FaNPR3 Members of the NPR1-like Gene Family Negatively Modulate Strawberry Fruit Resistance against Colletotrichum acutatum
Victoria Súnico, José Javier Higuera, Francisco Amil-Ruiz, Isabel Arjona-Girona, Carlos J. López-Herrera, Juan Muñoz-Blanco, Ana María Maldonado-Alconada, José L. Caballero

TL;DR
This study shows that FaNPR3 genes in strawberries reduce resistance to a harmful fungus, offering new insights for improving disease resistance through genetic methods.
Contribution
The first functional characterization of FaNPR3 genes in strawberries and their role in disease resistance.
Findings
Silencing FaNPR3 in strawberries reduced tissue damage from Colletotrichum acutatum.
FaNPR3.2 in Arabidopsis restored disease resistance to wild-type levels in a mutant.
FaNPR3 members regulate WRKY genes in strawberries and AtNPR3/AtNPR4 in Arabidopsis.
Abstract
Strawberry fruit is highly appreciated worldwide for its organoleptic and healthy properties. However, this plant is attacked by many pathogenic fungi, which significantly affect fruit production and quality at pre- and post-harvest stages, making chemical applications the most effective but undesirable strategy to control diseases that has been found so far. Alternatively, genetic manipulation, employing plant key genes involved in defense, such as members of the NPR-like gene family, has been successful in many crops to improve resistance. The identification and use of the endogenous counterpart genes in the plant of interest (as it is the case of strawberry) is desirable as it would increase the favorable outcome and requires prior knowledge of their defense-related function. Using RNAi technology in strawberry, transient silencing of Fragaria ananassa NPR3 members in fruit…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Plant Pathogens and Fungal Diseases · Berry genetics and cultivation research
