Basic Information

Insect: Gryllus bimaculatus
Gene Symbol: ZNF236
Assembly: GCA_017312745.1
Location: Scaffold95:1451218-1479791[-]

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 1.3e-05 0.00075 20.4 2.9 1 23 221 243 221 243 0.97

2 28 0.00021 0.012 16.6 0.3 1 23 249 271 249 271 0.98

3 28 1.6e-05 0.00095 20.1 0.4 2 23 277 298 277 298 0.96

4 28 0.018 1.1 10.5 0.0 3 23 306 326 304 326 0.95

5 28 0.0042 0.25 12.5 6.5 1 23 339 361 339 361 0.98

6 28 0.0016 0.093 13.9 5.2 1 23 384 406 384 406 0.98

7 28 1.6e-05 0.00093 20.2 0.4 1 23 412 434 412 434 0.98

8 28 0.00016 0.0093 17.0 0.1 1 23 440 463 440 463 0.97

9 28 0.00023 0.014 16.5 2.4 1 23 473 496 473 496 0.97

10 28 4.7e-05 0.0028 18.7 2.2 1 23 658 680 658 680 0.98

11 28 2.4e-06 0.00014 22.7 2.4 1 23 686 708 686 708 0.99

12 28 1.7e-06 0.0001 23.2 0.4 1 23 714 736 714 736 0.98

13 28 0.0024 0.14 13.3 5.1 1 23 742 764 742 764 0.97

14 28 0.12 7.1 7.9 7.0 1 23 827 850 827 850 0.97

15 28 3.2e-06 0.00019 22.4 2.6 1 23 856 878 856 878 0.99

16 28 0.0096 0.57 11.4 2.2 1 23 884 906 884 906 0.96

17 28 0.00057 0.034 15.2 7.7 3 23 914 934 913 934 0.99

18 28 0.006 0.36 12.0 6.6 1 23 1348 1370 1348 1370 0.97

19 28 0.00076 0.045 14.9 2.2 1 23 1376 1398 1376 1398 0.97

20 28 1.3e-05 0.00077 20.4 0.5 3 23 1406 1426 1404 1426 0.97

21 28 0.0022 0.13 13.4 2.6 1 23 1432 1454 1432 1454 0.98

22 28 2.1e-07 1.2e-05 26.1 0.7 2 23 1535 1556 1534 1556 0.98

23 28 0.0076 0.45 11.7 7.7 1 23 1562 1584 1562 1584 0.98

24 28 0.00057 0.034 15.3 4.0 2 23 1591 1612 1590 1612 0.96

25 28 0.00053 0.031 15.4 1.9 1 23 1618 1640 1618 1640 0.98

26 28 6.7e-06 0.00039 21.3 2.0 1 23 1910 1932 1910 1932 0.96

27 28 0.00012 0.007 17.4 4.7 1 23 1938 1960 1938 1960 0.99

28 28 3.2e-07 1.9e-05 25.5 1.9 1 23 1966 1989 1966 1989 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	1.3e-05	0.00075	20.4	2.9	1	23	221	243	221	243	0.97
2	28	0.00021	0.012	16.6	0.3	1	23	249	271	249	271	0.98
3	28	1.6e-05	0.00095	20.1	0.4	2	23	277	298	277	298	0.96
4	28	0.018	1.1	10.5	0.0	3	23	306	326	304	326	0.95
5	28	0.0042	0.25	12.5	6.5	1	23	339	361	339	361	0.98
6	28	0.0016	0.093	13.9	5.2	1	23	384	406	384	406	0.98
7	28	1.6e-05	0.00093	20.2	0.4	1	23	412	434	412	434	0.98
8	28	0.00016	0.0093	17.0	0.1	1	23	440	463	440	463	0.97
9	28	0.00023	0.014	16.5	2.4	1	23	473	496	473	496	0.97
10	28	4.7e-05	0.0028	18.7	2.2	1	23	658	680	658	680	0.98
11	28	2.4e-06	0.00014	22.7	2.4	1	23	686	708	686	708	0.99
12	28	1.7e-06	0.0001	23.2	0.4	1	23	714	736	714	736	0.98
13	28	0.0024	0.14	13.3	5.1	1	23	742	764	742	764	0.97
14	28	0.12	7.1	7.9	7.0	1	23	827	850	827	850	0.97
15	28	3.2e-06	0.00019	22.4	2.6	1	23	856	878	856	878	0.99
16	28	0.0096	0.57	11.4	2.2	1	23	884	906	884	906	0.96
17	28	0.00057	0.034	15.2	7.7	3	23	914	934	913	934	0.99
18	28	0.006	0.36	12.0	6.6	1	23	1348	1370	1348	1370	0.97
19	28	0.00076	0.045	14.9	2.2	1	23	1376	1398	1376	1398	0.97
20	28	1.3e-05	0.00077	20.4	0.5	3	23	1406	1426	1404	1426	0.97
21	28	0.0022	0.13	13.4	2.6	1	23	1432	1454	1432	1454	0.98
22	28	2.1e-07	1.2e-05	26.1	0.7	2	23	1535	1556	1534	1556	0.98
23	28	0.0076	0.45	11.7	7.7	1	23	1562	1584	1562	1584	0.98
24	28	0.00057	0.034	15.3	4.0	2	23	1591	1612	1590	1612	0.96
25	28	0.00053	0.031	15.4	1.9	1	23	1618	1640	1618	1640	0.98
26	28	6.7e-06	0.00039	21.3	2.0	1	23	1910	1932	1910	1932	0.96
27	28	0.00012	0.007	17.4	4.7	1	23	1938	1960	1938	1960	0.99
28	28	3.2e-07	1.9e-05	25.5	1.9	1	23	1966	1989	1966	1989	0.97

Sequence Information

Coding Sequence: ATGGAAGGGCAAGCGTCAGGAGAAATTTCCACCAATCCTTCAGCGGTGACCCTCTCAAGCAATTCAATTTTAGAAAATACAGATCTTGTATTCTCAAGTGAAAGCACTTTGTTGAATCAATCAGACTCCAGGCTTGAAGATGGTACCACATATATCACATTACCACTGTATTCAATGATCAATAATTCTGTAAATGATGTAGGAGCAGTATCTCAAAACTTTTTACTGAAAACACTCACAGGAAATACAATTCTTCTTGATGCTAGTCAGTTGGCGTTGCTTACAGGAGGAACTAGTCAACTTGTGTTAAATGGAGCAGATCTCACTGATGAAGGAAATCCAATTATTCTTTCAGATGATTTATTGTCTAAAGATAAACTTGTTCCAAAGAACAGTATTCTTCCAGATATGGGCATAGGTATAGAAACAGTAGATTTAAGTGGTCTTACAAGTGGAGATGATGTTCTCTCAGTACATATGGACCAGACTTCTCATCTTCAAACCTCAGGAAATAGTAACACTCATTTATCGCTGAATTTAGCTAACACAATCTCGCCTCAATTCTCACAGTCATTAGTACCTGAGCCCAAGCAAAAAAGAGGTCCTGGGCGACCCAGGAGAGAAGAATTAGAAGTTGAACCTCCTATTGGGAAAGGCCCATACTGTTGTGAAGTATGTGGCAAAGAGTTTTCAAAATGGTCCCAAATGAAGAAGCATCTCAAACTGCATTCCGATGATAAACCATTTACATGTCCAGAATGCCCAGCGTCTTTCAATGTTGAGCATAATTTAACTCTTCATCTGGTCACACACAATACAGAAAATCCATCATGTCCAGAATGTAATAAAAAATTCTCTAGGATGGCAAGTTTAAAAGCCCATATAATGTTACATGAAAGAGAAGAAAGTCTTTTCTGTCCAGAATGTGGGGATGAATTCAGCACGCAGGCTCAGCTGGATATACATGCTAAAGAACACCAAGAAGACTGGACCAAAACACCTACTTCTAAACTCTATCAATGTAGACAGTGCCATCAACACTTCTCAAGAGCAACATTTCTTCGGGATCATATGAAAGAGCATTACAAGGTCAAAGCCTCATTATCACATAAAAGTCATAAAAGAAACATTGATCGAAGTACTTTCATTCACAAGTGTGATACGTGTGCCAAGTGTTTTCAAAAACCTAGCCAATTAGTTCGTCACAAGAGAATTCATACTGGTGAAAGACCATTCAAGTGTGCTTTATGTCCTCGGGCATTCAATCAAAAAGGCTCTCTTCAAATTCATATGTCTAAACACAATGGAATTAAGCCATTTCGTTGTGACTTCTGTGCTGCTGCATTTAGTCAAAAAGGTAACCTTCGGGCACACATTCTTAGGGTTCACACAATTCCTCATTCAGGTGAACAAGTTTACAAATGTTCTGAATGTACTTGTGTCTTTAAGAAACTTGGCAGTCTTAATGCACACATGAGTCGTATGCATTATGCTTCTGATGCTCACAAGGTGAATTCAGAAAATTTGGAAGAGCCAGAATTAATGAATGTGAATTTAGATATAAGTACAGGTGTGACAGGACCTACAGATTCTATAAAAATAGAAGATAAGACTGAAAAAATTACCTCACAAACTGATTCCGACATTTTGCAGCAAGCTCTGGTGAACAGTGGACTTTCTGGAAAAGATCAGTCTGTAAATTCAGATATTATGAAAGATTCATCCAGTATTTCAAGAAGCAACACAAGTAGTCTGCCAACTTTTAATTCAAATGCTGTTTCATCAAGTGCAATAGTGAGTGATATGCCCACATCCACTGTGCATCATCATCCACACTTTTCAACTGGCATTGTAAGGACAAAGCCTAGAAACTCATCTTCTACAACTTTTGTTGCTTTGGCTGAGAAAGCTTTGGATGGCTCAGTGCGGAGATATTATATTCGTCAGCGTCGTGTAGGCAACATCCGATGGCATCAGTGTTCATATTGCATTAAAGAATTCAAAAAACCATCAGATCTGGTACGCCACATCAGAACCCATACCCATGAAAGACCGTATAAGTGCACACATTGCTTCCGCTCCTTTGCTGTGAAATCAGCCCTCACTGCTCACATCAGAACACACACAGGAGTTAAAGATTATATTTGTGGTGTGTGCAGCAAGAAATTCTCATCTGCAAGCAGTTTGAAAGTACATATGAGGTTACATACAGGAACTAAACCCTTCGCTTGTCAACACTGCCCTAAAACATTTCGGACAACTGGTCACCGCAAGACTCACATTCTTTCTCACATTAGAGAATCTGAAGAAAATTCTGAAGCCAAGCGAAAAAATCGTGCTCCCAAGATTGACTTATCTACTCTGCCTCCAGTTACCCTTCAAGAACCAATTATTATTACTGAAAATGGATTAGTGCAGTCGCAAGCACCCCATAGCCAAATATATCTTCCTGGTGATACTATTAGCTCAGAAAGACCTCATAAATGCGGAGTGTGTTGTGCAGGATTCCGAAAATCTAGCCATTTAAAACAACACATGAAGCGTTTGCATACTGGAGAACGTCCATTCAAATGTGAGCAGTGTAATAAGTGTTTTATCTCAAATGGTGTCCTGAAAGCTCACATGAGAACTCATGAGGGGATTAAAATGCATATGTGCCCTGTGTGTAACAATCTTTTCTCAACTCATGGAAGTCTCAAGCGACATGCTGTTACACACAGTGAACAGAGGTCTGTGTTATGTCCTTATTGCCATAAAACATTTAAAACAAAAATCAATTGCCGCAAGCATATGAGAACTCATCGCCCGGAATTGGCTTTACAGTTTATATATAATGCATTTGGACATAAGTTCACAAGCAATAAAAGAATTTTGTTGCAAGAGAATGGAATTGAAAGAACCAGTGATAAAATGCAACAATTTGCTGCTCAGCAGCAAGAGAAAGTCAACAAAATAACTAATGGAACCACAGGATTAGAAATTAATGGTGCCTTTACTGCTACATTATCTGAAGAGTACACTCAGGCATTCACCAACCAAGCATTCACTCTTACTAATGCACAACAAGATCCCACAGAGGCAGATTTTGCTCAGAATGCTATTGTTCAGTCATTTACTACAGGAGATTTGGGTACGCAAGCAGATCTACAGGCCGTACAAGAAGTAATTACTCATACACTTCATGCTGATGCATCTGGCACCATCACGTTACCACTTGCAGAGCAACATACATTAACCCAGGAGAATATAACTGAAATTGAAAGGACATTAAATGAACAGATTTTTGGCCCCTCCGGAAATGCTCTTGTAGATGCTGGAGGAAACCCATCAACTTTGGCCATTACAACAGTGGGTTCCAGTAGTAATAATACAAATGCTGTTAATTGTGATGATCTAAATGGTGCAGCAGAAAATGTCATGCCTGCTGATGCAAGTGATATAGAGTCTAACACGACAGATGAATTGACTCACTCCCTAGCAGCAGCGGCTGCTGCTGCTTCTCCACAGACCCAGCAAAGTCTGGAATTTGTCCTTTGTGAGGAGAGCCCAATCAAACCAGCAAAGTCTGATGCATCTGGAATTTTTGGTGCATCGTTTGATACTCAGCCTTTTGACAATTGTGTTTTTTCTTCTGTTGCATTACAGAGTGACCTGAATCTTGATCCGTTAGCTGACAATACTGGTATTGCAAGTAATATAACGAACATTCTTCCACCGACTGATGGCACTGGTTCAGATCCCACACTAACAGAAACATTACAAGAAATTCAGAATGAATCTTTAGAGGAAGGTGCCACCATTAACATTTCTACCGGGGAAGTTTTACAAGGGCAGGAAATGATCAACGGAAGCAATCAGGATCTTTTGCAGGCAGCAGTGACCATGAATGGTGTAGGTGATGGGTCAGAACAATTACAGGAGGTCGGAGATGAGGAAAACGAAGACTTAGAAGAGGAGGATCAACAGCCCTTGGATCACGAAGATCAACCAGAACATCTCATGACAGGCCATAAAATGAGAGATGGATCTTGTAAGAGGCCTCATGTATGTGGGACTTGTAACCAGTCGTTCAAGAAAATGTCTCATTTAAAATCTCATTTCCGTTCCCATTCGGGTGAAAAGTTGTATGCTTGCAATATGTGCACTCAAAAATGTAGTTCTACAAGTGCCTTAAAGGCTCACATGAAATTGCACTCGGGAGAAAAAGAATATGGCTGCCCAGTTTGTGGGTGTCGGTTTGCTACCAACGGCACTTTGACGAGACATATGATGATTCATAGTGATAAAAGGCCTTTCAAATGTAGTTTATGTGCAGCTCAGTTTCGTACTGACACTCATTTACGCCGGCACATAAGACTTCACGAACCTCGTGAAAAGAAGGGTGAAGTAGTAGTGCGAAATACTGCTGAGCCACGACAAAGACGACGAGCTGCAGTTATTCAGTTGACACCAGAAGAAACTCAAGTTCTTGCCCAGCAATCCATAGATAGTGCATCGTCAGTCTCCGAGAAAGTTTTAATCTCTTCAGCAGCAGAAAAGGACAGAATAAGTGAATTGAAGGATCCTGAGGATCAATATAGAGATGAACCACTGTTTGCAAATCAGTGTAAATACTGCCCTAAGAGTTTCCGTAAGCCATCAGATTTGGTACGTCATATCCGCATTCACACTGGGGAAAGACCCTTCCAGTGTAGTTGCTGCAACAAGTGTTTTACTGTTAAATCCACATTAGATAGCCATATGAAAACCCACAGTGGCCAGAAACTATGCACTTGTCATGTGTGCAGCAGGCTCTTTGCCACCAAAGGCAGTTTGAAAGTGCATATGCGGCTTCACACAGGTGCCAAGCCATTCAAATGCCCAATGTGTGAAATGAGATTTCGGACATCTGGTCACCGCAAAGCTCATCTTATATCTCATATGAAAGAAGCTCAAAATTCCAAATCCAATTCTTCAAGCAGTTTAAAATCATCAAAGAAACGTAAATTGTTATCTGCAGAAACAAATCCGGCTTCCGCATCTGGAACTGAACCCCAACTTGATGTTAGTGATTCGCAACTGAATCCAATGACTCATATAACATTAGATCCTTCTGCTTTAGGAAATCTGCTTCCTCTTACTGCTGGATCTGATCCTCTTGGTTCTACTGCATTGTTATCAAACAATGCTGATGGCAGTACTGTTGTAAATAACTTACAGTTCCAATTGACAGATGGCTTTCAGATCACTGGCATTGATTCATCTGGAGCATTACTAACTCAATCTCTACAGTTGGATGAAAATCTTCTCCAACAACTGCAGCAAACATCTAATATAATAATTCAAACATCCTTGCCTGGTGTTATTTCGGATGATGCAGCAGAAAGTGTTGAAAACACTAATGTAACTCAACAGGCTGTAAACGCTTTGAGTGGAAGTATGCCATCAGTTCAGTATGAAGTTCATACAGATGAAACTGGTCAGATAATCAATATTCAACCTGCGAGTGATAATATCAATGCAGGAAATGTGATCTTTAATGTTGGTAATGTTGGCAGTGATTTGGGTTTGCAAGTCTTAGACAATTCGGATTCCACTTTAACTCTTTCTGATCAACCCTTACCTTCTAGATATCGGGTAACAGATAGTCTTAAAGGTGGAAGAACTTTGACCGCTGTGAGTGAAAGCCTAGATAAGAAAGACGCTCCTGAAGATCCGTTGGATGCTGATGATGACTTTCTTGTTTTCCACGACTGTGAAACATGTGGCAAAAGATTTTCTAAACCCAGCCAGTTGGAACGGCATAATCGTATTCATACTGGAGAACGACCATTCCAGTGTCATTTATGTTATAAACGCTTCAACCAGAAAAACGCCTTAAATACTCACATTAAGAGCCATACAGGGGAAAGGCCCTTTGCATGTCCACACTGCGATTACTCTTTCACCCAAAAAGGAAATTTGAAGACTCATCTACGACGTGCTCATAGATTCAGTTCATTAGAATTTATCAAGACTACAAATTCTCCTTCCAAGTCAGTATTGAAGATAAAGCAACCTACTCTTACAGTTTGTAATACTGAAATAGGAAATTCATTAGAGCAAGTTGTTTGTGACCTCTTTCCTTAA
Protein Sequence: MEGQASGEISTNPSAVTLSSNSILENTDLVFSSESTLLNQSDSRLEDGTTYITLPLYSMINNSVNDVGAVSQNFLLKTLTGNTILLDASQLALLTGGTSQLVLNGADLTDEGNPIILSDDLLSKDKLVPKNSILPDMGIGIETVDLSGLTSGDDVLSVHMDQTSHLQTSGNSNTHLSLNLANTISPQFSQSLVPEPKQKRGPGRPRREELEVEPPIGKGPYCCEVCGKEFSKWSQMKKHLKLHSDDKPFTCPECPASFNVEHNLTLHLVTHNTENPSCPECNKKFSRMASLKAHIMLHEREESLFCPECGDEFSTQAQLDIHAKEHQEDWTKTPTSKLYQCRQCHQHFSRATFLRDHMKEHYKVKASLSHKSHKRNIDRSTFIHKCDTCAKCFQKPSQLVRHKRIHTGERPFKCALCPRAFNQKGSLQIHMSKHNGIKPFRCDFCAAAFSQKGNLRAHILRVHTIPHSGEQVYKCSECTCVFKKLGSLNAHMSRMHYASDAHKVNSENLEEPELMNVNLDISTGVTGPTDSIKIEDKTEKITSQTDSDILQQALVNSGLSGKDQSVNSDIMKDSSSISRSNTSSLPTFNSNAVSSSAIVSDMPTSTVHHHPHFSTGIVRTKPRNSSSTTFVALAEKALDGSVRRYYIRQRRVGNIRWHQCSYCIKEFKKPSDLVRHIRTHTHERPYKCTHCFRSFAVKSALTAHIRTHTGVKDYICGVCSKKFSSASSLKVHMRLHTGTKPFACQHCPKTFRTTGHRKTHILSHIRESEENSEAKRKNRAPKIDLSTLPPVTLQEPIIITENGLVQSQAPHSQIYLPGDTISSERPHKCGVCCAGFRKSSHLKQHMKRLHTGERPFKCEQCNKCFISNGVLKAHMRTHEGIKMHMCPVCNNLFSTHGSLKRHAVTHSEQRSVLCPYCHKTFKTKINCRKHMRTHRPELALQFIYNAFGHKFTSNKRILLQENGIERTSDKMQQFAAQQQEKVNKITNGTTGLEINGAFTATLSEEYTQAFTNQAFTLTNAQQDPTEADFAQNAIVQSFTTGDLGTQADLQAVQEVITHTLHADASGTITLPLAEQHTLTQENITEIERTLNEQIFGPSGNALVDAGGNPSTLAITTVGSSSNNTNAVNCDDLNGAAENVMPADASDIESNTTDELTHSLAAAAAAASPQTQQSLEFVLCEESPIKPAKSDASGIFGASFDTQPFDNCVFSSVALQSDLNLDPLADNTGIASNITNILPPTDGTGSDPTLTETLQEIQNESLEEGATINISTGEVLQGQEMINGSNQDLLQAAVTMNGVGDGSEQLQEVGDEENEDLEEEDQQPLDHEDQPEHLMTGHKMRDGSCKRPHVCGTCNQSFKKMSHLKSHFRSHSGEKLYACNMCTQKCSSTSALKAHMKLHSGEKEYGCPVCGCRFATNGTLTRHMMIHSDKRPFKCSLCAAQFRTDTHLRRHIRLHEPREKKGEVVVRNTAEPRQRRRAAVIQLTPEETQVLAQQSIDSASSVSEKVLISSAAEKDRISELKDPEDQYRDEPLFANQCKYCPKSFRKPSDLVRHIRIHTGERPFQCSCCNKCFTVKSTLDSHMKTHSGQKLCTCHVCSRLFATKGSLKVHMRLHTGAKPFKCPMCEMRFRTSGHRKAHLISHMKEAQNSKSNSSSSLKSSKKRKLLSAETNPASASGTEPQLDVSDSQLNPMTHITLDPSALGNLLPLTAGSDPLGSTALLSNNADGSTVVNNLQFQLTDGFQITGIDSSGALLTQSLQLDENLLQQLQQTSNIIIQTSLPGVISDDAAESVENTNVTQQAVNALSGSMPSVQYEVHTDETGQIINIQPASDNINAGNVIFNVGNVGSDLGLQVLDNSDSTLTLSDQPLPSRYRVTDSLKGGRTLTAVSESLDKKDAPEDPLDADDDFLVFHDCETCGKRFSKPSQLERHNRIHTGERPFQCHLCYKRFNQKNALNTHIKSHTGERPFACPHCDYSFTQKGNLKTHLRRAHRFSSLEFIKTTNSPSKSVLKIKQPTLTVCNTEIGNSLEQVVCDLFP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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