Basic Information

Insect: Metallyticus violacea
Gene Symbol: ZNF236_1
Assembly: GCA_030762175.1
Location: CM060841.1:56268691-56389517[-]

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 28 0.16 19 7.7 7.7 1 21 217 237 217 239 0.95

2 28 0.0088 1.1 11.7 0.3 1 23 245 267 245 267 0.95

3 28 4.3e-05 0.0053 18.9 1.0 3 23 274 294 273 294 0.97

4 28 0.06 7.3 9.0 0.2 3 23 302 322 300 322 0.95

5 28 0.00016 0.02 17.1 2.0 2 23 333 354 333 354 0.97

6 28 0.00026 0.032 16.4 7.6 1 23 377 399 377 399 0.98

7 28 2.8e-05 0.0034 19.5 3.0 1 23 405 427 405 427 0.98

8 28 0.0002 0.024 16.8 0.2 1 23 433 456 433 456 0.96

9 28 0.00025 0.03 16.5 1.4 1 23 466 489 466 489 0.97

10 28 2.1e-06 0.00025 23.1 2.1 1 23 626 648 626 648 0.98

11 28 6.5e-06 0.00079 21.5 3.6 1 23 654 676 654 676 0.99

12 28 0.0001 0.012 17.7 1.7 1 23 682 704 682 704 0.97

13 28 5.8e-05 0.0071 18.5 3.9 1 23 710 732 710 732 0.98

14 28 1.2e-05 0.0015 20.6 3.0 1 23 796 818 796 818 0.99

15 28 9.9e-06 0.0012 20.9 0.7 1 23 824 846 824 846 0.99

16 28 3.3e-05 0.004 19.3 0.6 1 23 852 874 852 874 0.98

17 28 0.00021 0.025 16.8 8.2 1 23 880 902 880 902 0.98

18 28 0.00062 0.075 15.3 7.0 1 23 1216 1238 1216 1238 0.98

19 28 0.0016 0.19 14.0 2.4 2 23 1244 1265 1243 1265 0.97

20 28 0.00011 0.013 17.7 1.3 1 23 1271 1293 1271 1293 0.96

21 28 0.0075 0.91 11.9 4.3 2 23 1300 1321 1299 1321 0.97

22 28 2.2e-07 2.7e-05 26.1 0.7 2 23 1402 1423 1401 1423 0.98

23 28 0.024 2.9 10.3 7.8 1 23 1429 1451 1429 1451 0.98

24 28 2.8e-05 0.0033 19.5 3.9 1 23 1457 1479 1457 1479 0.98

25 28 7.3e-05 0.0088 18.2 2.1 1 23 1485 1507 1485 1507 0.99

26 28 4.5e-06 0.00054 22.0 1.6 1 23 1783 1805 1783 1805 0.96

27 28 6.1e-05 0.0074 18.5 1.6 1 23 1811 1833 1811 1833 0.98

28 28 7.5e-06 0.00091 21.3 2.0 1 23 1839 1862 1839 1862 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	28	0.16	19	7.7	7.7	1	21	217	237	217	239	0.95
2	28	0.0088	1.1	11.7	0.3	1	23	245	267	245	267	0.95
3	28	4.3e-05	0.0053	18.9	1.0	3	23	274	294	273	294	0.97
4	28	0.06	7.3	9.0	0.2	3	23	302	322	300	322	0.95
5	28	0.00016	0.02	17.1	2.0	2	23	333	354	333	354	0.97
6	28	0.00026	0.032	16.4	7.6	1	23	377	399	377	399	0.98
7	28	2.8e-05	0.0034	19.5	3.0	1	23	405	427	405	427	0.98
8	28	0.0002	0.024	16.8	0.2	1	23	433	456	433	456	0.96
9	28	0.00025	0.03	16.5	1.4	1	23	466	489	466	489	0.97
10	28	2.1e-06	0.00025	23.1	2.1	1	23	626	648	626	648	0.98
11	28	6.5e-06	0.00079	21.5	3.6	1	23	654	676	654	676	0.99
12	28	0.0001	0.012	17.7	1.7	1	23	682	704	682	704	0.97
13	28	5.8e-05	0.0071	18.5	3.9	1	23	710	732	710	732	0.98
14	28	1.2e-05	0.0015	20.6	3.0	1	23	796	818	796	818	0.99
15	28	9.9e-06	0.0012	20.9	0.7	1	23	824	846	824	846	0.99
16	28	3.3e-05	0.004	19.3	0.6	1	23	852	874	852	874	0.98
17	28	0.00021	0.025	16.8	8.2	1	23	880	902	880	902	0.98
18	28	0.00062	0.075	15.3	7.0	1	23	1216	1238	1216	1238	0.98
19	28	0.0016	0.19	14.0	2.4	2	23	1244	1265	1243	1265	0.97
20	28	0.00011	0.013	17.7	1.3	1	23	1271	1293	1271	1293	0.96
21	28	0.0075	0.91	11.9	4.3	2	23	1300	1321	1299	1321	0.97
22	28	2.2e-07	2.7e-05	26.1	0.7	2	23	1402	1423	1401	1423	0.98
23	28	0.024	2.9	10.3	7.8	1	23	1429	1451	1429	1451	0.98
24	28	2.8e-05	0.0033	19.5	3.9	1	23	1457	1479	1457	1479	0.98
25	28	7.3e-05	0.0088	18.2	2.1	1	23	1485	1507	1485	1507	0.99
26	28	4.5e-06	0.00054	22.0	1.6	1	23	1783	1805	1783	1805	0.96
27	28	6.1e-05	0.0074	18.5	1.6	1	23	1811	1833	1811	1833	0.98
28	28	7.5e-06	0.00091	21.3	2.0	1	23	1839	1862	1839	1862	0.97

Sequence Information

Coding Sequence: ATGGATGGTACGGTTGCCACTAAAATCACAATGTCGGACACACAAGTCGTTTCCTTGGCATCAGATGCAGTTCTGGGCAGCACCAGCTTTGTGTTCTCTGATGGTAGCAGCATGCTTACCACTTCAgAAGCTAATTTGGATGATGGTGGAACAGCATATGTCACATTGCCATTACACTTACTACAAGATGGCTCAACTGTTGAAGCTGGTTCGGAGCTACATAATATCATCCTTAAAAACCTTGCAAGCCAAACATTTTTACTCGATGCTAGTCAGCTGACCCTTTTACCAGGAAATTCTAGTCACCAGGTGATCTTAGGTTCTGAGGATTATAGTACTGCTGCAGAACGAGAGGTCACACTCAGTATACAGAATGCTGAAAATGAAATTCCAAGCATTGGGCTGGATATAGCAGCTATTGACCTTCCTGGTTTGGATGGAAGTGGAGATGTTCTAGTAGATGAGATAGTTACAGAAGATGGCATTGATCCTCCAAAGCCACGCATCACATTTAATTTGGTCGCTGCGCTTACATCTGCAAGTGAAGAGAGACAGCCTTCAATGCCAGTTGCAAAACCAGCAAAGAGGGGCCCAGGACGACCACGTAGAGAGGATGCTGAGGTAGACCCACCCATTGGGAAGGGGCCTTTTAAGTGTGATATCTGCGGCAAGGAGTTTACAAAATGGTTGCACTGTAAGAGGCACATAAAATGCCATTCGGAGGATAAACCATTTCTTTGTAACCAGTGTACAGCTTCGTTTAATGTGGAGTCAAACCTTATACTTCATAAAGCTACTCATAATCTTGATAGTCCTCATTGTCCAGAGTGCAACAAAAAATTCTCCCGCATTGCAAGTCTGAAAGCACATATCATGTTGCATGAGAAGGAAGAGAGTCTCTTCTGTTCAGAGTGTGGAGATGAATTTAGCACAATGGCCCAGCTGGAAGAACATAAGAAAGAACATCAAGATGAATGGGTGAAACCAGCTCCACCACAATGTAGACAATGTAAATATCAGTTTTCAAGGGCCTCTCAACTGCGTGAACATATGAAGGAACATTATAAGGTTAAAGCATCGTTATCTCACAAAAGTCATAAACGTAATATAGATCGTAGTTCATTTATCCACAAATGTGATATTTGCCATAAGTGTTTCCAGAAGCCCAGTCAACTAGTTCGTCATAAGCGTATTCATACAGGGGAGCGCCCATTCAAGTGTCACTTATGTTCAAGAGCATTTAACCAAAAAGGTTCTCTACAAATTCACATGTCCAAACACAATGGAATTAAACCCTTTCGCTGTGAATTCTGTGCAGCATCTTTTAGTCAAAAAGGAAATCTTCGTGCTCACATTGTTCGTGTACATACCATTCCTAGCTCTGGAGAGCAAGtgtataaatgtatggaatgtcCATGTGTGTTCAAGAAGCTTGGAAGCCTTAATGCCCACATGAGCAGAATGCATTGTGGGGAAAATTCACAGAAGacTATCACCACAGATAACTATGAACACTCAGAAGCAGTTAATGTCCGGGCAGTACTTTCTCAATTAGCAGAACTTGAAGCAGAAATGGaaggaggaaaagaaaaggagaagaCTCCAGAACATCAGAATGATGCTGATATACTCCAGCAAGCATTAGTAAACAGTGGGCTCTCTGGAAAAGATCCTACAAATCTATCAGGAATTACATCAGATTTAGATGTCATAGAAAAAagggaaatgaaaggaaatggaatAATGGACAGTTCACACAGTCAGCAACAAAAAGATAATAGCATAACAAGCTTTATTACACTTGCAGACCGAAGTCTTGATGGAACAGTCAGACGCTACATTATTCGGCAGAGGAGAGTAGGAACTGTCCGTTGGCATCAGTGTTCCTATTGCAGCAAAGAATTTAAGAAACCTTCAGATCTAGTCAGACATATTCGAATTCACACCCATGAACGTCCATTTAAAtgCACCCATTGCTTCAGATCCTTTGCTGTAAAATCAACGCTCACTGCTCACATACGTACTCATACTGGAGTTAGGGATCATGTGTGCTATATCTGCATGAAGAAATTCTCATCTGCAAGTAGCCTTAAAGTTCACATTAGGATGCATACAGGTTCAAAGCCATTTTCATGCCAATACTGTGACAAGTCATTCCGCACCACAGGCCATCAGAAAGCACATATGATGTCTCATACAAAAGAAGGCAGTGCTGAGGAAAGAGCAGCAAGAAGGAAGCAGGCAAGACAGAAGAGCGACATTCCTCATCTTCCAGATGTCCCACTTCAAGAGCCTATTTTAATCACAAATAATGGCCTAGTTCAGACTGTGTCACGCAGTACAAGTGTTTTTCTACCAGGAGACTCTGTTAGTGCAGACCGACCTTACAAATGTACTGTTTGCAATGGAGCATTTCGCAAATCCAGTCATCTGAAGCAGCACATTCGTATGCACACAGGAGAGCGACCTTATAAATGTACACTTTGTGAGAGGCGGTTTATATCAAATGGTGTTCTGAAAGCACATATGCGAACCCATGAAGGAGTAAAATCATACAAGTGCCCGGAGTGCAGTAACTTATTTTCTACCAATGGGAGCCTGAAACGCCACATGGGCACTCATAGTGATATAAGACCTTTCATGTGCCCTTACTgtcacaaaacttttaaaacatcagTCAACTGTCGCAAGCACATGAAAACGCACAAACATGAATTGGCTCTTCAGGTTGCCCAACAGGCTGCCAAGGAGAATAACAGCATAGCAACACCAGCTGTGGTTACAGAAAGTGCAGCTTTTCCCCCAGAGGGTCTGGGACCAGATTTTACTCATGCATTTTCAGACCAGCCATTCCAGGTAGCAACAAGCTCTGAGCAGCAGGATCAAGAAGAATCTGCTTTTGCCCAGAGCACTTTAGTTCACACTCTTGCTTCAAATGATCTCGGTGAAAGTGGTAATCCCACCACCAATCCAGGTGTCATTACCCATACACTACATGCGGATGCATCAGGGACCATCACTCTGCCAAGTTTATCTGGACAACATACCTTAACtcaggaaaatattagagaaatagAGCGAACCCTAAATGAACAGATCTTTGGTGCATCAGCAACTGCAGCAGCAGATTTTGTTGATGTAGCAGCAGCGGCAGCCTCGGATGAACTTGGAGCACCTGAAGGAGTTGAAGTGGGGGCAGAGAACAGTGAGACTGAATCTACAACAACAGAAGACTTGGCTCATACTTTAGGAACACCAGCATCACCACCCTCCCAGCAGGAGCAGGAtcctaaagaaaaaattcctTCTAACCCACCAACTGCAAACAATGTGTTCAGCACAAGCTTTGAAACAACACCTTTTGAATCTTGTGTGTTTTCTACCATAACCTTACAGGCTGATCCATTAGAACTAGATGCCTTGGGACCTGGTGCCACAATAACAACAAACATGGCCAGCATTCTGCCTCCACCTGATGATCCAACAGAGGAACCAGATCCTATTCCTGAGCATGAACAGCCTAGCACAAATGTAGTGGAGGGACCTATAGCAGCTGCAGCAGTTGCAGGAGATACTGAAGAGAGTGACAAAACCTATGTGCCAGGAAAGCCTTTTAATGCTGATGCTCCACCTGGTGAAAGACCGCACAAATGTAAACAATGTAATCGAGCATTTAAGAAGTTGTATCATCTAAAGGAACATGTAAGAAGTCATATTGGAAAGAGCCTAAGTTGTAATTTATgcgaaagaaaatgcacaacatatacTGCTCTTAGGgcTCATATCAAAACACATAATGGCACTAAAGATTTTGCTTGTGAAGCTTGTGGTTGTCGGTTTACTACAAATGGATCTCTCAAACGACACttgaacattcacagtgaagaaAGGCCTCTCAAATGTTGCATTTGTAATGCCATGTTTCGAACAGATCATCTTCTACGACGACACATAAAATTGCATGAACCTCGAGAAAGAAAAGGTAAGCTAGTAGCAACAAATCCTGTACCAGCAAGGGGACGTCGACGTGCTGCTTTTATTCAACTTACTGCAGAAGAAACTCAAGTATTAGCACAACAGCCTCTTGATAATGCTGCAACTGTCTCGGAAAAAGTACTTATAGCATCTGCTGCAGAAAAGGATCGCATCAGTGAAGTAAAGGATCCAGATGCTCGGTACAATATGGAGCCCTTACATCCAAATCAATGCAAGTATTGTCCAAAGAGCTTTCGTAAGCCATCAGACTTGGTTCGACATATTCGTATTCATACAGGAGAACGCCCTTATAAATGCTCTTGCTGCAATAAGTGCTTCACCGTCAAATCAACCTTGGATAGCCATCTCAAGACACACGAGAAACAGAAACTATATACTTGCCATGTATGTGGCTGTCTTTTCTCCACCAAAGGTAGCCTAAAGGTGCACATGCGACTTCATACAGGTGCAAAGCCTTTCAAATGTCCTGTGTGTGAGATGCGATTCAGAACATCAGGACACAGAAAGGCTCATATGATGTCACATATGAAACAGGCTGCTGCAGGAGAAAACAGAGCAATGCATTTGGTTCGTGGTTCTCGACGCAGCAAACGATTGCAGTTGATGCAAGCTAATGCAGTACAGGAACAGCAAGATCAACAACAGCAGCAGGAGCAGCCAGAGAACAATAATAGTGCTTCAGAACAACTCATATCACACATAACAATAGACCAAGCTACTTTCAACAGTCTTGTGCAGCCTGCATCTGCAGCAGAAGGTGAAGCATTCAACTCTGCATTGCTCACAACTGCTAGCACCACCAACAGCACCATGACCATGTCTAGTCCAGATGGTCAAATTGTGGGCAACTTCCAGTTGCAGCTGGGTGATGGCTTGCAGATTGCAGGTGTTGACTCTTCAGGAAATCTTCAGCTGGCTGCTACTGCCCAGACACTACAGCTAGATGATGCATTATTACAACAGTTCCAGGCATCAAACATTATCATCCAGGCAGCAACTTCAGAAGATACCCTACAGCCAGGTCAAGGGCAAGTGATAACAGAAGAACCTCAGGCTCCAGATGGTGAGATGACAGCAGTACATTTTGAAATCCATACTGATGAACAAGGGCAAATAATAGGCATGACACCATTGCCTGAGGATGATCCAACACAAACAGAAGAAATAACATTTGATCTTACGGGTGGATTGGACATGGAAGTCACTGAATGTGACCCACCACAAAGACTGCAGTCAAGGTTTCGTGTCACAGACAGCAGGAAAGGGGGTCCAACATTAGTGGCAGTTCAGAGTGCTCagtcacaaaaagaaaaagagagtgATGATGTGGAAGAGGAATTTTTGGTGTCTCACGATTGCACAATATGTGGTAAACAGTTCTCCAAGCCTAGTCAGTTGGAGAGGCACAATCGAATACATACAGGTGAGCGTCCATATGCCTGTTCTGTGTGTTCTAAGACATTTAATCAAAAGAACACTCTCAACACACATGTGAAGAGCCATACAGGAGAACGACCTTTCCCCTGCCCTCACTGTTCCTATTCATCCACTCAGAAAGGCAACTTAAAGACACACATGCGACGTGCTCATCAGTTTAGCGCTCTAGAGTTAGGTGGATCTTCTAATACTTCTACTGCACgttcacttttaaaatacaaacagcagcagcaacaagcAGTACTTGTTAGCACAGCAGATACTTCAGGAAAGTCTCTTGATCTAGAGAAAGTAGTTGGTGATCTTTTTCCACAAATGAGAAACACAACATCTGCTGATCCCTAG
Protein Sequence: MDGTVATKITMSDTQVVSLASDAVLGSTSFVFSDGSSMLTTSEANLDDGGTAYVTLPLHLLQDGSTVEAGSELHNIILKNLASQTFLLDASQLTLLPGNSSHQVILGSEDYSTAAEREVTLSIQNAENEIPSIGLDIAAIDLPGLDGSGDVLVDEIVTEDGIDPPKPRITFNLVAALTSASEERQPSMPVAKPAKRGPGRPRREDAEVDPPIGKGPFKCDICGKEFTKWLHCKRHIKCHSEDKPFLCNQCTASFNVESNLILHKATHNLDSPHCPECNKKFSRIASLKAHIMLHEKEESLFCSECGDEFSTMAQLEEHKKEHQDEWVKPAPPQCRQCKYQFSRASQLREHMKEHYKVKASLSHKSHKRNIDRSSFIHKCDICHKCFQKPSQLVRHKRIHTGERPFKCHLCSRAFNQKGSLQIHMSKHNGIKPFRCEFCAASFSQKGNLRAHIVRVHTIPSSGEQVYKCMECPCVFKKLGSLNAHMSRMHCGENSQKTITTDNYEHSEAVNVRAVLSQLAELEAEMEGGKEKEKTPEHQNDADILQQALVNSGLSGKDPTNLSGITSDLDVIEKREMKGNGIMDSSHSQQQKDNSITSFITLADRSLDGTVRRYIIRQRRVGTVRWHQCSYCSKEFKKPSDLVRHIRIHTHERPFKCTHCFRSFAVKSTLTAHIRTHTGVRDHVCYICMKKFSSASSLKVHIRMHTGSKPFSCQYCDKSFRTTGHQKAHMMSHTKEGSAEERAARRKQARQKSDIPHLPDVPLQEPILITNNGLVQTVSRSTSVFLPGDSVSADRPYKCTVCNGAFRKSSHLKQHIRMHTGERPYKCTLCERRFISNGVLKAHMRTHEGVKSYKCPECSNLFSTNGSLKRHMGTHSDIRPFMCPYCHKTFKTSVNCRKHMKTHKHELALQVAQQAAKENNSIATPAVVTESAAFPPEGLGPDFTHAFSDQPFQVATSSEQQDQEESAFAQSTLVHTLASNDLGESGNPTTNPGVITHTLHADASGTITLPSLSGQHTLTQENIREIERTLNEQIFGASATAAADFVDVAAAAASDELGAPEGVEVGAENSETESTTTEDLAHTLGTPASPPSQQEQDPKEKIPSNPPTANNVFSTSFETTPFESCVFSTITLQADPLELDALGPGATITTNMASILPPPDDPTEEPDPIPEHEQPSTNVVEGPIAAAAVAGDTEESDKTYVPGKPFNADAPPGERPHKCKQCNRAFKKLYHLKEHVRSHIGKSLSCNLCERKCTTYTALRAHIKTHNGTKDFACEACGCRFTTNGSLKRHLNIHSEERPLKCCICNAMFRTDHLLRRHIKLHEPRERKGKLVATNPVPARGRRRAAFIQLTAEETQVLAQQPLDNAATVSEKVLIASAAEKDRISEVKDPDARYNMEPLHPNQCKYCPKSFRKPSDLVRHIRIHTGERPYKCSCCNKCFTVKSTLDSHLKTHEKQKLYTCHVCGCLFSTKGSLKVHMRLHTGAKPFKCPVCEMRFRTSGHRKAHMMSHMKQAAAGENRAMHLVRGSRRSKRLQLMQANAVQEQQDQQQQQEQPENNNSASEQLISHITIDQATFNSLVQPASAAEGEAFNSALLTTASTTNSTMTMSSPDGQIVGNFQLQLGDGLQIAGVDSSGNLQLAATAQTLQLDDALLQQFQASNIIIQAATSEDTLQPGQGQVITEEPQAPDGEMTAVHFEIHTDEQGQIIGMTPLPEDDPTQTEEITFDLTGGLDMEVTECDPPQRLQSRFRVTDSRKGGPTLVAVQSAQSQKEKESDDVEEEFLVSHDCTICGKQFSKPSQLERHNRIHTGERPYACSVCSKTFNQKNTLNTHVKSHTGERPFPCPHCSYSSTQKGNLKTHMRRAHQFSALELGGSSNTSTARSLLKYKQQQQQAVLVSTADTSGKSLDLEKVVGDLFPQMRNTTSADP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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