Your search keyword '"Reyes, Maritza"' showing total 3 results

1. Acetylcholinesterase mutation in an insecticide-resistant population of the codling moth Cydia pomonella (L.)

Author

Cassanelli, Stefano, Reyes, Maritza, Rault, Magali, Carlo Manicardi, Gian, and Sauphanor, Benoît

Subjects

*ACETYLCHOLINESTERASE, *GENETIC mutation, *CODLING moth, *INSECTICIDE resistance

Abstract

Abstract: Two strains of Cydia pomonella (L.) (Lepidoptera: Tortricidae) were selected in the lab by exposure to increasing concentrations of diflubenzuron (Rdfb strain) or azinphos-methyl (Raz strain). Insecticide bioassays showed that the adults of the Rdfb strain exhibited a 2.6-fold and a 7.7-fold resistance ratio to azinphos-methyl and carbaryl, respectively compared to a susceptible strain (S) whereas the adults of the Raz strain exhibited a 6.7-fold resistance ratio to azinphos-methyl and a 130-fold resistance ratio to carbaryl. In the Raz strain, a target site resistance mechanism was suggested by the inhibition of acetylcholinesterase (AChE) activity. In fact the ki values did not discriminate the S and Rdfb strains, while the Raz strain exhibited a 1.7-fold and a 14-fold increase in ki value compared to the S strain for azinphos-methyl oxon and carbaryl, respectively. To verify this hypothesis, two cloned AChE cDNAs sequences (named cydpom-ace2 e cydpom-ace1) were compared between the susceptible and the resistant strains. No difference in the deduced amino acid sequence was found in cydpom-ace2 (orthologous to the Drosophila melanogaster AChE). In the putative cydpom-ace1 (paralogous to the Drosophila AChE), a single amino acid substitution F399V was exclusively present in the Raz strain. The F399 lined the active site of the enzyme and the F399V substitution likely could influence the accessibility of different types of inhibitors to the catalytic site of the insensitive cydpom-ace1. [Copyright &y& Elsevier]

Published

2006

2. Heat shock induced excision of selectable marker genes in transgenic banana by the Cre-lox site-specific recombination system

Author

Chong-Pérez, Borys, Angenon, Geert, Kosky, Rafael G, Reyes, Maritza, and Rojas, Luis E.

Published

2010

3. Heat shock induced excision of selectable marker genes in transgenic banana by the Cre-lox site-specific recombination system

Author

Chong-Pérez, Borys, Kosky, Rafael G., Reyes, Maritza, Rojas, Luis, Ocaña, Bárbara, Tejeda, Marisol, Pérez, Blanca, and Angenon, Geert

Subjects

*HEAT treatment, *BIOMARKERS, *TRANSGENIC plants, *BANANAS, *GENETIC recombination, *RECOMBINASES, *SOYBEAN, *ARABIDOPSIS, *GENETIC engineering, *PHYSIOLOGY

Abstract

Abstract: Selectable marker genes are indispensable for efficient production of transgenic events, but are no longer needed after the selection process and may cause public concern and technological problems. Although several gene excision systems exist, few have been optimized for vegetatively propagated crops. Using a Cre-loxP auto-excision strategy, we obtained transgenic banana plants cv. Grande Naine (Musa AAA) devoid of the marker gene used for selection. We used T-DNA vectors with the cre recombinase gene under control of a heat shock promoter and selectable marker gene cassettes placed between two loxP sites in direct orientation, and a gene of interest inserted outside of the loxP sites. Heat shock promoters pGmHSP17.6-L and pHSP18.2, from soybean and Arabidopsis respectively, were tested. A transient heat shock treatment of primary transgenic embryos was sufficient for inducing cre and excising cre and the marker genes. Excision efficiency, as determined by PCR and Southern hybridization was 59.7 and 40.0% for the GmHSP17.6-L and HSP18.2 promoters, respectively. Spontaneous excision was not observed in 50 plants derived from untreated transgenic embryos. To our knowledge this is the first report describing an efficient marker gene removal system for banana. The method described is simple and might be generally applicable for the production of marker-free transgenic plants of many crop species. [Copyright &y& Elsevier]

Published

2012