The expression of 18 defense genes in strawberry fruit treated with elicitors: chitosan, BTH, and COA, at 0.5, 6, 24, and 48 h post-treatment was analyzed. The genes were up-regulated differentially, according to the elicitor. Chitosan and COA treatments promoted the expression of key phenylpropanoid pathway genes, for synthesis of lignin and flavonoids; only those associated with flavonoid metabolism were up-regulated by BTH. The calcium-dependent protein kinase, endo-β 1,4glucanase, ascorbate peroxidase, and glutathione-S-transferase genes were up-regulated by BTH. The K + channel, polygalacturonase, polygalacturonase-inhibiting protein, and β-1,3-glucanase, increased in response to all tested elicitors. The enzyme activities of phenylalanine ammonia lyase, β-1,3-glucanase, Chitinase, and guaiacol peroxidase supported the gene expression results. Similarity of gene expression was >72% between chitosan and COA treatments, while BTH showed lower similarity (38%) with the other elicitors. This study suggests the relationship between the composition of the elicitors and a specific pattern of induced defense genes.
The use of resistance inducers is a novel strategy to elicit defense responses in strawberry fruit to protect against preharvest and postharvest decay. However, the mechanisms behind the specific resistance inducers are not completely understood. Here, global transcriptional changes in strawberry fruit were investigated using RNA-Seq technology. Preharvest, benzothiadiazole (BTH) and chitosan were applied to the plant canopy, and the fruit were harvested at 6, 12, and 24 h post-treatment. Overall, 5,062 and 5,210 differentially expressed genes (fold change ≥ 2) were identified in these fruits under the BTH and chitosan treatments, respectively, as compared to the control expression. About 80% of these genes were differentially expressed by both elicitors. Comprehensive functional enrichment analysis highlighted different gene modulation over time for transcripts associated with photosynthesis and heat-shock proteins, according to elicitor. Up-regulation of genes associated with reprogramming of protein metabolism was observed in fruit treated with both elicitors, which led to increased storage proteins. Several genes associated with the plant immune system, hormone metabolism, systemic acquired resistance, and biotic and abiotic stresses were differentially expressed in treated versus untreated plants. The RNA-Seq output was confirmed using RT-qPCR for 12 selected genes. This study demonstrates that these two elicitors affect cell networks associated with plant defenses in different ways, and suggests a role for chloroplasts as the primary target in this modulation of the plant defense responses, which actively communicate these signals through changes in redox status. The genes identified in this study represent markers to better elucidate plant/pathogen/resistance-inducer interactions, and to plan novel sustainable disease management strategies.
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