Basic Information

Insect: Anastatus disparis
Gene Symbol: -
Assembly: GCA_017163975.1
Location: JAFFSR010000218.1:358606-388441[-]

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 33 0.0049 1.7 11.8 3.3 2 23 223 245 222 245 0.88

2 33 0.00036 0.12 15.4 1.8 1 23 251 274 251 274 0.98

3 33 0.16 53 7.1 0.9 2 23 281 303 280 303 0.90

4 33 6.6e-06 0.0022 20.9 1.3 2 23 310 332 309 332 0.93

5 33 0.00013 0.045 16.8 1.1 2 23 339 361 338 361 0.93

6 33 0.00013 0.045 16.8 1.1 2 23 368 390 367 390 0.93

7 33 1.9e-05 0.0066 19.4 1.5 2 23 397 419 396 419 0.90

8 33 5.1e-06 0.0017 21.2 0.7 2 23 426 448 425 448 0.90

9 33 2.4 8.3e+02 3.3 3.1 2 13 455 466 454 468 0.90

10 33 1.4 4.6e+02 4.1 3.4 3 19 543 559 542 564 0.90

11 33 0.00014 0.047 16.7 4.3 1 23 568 591 568 591 0.97

12 33 4.7e-05 0.016 18.2 1.0 2 23 598 620 597 620 0.96

13 33 0.00011 0.039 17.0 2.1 2 23 627 649 626 649 0.95

14 33 0.00041 0.14 15.2 3.2 2 23 656 678 655 678 0.91

15 33 0.088 30 7.9 0.6 2 13 685 696 684 698 0.89

16 33 1.4 4.6e+02 4.1 3.4 3 19 838 854 837 859 0.90

17 33 0.00014 0.047 16.7 4.3 1 23 863 886 863 886 0.97

18 33 1.5e-06 0.00051 22.9 0.5 2 23 893 915 892 915 0.97

19 33 0.00032 0.11 15.6 4.4 2 23 922 944 921 944 0.95

20 33 0.0012 0.41 13.7 1.1 6 23 955 973 951 973 0.93

21 33 1.5e-05 0.005 19.8 1.4 2 23 980 1002 979 1002 0.91

22 33 0.00064 0.22 14.6 0.7 2 23 1009 1031 1008 1031 0.89

23 33 1.6e-05 0.0053 19.7 4.6 2 23 1038 1060 1037 1060 0.97

24 33 1.4 4.6e+02 4.1 3.4 3 19 1208 1224 1207 1229 0.90

25 33 0.00018 0.06 16.4 1.3 2 23 1310 1332 1309 1332 0.95

26 33 6.8e-06 0.0023 20.8 2.0 2 23 1415 1437 1414 1437 0.95

27 33 1.4 4.6e+02 4.1 3.4 3 19 1583 1599 1582 1604 0.90

28 33 8e-05 0.027 17.5 3.6 1 23 1608 1631 1608 1631 0.97

29 33 5.5e-05 0.019 18.0 1.5 2 23 1638 1660 1637 1660 0.96

30 33 7.2e-07 0.00025 23.9 1.3 2 23 1667 1689 1666 1689 0.96

31 33 4.8e-06 0.0016 21.3 3.0 2 23 1696 1718 1695 1718 0.96

32 33 2.7e-05 0.0093 18.9 1.0 2 23 1725 1747 1724 1747 0.96

33 33 7.2e-06 0.0024 20.7 4.7 2 23 1754 1776 1754 1776 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	33	0.0049	1.7	11.8	3.3	2	23	223	245	222	245	0.88
2	33	0.00036	0.12	15.4	1.8	1	23	251	274	251	274	0.98
3	33	0.16	53	7.1	0.9	2	23	281	303	280	303	0.90
4	33	6.6e-06	0.0022	20.9	1.3	2	23	310	332	309	332	0.93
5	33	0.00013	0.045	16.8	1.1	2	23	339	361	338	361	0.93
6	33	0.00013	0.045	16.8	1.1	2	23	368	390	367	390	0.93
7	33	1.9e-05	0.0066	19.4	1.5	2	23	397	419	396	419	0.90
8	33	5.1e-06	0.0017	21.2	0.7	2	23	426	448	425	448	0.90
9	33	2.4	8.3e+02	3.3	3.1	2	13	455	466	454	468	0.90
10	33	1.4	4.6e+02	4.1	3.4	3	19	543	559	542	564	0.90
11	33	0.00014	0.047	16.7	4.3	1	23	568	591	568	591	0.97
12	33	4.7e-05	0.016	18.2	1.0	2	23	598	620	597	620	0.96
13	33	0.00011	0.039	17.0	2.1	2	23	627	649	626	649	0.95
14	33	0.00041	0.14	15.2	3.2	2	23	656	678	655	678	0.91
15	33	0.088	30	7.9	0.6	2	13	685	696	684	698	0.89
16	33	1.4	4.6e+02	4.1	3.4	3	19	838	854	837	859	0.90
17	33	0.00014	0.047	16.7	4.3	1	23	863	886	863	886	0.97
18	33	1.5e-06	0.00051	22.9	0.5	2	23	893	915	892	915	0.97
19	33	0.00032	0.11	15.6	4.4	2	23	922	944	921	944	0.95
20	33	0.0012	0.41	13.7	1.1	6	23	955	973	951	973	0.93
21	33	1.5e-05	0.005	19.8	1.4	2	23	980	1002	979	1002	0.91
22	33	0.00064	0.22	14.6	0.7	2	23	1009	1031	1008	1031	0.89
23	33	1.6e-05	0.0053	19.7	4.6	2	23	1038	1060	1037	1060	0.97
24	33	1.4	4.6e+02	4.1	3.4	3	19	1208	1224	1207	1229	0.90
25	33	0.00018	0.06	16.4	1.3	2	23	1310	1332	1309	1332	0.95
26	33	6.8e-06	0.0023	20.8	2.0	2	23	1415	1437	1414	1437	0.95
27	33	1.4	4.6e+02	4.1	3.4	3	19	1583	1599	1582	1604	0.90
28	33	8e-05	0.027	17.5	3.6	1	23	1608	1631	1608	1631	0.97
29	33	5.5e-05	0.019	18.0	1.5	2	23	1638	1660	1637	1660	0.96
30	33	7.2e-07	0.00025	23.9	1.3	2	23	1667	1689	1666	1689	0.96
31	33	4.8e-06	0.0016	21.3	3.0	2	23	1696	1718	1695	1718	0.96
32	33	2.7e-05	0.0093	18.9	1.0	2	23	1725	1747	1724	1747	0.96
33	33	7.2e-06	0.0024	20.7	4.7	2	23	1754	1776	1754	1776	0.97

Sequence Information

Coding Sequence: ATGATTCCATCTATTTCAAGAGGTATGGGTTATGGACAATTGGGTAATAATGGAAATGGTAGAGGACAAATTGGTAATGGACAATTGGGTAATAATGGAAATGGTAGAGGACAACTTGGTAATGGACAATTGGGTAATAATGGAAATGGTAGAGGACGAATTGGTAATGGACAAATGGGTAATGGATATGGTAGAGGAGGTTTTAACAACGGCGGATTTGGAACAagtatGGAATATGGGAAGCTTCCtgtagataattttatgaatttggtCAAGATCAAAAAAGAAATTCCTGATAATGACGATGAATCTAACGATTTGATCAGCTCATCAGTATTAACCAATAatcaaaatgattatatattgaatataaagtCTGAACCAGCTAGCGTCGCAACTTCGTATAATGACAACAATGAATTCTTTTTCGCAACaCATAGTGTAGAAAGCTTAGTTAGAGAAAATTTAATGGAACTCTCAACGCCAATTATTAAACATGAAGAATCAATACATATTAAAGATGAAATGCATAACATATCAGATTCCACGTCTACAACACCTAACCATAAAACTAGTttgatttctattaaaaatgaaaGCTACGGTGAATTGGTAAATGAGAAAAGTTGTCCTCTTGATCAACGCCCAactgaattagaaaaaataagttgcGATATTTGTGGCCAATGCTTTTCGAGTCGAAGAAAGCTCAATATCCATTGCAGGGAAGTACACGCAAAAATTCGAAAGTATGTTTGTAATTTGTGTAATAAAGGATTTTTTCATAACTCTGTATTAAAACTGCACGAACGCACGGTACATCTAAAGATCCGAGACTGGAAATGCATTCATTGCGAAAAATTATTTGGTACGaaatataatttagaatatCATGAAAAGGCAATACATTTGAACATTCGAGATTGGAAGTGTACGCATTGCGGTAAATCATTTGGTACGAAATCTAATTTAGAATATCATGAAAAGGCAATACATATGAACATTCGAGATTGGAAGTGTACGCATTGCGGTAAATTATTTGGTACGAAATCTAATTTAGAATATCATGAAAAGGCAATACATTTGAACATTCGAGATTGGAAGTGTACGCATTGCGGTAAATTATTTGGTACGAAATCTAATTTAGAATATCATGAAAAGGCAATACATTTGAACATTCGAGATTGGAAGTGTACGCATTGCGGTAAAGCTTTTAATACTAAACAGCTTTTAAAACGTCATGAAAGTGCAGTACACATGAAAATTCAAGATTGGAAGTGCACTGATTGCGATAAAGCTTTTAATACTAAACAGAATTTAAAACGTCATGAAAGTGCAGTACacatgaaaattaaagattGGAAGTGCACTCGTTGCGATAAAGCATTTAATACTAAACGatGCAGTACAGAAAACTTAATTGGACTGAACTCAAATGAACTCTCAACGCCAATTATCAAATATGAAGATATTAAAAGTGAAGCCCATGACATAGTAGATTTTACTTCTGTAACACCTGATCTTGATACTAGTCTGATTTCTATTAAAGATGAAAGCTATGGCAAATTGGCGGATTTGGGAAGTCATCCTTATAATGAACATTCAACtggatttcaaaaaaatcattgtagtaTTTGTAGCAAAGACTTTTTGACACAACGTGAATTGAAACGTCATTGTGAAGTGGTACATCCAGCAAATTATATTTGTGATTTATGTGATACAAATTTTCATagtaaatatcatttaaaacaGCACATACGCTCGGTACACGATAAAATCCAAGGTTGGAAATGTGAACAATGCAGAAAATCTTTCGCCGCAAAATCTTCTTTAAAACGTCATGAACGCTCAGTACACTTGAAAATCCGAGACTGGGAGTGCACAAATTGCGATAAATCTTTTGATACTAAAcaacatttaaaatatcatgaaaattctATACATTTGAACATCCGAGATTGGAAGTGTACGCATTGCGATAAAGCTTTTTATACTAAACAGTTTTTAAAACGTCATAAAAGTGCAGTACacatgaaaattaaagattGGAAGTGCACTCATTGCGATAAAGCTTTTTATACTAAACGgcTTCCATTAGACAACTTCTTTGATTTAAACAACATCAAAAAAGAAATTCCTGATACTGACGATGGATGTGACAATTTGATCAGCTCTTcaatattaactaataattaTCAAACTGATTTTTTGATGAGTATAAAATGTGAACCAGCGAGTACCCAGTCCTTGTATAAGAACGATTTCGAACCATTTCCAGAAACatTCAGTACAGAAAACTTAATAGGAGTAAACTCGAATGAATTCTCAATGCCAAATATCAAATATGAAGATATTAAAAGTGAAGCTCATGACATAGTAGATTGTACTTCTGTAACACCTGATCTTGATACTAGTTTGATTTCTATTAAAGATGAAAGCTATGGCAAATTGGCGGATTTCGGAAGTCATCCTTTTAATGAACATTCAactggatttaaaaaaaatcattgtagtaTTTGTAGCAAAGACTTTTTGACACAACGTGAATTGAAACGTCATTGTGAAGTGGTACATCCAGCAAATTATATTTGTGATTTATGTGATACAAATTTTCATagtaaatatcatttaaaacaGCACATACGCTCTGTACACGATAAAATCCTAGGTTGGAAATGTGAACAATGCGGAAAATCTTTCGCCGCAAAATCTTCTTTAAAACGTCACGAACGCACAATACATCTGAATATTCAAGACTGTAAGTGCACACAATGCGAAAAATCTTTCACTACGAAAGCTCGTTTAAAACAGCACGAACGCTCAATACACTTGAAAATCGGAGACTCGGAGTGCATAAGTTGCAAAAAATCGTTTACCACGAAAACTAGTTTAAAAGTGCACGAACGCATGGTACATCTTATGATTCGAGATTGGAAGTGCACTCAATGCGATAAAGCTTTTAATACTAAACAGAATTTAAAACGTCATAAAAGTGCAGTACACATGAAAATTCAAGAATGGAAGTGTACTCATTGCGATAAAGCTTTTAATGCTAGAGAGAATTTAAAACTTCATGAAAGTGCAGTACACATGAAAATTAGAGATTGGAAGTGTACTCATTGTGATAAAGCTTTTAATACCAAACAGCATTTAAAGGATCACGAACGCACAGTACACTTGAAAATCCGAGACTGGGAgcTTCCATTAGACAACTTTGTTGATTTAAACAACATCAAAAAAGAAATTCCTGATACTGACGATGGATGTGACAATTTTATCAGCTCTTcaatattaactaataattaTCAAACTGACTCTTTGATGAGTATAAAATGTGAACCAGCGAGTACCCAGTCCTTGTACAAGAACGATTCTAAACTATTTCTAGAAACatTCAGTACAGAAAACTTAATAGGAGTAAGCTCGAATGAATTCTCAACGCCAAATATCAAATATGAAGATATTAAAAGTGAAGCCCGTGACATAGTAGATTGTACTTCTGTAACACCTGATCTTGATACTAGTCTGATTTCTATTAAAGATGAAAGCTATGGAAAATTGGCGGATTTCAAAAGTCATCcttttaatcaaaattcaactggatttcaaaaaaatcattgtagtaTTTGTAGCAAAGACTTTTTGACACAACGTGAATTGAAACGTCATTGTGAAGTGGTACATCCAGCAAAaCACAGCGTAAAAAGCTTAGTTagagaaaatttaatgcaactCTCAACGCCAATTATTAAACATGAAGAATCAATACATATTAAAGATGAAATGTATAACATATCAGATTCAACGTCTACAACACCTAACCATGAAACtagtttgatttttattaaaaatgaaagctACGATGAATTGGTGAATGACAAAAGTTGTCCTCTTGATCAACGTCCAactgaattagaaaaaataagttgcGATATTTGTGGTAAATGCTTTTCGAGTCGAAAAGGCTTCGATGTCCATCGCAGGGAAGTACACGTGAGAATTCGAAAaCACAGTGTAGAAAGCTTAGTTagagaaaatttaatgcaactCTCAACGCCAATTATTAAACATGAAGAATCAATACATATTAAAGATGAAATGCATAACATATCAGATTCAAGGTCTACAACACCTAATCAGAAAACTAGTTTGATTTCTATTAAAGATGAAAGCTACGGTGAATTGGTGAATGACAAAAGTTGTCCTCTTGGTCAACGTCCAACTGAATCAGAAAAAATAAGTTGCGATATTTGTGGCAAATGCTTTTCGAGTCGAAAAAACTTCAATATCCATCGCAGGGCAGTACACGCGAGAATTCGAAAgcTTCCATTAGACAACTTTGTTGATTTAAACAACATCAAAAAAGAAATTCCTGATACTGACGATGGATGTGACAATTTTATCAGCTCTTcaatattaactaataattaTCAAACTGACTCTTTGATGAGTATAAAATGTGAACCAGCGAGTACCCAGTCCTTGTACAAGAACGATTCTAAACTATTTCTAGAAACatTCAGTACAGAAAACTTAATAGGAGTAAACTCGAATGAATTCTCAACGCCAAATATCAAATATGAAGATAATAAAAGTGAAGCCCATGACATAGTAGATTGTACTTCTGTAACACCTGATCTTGATACTAGTCTGATTTCTATTAAAGATGAAAGCTATGGAAAATTGGCGGATTTCAAAAGTCATCCTTTTAATCAACATTCAACtggatttcaaaaaaatcattgtagtaTTTGTAGCAAAGACTTTTTGACACAACGTGAATTGAAACGTCATTGTGAAGTGGTACATCCAGCAAAGTATATTTGTGATTTATgtgatgaaaattttcatagtaaatatcatttaaaacaGCACATACGCTCGGTACACGATAAAATCCTAGGTTGGAAATGTGAACAATGCGGAAAATTTTTCGCCGCAAAATCTTCTTTAAAACATCATGAACGCTCAGTACACTTGAAAATCCAAGACTGGGAGTGCACAAATTGCAAAAAATCGTTTACTACGAAATCTAATTTAAAAGTGCACGAACGCATGGTACATCTTATGATTCGAGATTGGAAGTGCACTCATTGCGATAAAGCTTTTAATACTAAACAGAATTTAAAACGTCATGAAAGTACTGTACACTTGAAAATCCGAGACTGGGAGTGCACAAATTGCAAAAAGTCTTTTGTCAcgagaaattatttaaaagtgcACGAACGCACGGTACATCTAAAGATTCGAGATCGGAAGTGTACACATTGTGACAAATATTTTAGTACTCAGTCGAGTTTGAAACGTCACGAGAGGAAAGCACACTTACAAAAGCCAAAATAG
Protein Sequence: MIPSISRGMGYGQLGNNGNGRGQIGNGQLGNNGNGRGQLGNGQLGNNGNGRGRIGNGQMGNGYGRGGFNNGGFGTSMEYGKLPVDNFMNLVKIKKEIPDNDDESNDLISSSVLTNNQNDYILNIKSEPASVATSYNDNNEFFFATHSVESLVRENLMELSTPIIKHEESIHIKDEMHNISDSTSTTPNHKTSLISIKNESYGELVNEKSCPLDQRPTELEKISCDICGQCFSSRRKLNIHCREVHAKIRKYVCNLCNKGFFHNSVLKLHERTVHLKIRDWKCIHCEKLFGTKYNLEYHEKAIHLNIRDWKCTHCGKSFGTKSNLEYHEKAIHMNIRDWKCTHCGKLFGTKSNLEYHEKAIHLNIRDWKCTHCGKLFGTKSNLEYHEKAIHLNIRDWKCTHCGKAFNTKQLLKRHESAVHMKIQDWKCTDCDKAFNTKQNLKRHESAVHMKIKDWKCTRCDKAFNTKRCSTENLIGLNSNELSTPIIKYEDIKSEAHDIVDFTSVTPDLDTSLISIKDESYGKLADLGSHPYNEHSTGFQKNHCSICSKDFLTQRELKRHCEVVHPANYICDLCDTNFHSKYHLKQHIRSVHDKIQGWKCEQCRKSFAAKSSLKRHERSVHLKIRDWECTNCDKSFDTKQHLKYHENSIHLNIRDWKCTHCDKAFYTKQFLKRHKSAVHMKIKDWKCTHCDKAFYTKRLPLDNFFDLNNIKKEIPDTDDGCDNLISSSILTNNYQTDFLMSIKCEPASTQSLYKNDFEPFPETFSTENLIGVNSNEFSMPNIKYEDIKSEAHDIVDCTSVTPDLDTSLISIKDESYGKLADFGSHPFNEHSTGFKKNHCSICSKDFLTQRELKRHCEVVHPANYICDLCDTNFHSKYHLKQHIRSVHDKILGWKCEQCGKSFAAKSSLKRHERTIHLNIQDCKCTQCEKSFTTKARLKQHERSIHLKIGDSECISCKKSFTTKTSLKVHERMVHLMIRDWKCTQCDKAFNTKQNLKRHKSAVHMKIQEWKCTHCDKAFNARENLKLHESAVHMKIRDWKCTHCDKAFNTKQHLKDHERTVHLKIRDWELPLDNFVDLNNIKKEIPDTDDGCDNFISSSILTNNYQTDSLMSIKCEPASTQSLYKNDSKLFLETFSTENLIGVSSNEFSTPNIKYEDIKSEARDIVDCTSVTPDLDTSLISIKDESYGKLADFKSHPFNQNSTGFQKNHCSICSKDFLTQRELKRHCEVVHPAKHSVKSLVRENLMQLSTPIIKHEESIHIKDEMYNISDSTSTTPNHETSLIFIKNESYDELVNDKSCPLDQRPTELEKISCDICGKCFSSRKGFDVHRREVHVRIRKHSVESLVRENLMQLSTPIIKHEESIHIKDEMHNISDSRSTTPNQKTSLISIKDESYGELVNDKSCPLGQRPTESEKISCDICGKCFSSRKNFNIHRRAVHARIRKLPLDNFVDLNNIKKEIPDTDDGCDNFISSSILTNNYQTDSLMSIKCEPASTQSLYKNDSKLFLETFSTENLIGVNSNEFSTPNIKYEDNKSEAHDIVDCTSVTPDLDTSLISIKDESYGKLADFKSHPFNQHSTGFQKNHCSICSKDFLTQRELKRHCEVVHPAKYICDLCDENFHSKYHLKQHIRSVHDKILGWKCEQCGKFFAAKSSLKHHERSVHLKIQDWECTNCKKSFTTKSNLKVHERMVHLMIRDWKCTHCDKAFNTKQNLKRHESTVHLKIRDWECTNCKKSFVTRNYLKVHERTVHLKIRDRKCTHCDKYFSTQSSLKRHERKAHLQKPK*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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