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Items: 1 to 20 of 111

1.

Non conserved residues between Cqm1 and Aam1 mosquito α-glucosidases are critical for the capacity of Cqm1 to bind the Binary toxin from Lysinibacillus sphaericus.

Ferreira LM, Romão TP, Nascimento NA, Costa Mda C, Rezende AM, de-Melo-Neto OP, Silva-Filha MH.

Insect Biochem Mol Biol. 2014 Jul;50:34-42. doi: 10.1016/j.ibmb.2014.04.004. Epub 2014 Apr 16.

PMID:
24746772
2.

The orthologue to the Cpm1/Cqm1 receptor in Aedes aegypti is expressed as a midgut GPI-anchored α-glucosidase, which does not bind to the insecticidal binary toxin.

Ferreira LM, Romão TP, de-Melo-Neto OP, Silva-Filha MH.

Insect Biochem Mol Biol. 2010 Aug;40(8):604-10. doi: 10.1016/j.ibmb.2010.05.007. Epub 2010 Jun 2.

PMID:
20685335
3.

N-glycosylation influences the catalytic activity of mosquito α-glucosidases associated with susceptibility or refractoriness to Lysinibacillus sphaericus.

Nascimento NAD, Ferreira LM, Romão TP, Correia DMDC, Vasconcelos CRDS, Rezende AM, Costa SG, Genta FA, de-Melo-Neto OP, Silva-Filha MHNL.

Insect Biochem Mol Biol. 2017 Feb;81:62-71. doi: 10.1016/j.ibmb.2016.12.009. Epub 2016 Dec 23.

PMID:
28017798
4.

The N-terminal third of the BinB subunit from the Bacillus sphaericus binary toxin is sufficient for its interaction with midgut receptors in Culex quinquefasciatus.

Romão TP, de-Melo-Neto OP, Silva-Filha MH.

FEMS Microbiol Lett. 2011 Aug;321(2):167-74. doi: 10.1111/j.1574-6968.2011.02325.x. Epub 2011 Jul 4.

5.

A second independent resistance mechanism to Bacillus sphaericus binary toxin targets its alpha-glucosidase receptor in Culex quinquefasciatus.

Romão TP, de Melo Chalegre KD, Key S, Ayres CF, Fontes de Oliveira CM, de-Melo-Neto OP, Silva-Filha MH.

FEBS J. 2006 Apr;273(7):1556-68.

6.

Single nucleotide deletion of cqm1 gene results in the development of resistance to Bacillus sphaericus in Culex quinquefasciatus.

Guo QY, Cai QX, Yan JP, Hu XM, Zheng DS, Yuan ZM.

J Insect Physiol. 2013 Sep;59(9):967-73. doi: 10.1016/j.jinsphys.2013.07.002. Epub 2013 Jul 19.

PMID:
23871751
7.

Detection of an allele conferring resistance to Bacillus sphaericus binary toxin in Culex quinquefasciatus populations by molecular screening.

Chalegre KD, Romão TP, Amorim LB, Anastacio DB, de Barros RA, de Oliveira CM, Regis L, de-Melo-Neto OP, Silva-Filha MH.

Appl Environ Microbiol. 2009 Feb;75(4):1044-9. doi: 10.1128/AEM.02032-08. Epub 2008 Dec 19.

8.

Co-selection and replacement of resistance alleles to Lysinibacillus sphaericus in a Culex quinquefasciatus colony.

Chalegre KD, Tavares DA, Romão TP, de Menezes HS, Nascimento NA, de Oliveira CM, de-Melo-Neto OP, Silva-Filha MH.

FEBS J. 2015 Sep;282(18):3592-602. doi: 10.1111/febs.13364. Epub 2015 Jul 20.

9.

Ultrastructural analysis of midgut cells from Culex quinquefasciatus (Diptera: Culicidae) larvae resistant to Bacillus sphaericus.

de Melo JV, Vasconcelos RH, Furtado AF, Peixoto CA, Silva-Filha MH.

Micron. 2008 Dec;39(8):1342-50. doi: 10.1016/j.micron.2008.02.002. Epub 2008 Feb 9.

PMID:
18346899
10.

Interaction of Lysinibacillus sphaericus binary toxin with mosquito larval gut cells: Binding and internalization.

Lekakarn H, Promdonkoy B, Boonserm P.

J Invertebr Pathol. 2015 Nov;132:125-31. doi: 10.1016/j.jip.2015.09.010. Epub 2015 Sep 25.

PMID:
26408968
11.

Novel mutations associated with resistance to Bacillus sphaericus in a polymorphic region of the Culex quinquefasciatus cqm1 gene.

Chalegre KD, Romão TP, Tavares DA, Santos EM, Ferreira LM, Oliveira CM, de-Melo-Neto OP, Silva-Filha MH.

Appl Environ Microbiol. 2012 Sep;78(17):6321-6. doi: 10.1128/AEM.01199-12. Epub 2012 Jul 6.

12.

A new allele conferring resistance to Lysinibacillus sphaericus is detected in low frequency in Culex quinquefasciatus field populations.

Menezes HS, Chalegre KD, Romão TP, Oliveira CM, de-Melo-Neto OP, Silva-Filha MH.

Parasit Vectors. 2016 Feb 4;9:70. doi: 10.1186/s13071-016-1347-2.

13.

Stability of Culex quinquefasciatus resistance to Bacillus sphaericus evaluated by molecular tools.

Amorim LB, de Barros RA, Chalegre KD, de Oliveira CM, Regis LN, Silva-Filha MH.

Insect Biochem Mol Biol. 2010 Apr;40(4):311-6. doi: 10.1016/j.ibmb.2010.02.002. Epub 2010 Mar 6.

PMID:
20211258
14.

Receptor protein of Lysinibacillus sphaericus mosquito-larvicidal toxin displays amylomaltase activity.

Sharma M, Gupta GD, Kumar V.

Insect Biochem Mol Biol. 2017 Dec 8;93:37-46. doi: 10.1016/j.ibmb.2017.12.002. [Epub ahead of print]

PMID:
29229337
15.

Identification of amino acids required for receptor binding and toxicity of the Bacillus sphaericus binary toxin.

Singkhamanan K, Promdonkoy B, Chaisri U, Boonserm P.

FEMS Microbiol Lett. 2010 Feb;303(1):84-91. doi: 10.1111/j.1574-6968.2009.01865.x. Epub 2009 Nov 23.

16.

Identification and characterization of the receptor for the Bacillus sphaericus binary toxin in the malaria vector mosquito, Anopheles gambiae.

Opota O, Charles JF, Warot S, Pauron D, Darboux I.

Comp Biochem Physiol B Biochem Mol Biol. 2008 Mar;149(3):419-27. Epub 2007 Nov 17.

PMID:
18086545
17.

Amino acid residues in the N-terminal region of the BinB subunit of Lysinibacillus sphaericus binary toxin play a critical role during receptor binding and membrane insertion.

Singkhamanan K, Promdonkoy B, Srikhirin T, Boonserm P.

J Invertebr Pathol. 2013 Sep;114(1):65-70. doi: 10.1016/j.jip.2013.05.008. Epub 2013 Jun 3.

PMID:
23743006
18.

The receptor of Bacillus sphaericus binary toxin in Culex pipiens (Diptera: Culicidae) midgut: molecular cloning and expression.

Darboux I, Nielsen-LeRoux C, Charles JF, Pauron D.

Insect Biochem Mol Biol. 2001 Sep;31(10):981-90.

PMID:
11483434
19.

Role of cysteine at positions 67, 161 and 241 of a Bacillus sphaericus binary toxin BinB.

Boonyos P, Soonsanga S, Boonserm P, Promdonkoy B.

BMB Rep. 2010 Jan;43(1):23-8.

20.

Ingestion, dissolution, and proteolysis of the Bacillus sphaericus toxin by mosquito larvae.

Aly C, Mulla MS, Federici BA.

J Invertebr Pathol. 1989 Jan;53(1):12-20.

PMID:
2915145

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