQCGKEFTHIHYLNRHMKWHTNPNYQKCEICGKKFNTKRYLQVHLESHKGITHKCDQCGKEFTHIHYLRKHMTWHTNSNYEKCEICGKKFNSKRYLKFHLESHKGITHKCDQCDKEFENISSLRRHLKWHANPKPFKCENCGRSFADKNSCTMHMETCKRPGEPQQLNKTKVECGICGKKISSKRYLKVHMEHHKGIIHKCDQCGKEYNNRRSLRMHIGRHANPKPYACEKCGKFFSWKNNYTKHMDICKRPGEPKKLKTKVECEICGKKFCSKRYLNLHMESHAGITHKCDKCGKEFKSIFSLRSHMKLHTDRKLFKCKNCGESLYCKNNYAKHMDICKHSDNISIFTENHEGITQKCDQCGKEYHDSRSLRRHLKWHANPKPFQCDNCGRRFAMKKSYTRHMRLRKPAGNSFKETVTIEKPSE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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