R. Torres scite author profile

Fruit losses during postharvest storage and handling due to pathogen infections are one of the major problems in the global food chain supply. The application of chemical fungicides to control diseases is currently limited by legislation in some countries and also raises concerns about food and environmental safety. Exploring molecular aspects of pathogen-fruit interactions therefore has biological and economic significance as a means to help develop rational alternatives for disease control. In this review we present the current knowledge of molecular aspects in pathogen-fruit interactions, addressing the following topics: the application of new "omics" technologies for studying these interactions; the molecular mechanisms of fungal pathogen attack; the regulation of virulence by exogenous factors; and, finally, fruit defense mechanisms.

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Relationship between the incidence of latent infections caused by Monilinia spp. and the incidence of brown rot of peach fruit: factors affecting latent infection

Gell¹,

Cal²,

Torres³

et al. 2008

Eur J Plant Pathol

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Five field experiments were performed in commercial orchards located in Lleida (Spain) over three growing seasons, 2000-2002, in order to estimate the relationship between the incidence of latent infection caused by Monilinia spp. in peaches and the incidence of post-harvest brown rot. No latent infection was recorded at popcorn and the maximum incidence occurred pre-harvest; in some orchards a second peak was detected during the pit hardening period. Monilinia laxa is the most prevalent species isolated from peaches with brown rot. There was a positive correlation between the incidence of latent infection and that of post-harvest brown rot. The average incidence of latent infection during the crop season explained 55% of the total variation in the incidence of post-harvest brown rot. The effect of temperature (T) and duration of wetness (W) on the incidence of latent infection in peach and nectarine orchards was analysed using multiple regression. The regression analysis indicated that T and W jointly explained 83% of the total variation in the incidence of latent infection. The model predicts no latent infections when T<8°C, and >22 h wetness are required when T=8°C but only 5 h at 25°C are necessary for latent infection to occur. The incidence of brown rot and latent infection of peaches caused by M. laxa under controlled experimental conditions were also affected by T and W, as well as by fruit maturity and inoculum concentration. Latent infections were produced in fruit when T was not suitable for the development of brown rot symptoms. In these experiments more than 4-5 h of daily wetness were required after embryo growth in fruit sprayed to runoff with an inoculum concentration higher than 10 4 conidia ml −1 of M. laxa for brown rot and latent infections to develop. The fitted model obtained from the field data was able to predict the observed data obtained under controlled environmental conditions.

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Concave Tetrathiafulvalene‐Type Donors as Supramolecular Partners for Fullerenes

et al. 2007

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R. Torres

Application of modified atmosphere packaging as a safety approach to fresh-cut fruits and vegetables – A review

Biological control of postharvest brown rot (Monilinia spp.) of peaches by field applications of Epicoccum nigrum

Molecular aspects in pathogen-fruit interactions: Virulence and resistance

Relationship between the incidence of latent infections caused by Monilinia spp. and the incidence of brown rot of peach fruit: factors affecting latent infection

Concave Tetrathiafulvalene‐Type Donors as Supramolecular Partners for Fullerenes

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