Basic Information

Insect: Nineta flava
Gene Symbol: ken
Assembly: GCA_963920215.1
Location: OY986040.1:141801832-141819089[+]

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 36 1.8 68 4.8 0.4 2 19 151 168 150 168 0.97

2 36 0.076 2.8 9.1 0.7 1 23 197 220 197 220 0.96

3 36 5.8e-05 0.0021 18.9 5.6 1 23 225 247 225 247 0.98

4 36 0.00072 0.027 15.5 1.4 2 23 430 451 429 451 0.97

5 36 2.4e-06 8.8e-05 23.3 0.5 1 23 457 479 457 479 0.96

6 36 7.6e-05 0.0028 18.5 4.5 1 23 485 507 485 507 0.98

7 36 6.7 2.5e+02 3.0 0.1 1 23 513 536 513 536 0.93

8 36 0.00018 0.0068 17.4 4.7 1 23 541 563 541 563 0.98

9 36 9.4e-06 0.00035 21.4 1.5 2 23 575 596 574 596 0.96

10 36 0.33 12 7.1 0.3 1 11 602 612 602 617 0.88

11 36 7.5 2.8e+02 2.8 2.3 1 23 754 777 754 777 0.85

12 36 1.3 50 5.2 0.2 2 19 783 800 782 800 0.97

13 36 0.038 1.4 10.1 2.0 2 23 829 850 829 850 0.95

14 36 1.8e-05 0.00066 20.5 1.6 3 23 858 878 856 878 0.96

15 36 9.7e-05 0.0036 18.2 2.7 1 23 884 906 884 906 0.98

16 36 0.35 13 7.0 0.1 1 23 912 935 912 935 0.94

17 36 0.0007 0.026 15.5 6.3 1 23 940 962 940 962 0.98

18 36 0.78 29 5.9 0.6 2 19 1125 1142 1124 1142 0.97

19 36 5.9 2.2e+02 3.2 4.0 9 23 1151 1165 1150 1165 0.95

20 36 0.13 4.7 8.4 0.8 1 23 1171 1194 1171 1194 0.96

21 36 0.0022 0.082 13.9 8.0 1 23 1199 1221 1199 1221 0.98

22 36 0.016 0.59 11.2 0.7 1 23 1395 1418 1395 1418 0.92

23 36 2.6 95 4.3 0.3 2 19 1424 1441 1423 1441 0.97

24 36 0.54 20 6.4 1.1 9 23 1450 1464 1449 1464 0.95

25 36 0.19 7.1 7.8 0.4 1 23 1470 1493 1470 1493 0.96

26 36 0.01 0.38 11.9 8.2 1 23 1498 1520 1498 1520 0.96

27 36 0.0035 0.13 13.3 1.8 1 23 1581 1603 1581 1603 0.98

28 36 4.1e-07 1.5e-05 25.7 1.8 1 23 1609 1631 1609 1631 0.99

29 36 1.5e-06 5.5e-05 23.9 2.4 1 23 1637 1659 1637 1659 0.99

30 36 1e-06 3.8e-05 24.4 3.2 1 23 1665 1687 1665 1687 0.99

31 36 6.9e-05 0.0026 18.7 2.6 1 23 1693 1715 1693 1715 0.99

32 36 1.6e-05 0.00059 20.7 1.5 1 23 1721 1743 1721 1743 0.99

33 36 3.9e-06 0.00014 22.6 1.1 1 23 1749 1771 1749 1771 0.99

34 36 4.3e-05 0.0016 19.3 4.4 1 23 1777 1799 1777 1799 0.99

35 36 3.5e-05 0.0013 19.6 2.0 1 23 1805 1827 1805 1827 0.99

36 36 1.1e-06 4.2e-05 24.3 0.5 1 23 1833 1855 1833 1855 0.99

#	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	36	1.8	68	4.8	0.4	2	19	151	168	150	168	0.97
2	36	0.076	2.8	9.1	0.7	1	23	197	220	197	220	0.96
3	36	5.8e-05	0.0021	18.9	5.6	1	23	225	247	225	247	0.98
4	36	0.00072	0.027	15.5	1.4	2	23	430	451	429	451	0.97
5	36	2.4e-06	8.8e-05	23.3	0.5	1	23	457	479	457	479	0.96
6	36	7.6e-05	0.0028	18.5	4.5	1	23	485	507	485	507	0.98
7	36	6.7	2.5e+02	3.0	0.1	1	23	513	536	513	536	0.93
8	36	0.00018	0.0068	17.4	4.7	1	23	541	563	541	563	0.98
9	36	9.4e-06	0.00035	21.4	1.5	2	23	575	596	574	596	0.96
10	36	0.33	12	7.1	0.3	1	11	602	612	602	617	0.88
11	36	7.5	2.8e+02	2.8	2.3	1	23	754	777	754	777	0.85
12	36	1.3	50	5.2	0.2	2	19	783	800	782	800	0.97
13	36	0.038	1.4	10.1	2.0	2	23	829	850	829	850	0.95
14	36	1.8e-05	0.00066	20.5	1.6	3	23	858	878	856	878	0.96
15	36	9.7e-05	0.0036	18.2	2.7	1	23	884	906	884	906	0.98
16	36	0.35	13	7.0	0.1	1	23	912	935	912	935	0.94
17	36	0.0007	0.026	15.5	6.3	1	23	940	962	940	962	0.98
18	36	0.78	29	5.9	0.6	2	19	1125	1142	1124	1142	0.97
19	36	5.9	2.2e+02	3.2	4.0	9	23	1151	1165	1150	1165	0.95
20	36	0.13	4.7	8.4	0.8	1	23	1171	1194	1171	1194	0.96
21	36	0.0022	0.082	13.9	8.0	1	23	1199	1221	1199	1221	0.98
22	36	0.016	0.59	11.2	0.7	1	23	1395	1418	1395	1418	0.92
23	36	2.6	95	4.3	0.3	2	19	1424	1441	1423	1441	0.97
24	36	0.54	20	6.4	1.1	9	23	1450	1464	1449	1464	0.95
25	36	0.19	7.1	7.8	0.4	1	23	1470	1493	1470	1493	0.96
26	36	0.01	0.38	11.9	8.2	1	23	1498	1520	1498	1520	0.96
27	36	0.0035	0.13	13.3	1.8	1	23	1581	1603	1581	1603	0.98
28	36	4.1e-07	1.5e-05	25.7	1.8	1	23	1609	1631	1609	1631	0.99
29	36	1.5e-06	5.5e-05	23.9	2.4	1	23	1637	1659	1637	1659	0.99
30	36	1e-06	3.8e-05	24.4	3.2	1	23	1665	1687	1665	1687	0.99
31	36	6.9e-05	0.0026	18.7	2.6	1	23	1693	1715	1693	1715	0.99
32	36	1.6e-05	0.00059	20.7	1.5	1	23	1721	1743	1721	1743	0.99
33	36	3.9e-06	0.00014	22.6	1.1	1	23	1749	1771	1749	1771	0.99
34	36	4.3e-05	0.0016	19.3	4.4	1	23	1777	1799	1777	1799	0.99
35	36	3.5e-05	0.0013	19.6	2.0	1	23	1805	1827	1805	1827	0.99
36	36	1.1e-06	4.2e-05	24.3	0.5	1	23	1833	1855	1833	1855	0.99

Sequence Information

Coding Sequence: ATGCTAGAAGAATGTGCTTCTGTCAACATTTCTGAAGATGATTCCTTACCTAAAAATGTATGCCTTCAATGTTCCAAACACTTAGAACAAAGTTACAAACTAAAAATACAATGTTTATCATCGGAAAAACGTTTACAAAGTGTACTTGAAAATGTTCAAAGGACAGTTAAAATAGAAGAACCGTTCTCACAAAATGATTATGAAATTTATGATGATGATAACAAGGAGGAGGATGATTTCAATTTGTATGaatccaaaaataattattccgaGGCACAAGttgaaattattgtaaaagaGGAGGTCACAGATGATTTTACAGACAATAGTTCAAATTCTAAGAAAAGTAGTAAAATAGTCAATTATAAATGTACAGATTGTGAAGCCCAGTTTACATGTGCCAATAAATTGTTTGATCATAACAAAGATTATCATTTCAAATCGGTGGTACAGTGTGAGTTTTGTAAAACAGATTTTGAGAGTGGAAGCTATTTACAAACGCATTGCTCTGAGTCCAGTGTCTCATCGAAATTTCATGATAACCGCAATTTAACATTACATATGACAAAGCACTCAACGGAAAGGAAATATGAATGTGATATTTGTAACGCAACGTATAAATGGAAAAACTCATTAAATCAGCATAAATTGTCTCAACATTCAAATGTAGTATTTTCCTGTAATTATTGTGATACACGGTGTAGCTCTAAAAGAAATTTACAAAGACATCAATTAACTCATTCTGGTAAACCACGAGATGATAAATCATATCGGGAAATGCTAGAAGAATGTGCTTCCGTCCACATTTCTGAGAATGATTGTTTACCTAAAAATTTATGCCGTCAATGTTCGAAACACATAGAACAAAGTTACAAACTAAAAATACAATGTTTATCATCGGAAAAACGTTTACAAAGTGTACTTGAAAATTCTCAGAGAAAAGTCAAAGTAGAAGAACCGTTTTTACAAAATGAATCATTGgacaatgattttaaatattatgataatgatgatgataataaggatgatgattttaatttttatgaaaccaAAAGTAATTATCCGGCAGCTCAAGTTGAAGTTATTGTAAAAGAGGAGGCCACTGATGATTTTACAGACAATAGTTCAAATTCTAAGAAAAgtagtaaaatagaaaattataaatgcACAAATTGTGAAGCACAGTTTACATGTGCCAATAAACTGCTTGATCATAACAAAGATGTTCATTTAAAATCTGTGGTACAGAAAGATGTaaatttcttcaataatttaatcaaaaataaagtttgcGATACATGTGGAAAAACGTTTAATAATGCGGCAGCTTGTCGAAGACATATGCAGattcatTCGAAAGAAAGAAGTTTTTTGTGTACGTATTGTGGAAAATCATTTGCAAATCAAGGTAACATGGCCTATCATATTCGAACtcataccggagaaaaaccGCATCAATGTGAAATATgtgaggcaaaatttatagacaaacgTCATTTAAAACGGCATATGAACAAACATGcaacagaaaataaatatgcGTGTGATTTGTGTACCGCAACCTATAAATGGGAAGAGGGTCTGCGACAACATAAATTGGTTCAACACACAGATGGCGATTATCCgtgtaatatttgtaataaacgtTGTAAAACTAAAAAGTATTTACAGAGCCATCAATTATCACATTCTGGTAAACCACGAGGAGGTGAATGGAACCTGAATTGTACGTATTGTAACAAGTTATTCAACAGAAAAGATAATCTAAAAGTGCACTTAAGAATtcatacaggagaaaaaccataCGTTTGTAGTAAATGTGGAAAAGGATTTTCAGCTAAACATGTCATGAACGATGATAAATCATATCGAGAAATGCTAGAAGAATGTGCTTCTGTCCACATTTCTGTAGATGATTCTTTGCCTAAAAAATTATGTCGTCAATGTTCCAAACACTTAGAACAAAGTTACAAACTAAGAATAAAATGTTTATCATCGGAAAAACGTTTACAGACATTAGTTGAAAATTCTCAAAGAAAAGTCAAAGTTGAAGAACCGTTTTTACAAAATGAATCATTGgacaatgattttaaattttatgatgacgatgatgatgataataagGATGATGACTTTAATTTCTATGAATCCAAAAGTAATTATTCTGCAGCCCCAGTTGAAGTTATTGTAAAAGAGGAGGTCACAGATGATTTTACAGACAGTAGTTCaaattctaagaaaagttgTAAAATAGTCAATTATAAATGTACAGATTGTGAAGCCCAGTTTACATGTGCTAATAAATTGTTTGATCATAACAAAGACGTTCATTTAAAATCGATGGTACAGTGTGAGTTTTGTCAAACAGATTTTGAGAGTGGAAGTGATTTACAAACTCATTGCTCTGAGTCCAGTGTCTGTAAGTGGTGTGCGAAAGatgtaaattgtataaataatttaataaaacataatcaaGAACATAATGTTTGCACGACATGTGGGAAAACGTTTAATAATGCAGACATTTGTCGGAGACATATGCAGgttCATACAAAAGAAAAAGGTCACTTATGTACATATTGTGGAAAATCATTCGCGAATCGAGGATATATGACTGTTCATATTCGAAGTCACACCGGGGAAAAACCGTATCAATGTGAAATATgtgaagcaAAATTTCGAGAGAATCGTCATTTAAAAAGGCACATGGACAAACACGCAACAGAAAACAAATATGAATGTGATATTTGTAACGCAACGTACAAATGGGAAGAGGGTCTGCGACAACATAAATTGGTTCAACACACAGATGGCGATTATCCgtgtaatttttgtaataaacgtTGTAAATCTAAAAAGTATTTACAAAGACATCAATTGTCACATTCTGGGAAACCACGAGGAGATGATAAATCCTATCGGGAAATGTTAAAAGAATGTGCTTCTGTCCACATTTCTGAGGATGATTCCTTGCCTAAAAATTTATGCCTTCAATGCTCACAACACTTAGAACAAAGTTACAAACTAAAAATACAATGTTTATCATCGGAAAAACGTTTACAAACTGTAGTGGAAAATTCTCAAGAAAAAGTCAAAGAAGAAGAACCGTTTTTACAAAATGACATATTaaacaatgattttaaattttatgatgatgataataaGGATGATGACTTTAATTTCTATGAATCTAAAAGTAATTATcctgaaattattataaaagagGAGGCCAGTGAAGATTTAACTGACAATAATTCAAGCTCTAAAAGTAGTAAAATAGTGAATTTCAAATGTACAGATTGTGAAGCCCAGTTTACATGTGCCAATAAATTGTTTGAGCATAACAAAGATGTTCATTCAAAATTGGTGGTACAGtgtgaattttgtaaaacagATTTTAACAGTGGCAGCGATTTAAAAAGTCATTGTTCAGAGTCCAGTGTCTactcaaaatttaaagatagcCATCATTTACGCGAGCATATGACAAAACATTCAGCTGAACGGAAATACGaatgtgatatttgtaaagttaaGTACAAATGGAGTGATAGTTTGAGACAACATAAATTGTCTCAACATACAAATGAGGAATTTACATGTAATTATTGTGATAAACGatgtaaaactaaaaaatgtttactaaaACATCAAATTGTTCATTCAGAAATTTGGAAAACAATGGACAACagtataattgaattaaatgatTTTCCAACTGTGTGTCGAATATGTTTAGAGAAACgggaaaaattaatttccatATTTACCGAAATACTTCATTTAGATGATAAATCCTATCGGGAAATGTTAAAAGAGTGTGCTTCTGTCCAcGTTTCCGATGATGATTCGTTGCCTAAAAATTTATGCCTTCAGTGTTCACGACACTTAGAACAAAGTTACAAACTTAAAATACAATGTTTATCATCGGAAAAACGTTTACAGACATTAGTTGAAAATTCTCAAGATAAAGTCAAAGTAGAAGAATCAActttacaaaatgaaatattagataatgATTATGAGTTttatgatgatgataataaggacgatgattttgatttttacgATTCCAAAAATAGTTATTCCGCAGCCCAAGttgaaattattgtaaaagaGGAGGTCACAGATGATTTTACAGACAATAGTTCAAATTCTAAGAAAAGTAGTAAAATAGTGAATTATAAATGTACAGATTGTGAAGCCCAGTTTACAAATGCCAATAAATTGTTTGATCATAACAAAGACATTCATTTAAAATCGGTGGTACAGTGTGAGTTTTGTAGAACAGATTTTGAGAGTGGAAGCGATTTAAAAACTCATTGTTCTGCGTCCAGTGTCTATGCAAAATTCAAAGATAGTTATCATTTAAAAGAACATATGACAAAACATTCTGCGGAACGAAAATATGAATGTGATATCTGTAATGCAAAGTACAAATGGAAAGAGGGTCTGAGACAACATAAATTATCTCAACACACAGATGGTGAATTTGCATGTAGTTATTGTGATAAACGAtgtaaaacgaaaaaatatttacataaacatCAATTCGTTCATTCagATAACCCCCAATTTGAGATGATCCATTGTCCTGTAAAATTGGAACCATTGGATGATGAAATTGAATATGAAGAACCACATATCGAAGCTGAAGTCATAATAAAAGAAGAAAGACCGGATACACCGGATACCGATGACACCGAAGAATCATCTTCTACATCAAACGCAGCATTTCAATTTGTGTGTAAGATATGTTACAAAAAATTCCCCGAAATCAATAAACTGAAAAAACATGAAAAGACCCATACAAACGAGCGACCCTATAAGTGTAATGTGTGCAACAAGACATTCACCCAACAGAATAATTTATCGGCTCACGAACGGACCCATACCGGCGAGCGACCATTCAAGTGCAAAACATGCAATAAGACATTTATCCAACAGAATAATTTAAATGCTCATGAGCGTACCCATACTGGGGAACGCCCTTACAAGTGTAATGTGTGTGATAAAACGTTTGTTCAGCAGAGTCACTTAATGACGCATACCAAAGTGCATACAGAAATTCGACCGTATAAGTGTTACGCCTGTGAGAAAACATTCACGCAACAAAATCATTTAATTGCCCACGAGCGTACTCATACGGGGGAACGACCGTATAAATGTGATTTATGTGGTAAATGTTTCCCATTTCAAAGTGCTCTAGGCACACATATAAAATCCCACGAAAATACACGACCTTTTAAGTGTGAACTCTGTGAGAAAACATTTAAACGACAGGATGGCTTAATAACACATGAGCGTACACACACGGGGGAACGACCGTATAAATGCCAGTTTTGCGAGAAATCATTCACGTATCAGAGCACATATACTACGCATGTTCGGACACATACGGGAGTTAGACCGTTTAAGTGTGAATATTGTGAGAAAACATTTAATCGGCATGATGGTTTGGTCGAGCATGTCCGATCACATACGGGAGAACGACCTTTTAAGTGCGAAGATTGTCCAAAGACATTCATCACCAAGGGTGGTTTGGTGAAACATATAAAACGCCATGGACCACATCATATGACCATATTACAGATTCCGATTCGGTAA
Protein Sequence: MLEECASVNISEDDSLPKNVCLQCSKHLEQSYKLKIQCLSSEKRLQSVLENVQRTVKIEEPFSQNDYEIYDDDNKEEDDFNLYESKNNYSEAQVEIIVKEEVTDDFTDNSSNSKKSSKIVNYKCTDCEAQFTCANKLFDHNKDYHFKSVVQCEFCKTDFESGSYLQTHCSESSVSSKFHDNRNLTLHMTKHSTERKYECDICNATYKWKNSLNQHKLSQHSNVVFSCNYCDTRCSSKRNLQRHQLTHSGKPRDDKSYREMLEECASVHISENDCLPKNLCRQCSKHIEQSYKLKIQCLSSEKRLQSVLENSQRKVKVEEPFLQNESLDNDFKYYDNDDDNKDDDFNFYETKSNYPAAQVEVIVKEEATDDFTDNSSNSKKSSKIENYKCTNCEAQFTCANKLLDHNKDVHLKSVVQKDVNFFNNLIKNKVCDTCGKTFNNAAACRRHMQIHSKERSFLCTYCGKSFANQGNMAYHIRTHTGEKPHQCEICEAKFIDKRHLKRHMNKHATENKYACDLCTATYKWEEGLRQHKLVQHTDGDYPCNICNKRCKTKKYLQSHQLSHSGKPRGGEWNLNCTYCNKLFNRKDNLKVHLRIHTGEKPYVCSKCGKGFSAKHVMNDDKSYREMLEECASVHISVDDSLPKKLCRQCSKHLEQSYKLRIKCLSSEKRLQTLVENSQRKVKVEEPFLQNESLDNDFKFYDDDDDDNKDDDFNFYESKSNYSAAPVEVIVKEEVTDDFTDSSSNSKKSCKIVNYKCTDCEAQFTCANKLFDHNKDVHLKSMVQCEFCQTDFESGSDLQTHCSESSVCKWCAKDVNCINNLIKHNQEHNVCTTCGKTFNNADICRRHMQVHTKEKGHLCTYCGKSFANRGYMTVHIRSHTGEKPYQCEICEAKFRENRHLKRHMDKHATENKYECDICNATYKWEEGLRQHKLVQHTDGDYPCNFCNKRCKSKKYLQRHQLSHSGKPRGDDKSYREMLKECASVHISEDDSLPKNLCLQCSQHLEQSYKLKIQCLSSEKRLQTVVENSQEKVKEEEPFLQNDILNNDFKFYDDDNKDDDFNFYESKSNYPEIIIKEEASEDLTDNNSSSKSSKIVNFKCTDCEAQFTCANKLFEHNKDVHSKLVVQCEFCKTDFNSGSDLKSHCSESSVYSKFKDSHHLREHMTKHSAERKYECDICKVKYKWSDSLRQHKLSQHTNEEFTCNYCDKRCKTKKCLLKHQIVHSEIWKTMDNSIIELNDFPTVCRICLEKREKLISIFTEILHLDDKSYREMLKECASVHVSDDDSLPKNLCLQCSRHLEQSYKLKIQCLSSEKRLQTLVENSQDKVKVEESTLQNEILDNDYEFYDDDNKDDDFDFYDSKNSYSAAQVEIIVKEEVTDDFTDNSSNSKKSSKIVNYKCTDCEAQFTNANKLFDHNKDIHLKSVVQCEFCRTDFESGSDLKTHCSASSVYAKFKDSYHLKEHMTKHSAERKYECDICNAKYKWKEGLRQHKLSQHTDGEFACSYCDKRCKTKKYLHKHQFVHSDNPQFEMIHCPVKLEPLDDEIEYEEPHIEAEVIIKEERPDTPDTDDTEESSSTSNAAFQFVCKICYKKFPEINKLKKHEKTHTNERPYKCNVCNKTFTQQNNLSAHERTHTGERPFKCKTCNKTFIQQNNLNAHERTHTGERPYKCNVCDKTFVQQSHLMTHTKVHTEIRPYKCYACEKTFTQQNHLIAHERTHTGERPYKCDLCGKCFPFQSALGTHIKSHENTRPFKCELCEKTFKRQDGLITHERTHTGERPYKCQFCEKSFTYQSTYTTHVRTHTGVRPFKCEYCEKTFNRHDGLVEHVRSHTGERPFKCEDCPKTFITKGGLVKHIKRHGPHHMTILQIPIR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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