Study : Genotype x Environment approaches provide insights into genotype-specific grapevine transcriptomic plasticity

Genotype x Environment approaches provide insights into genotype-specific grapevine transcriptomic plasticity

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Link to this study on EBI European Nucleotide Archive

A dissection of Genotype x Environment interactions in grapevine berry using a multi-layered -omics approach Grapevine, the most widely-cultivated perennial fruit crop, is also considered a very environmentally sensitive crop. It is characterized by remarkable phenotypic plasticity which in turn is believed to effectively buffer environmental extremes especially through transcriptomic and epigenomic reprogramming. Thus, the final phenotype (P) of a given vine is the result of the close interaction between its genetic composition (G) and the environment (E). Here we analyzed Genotype x Environment (GxE) interactions in two grapevine varieties by characterizing their transcriptome plasticity when cultivated in different environments. Specifically, two genotypes (Sangiovese and Cabernet Sauvignon) were cultivated in three different locations in Italy (Bolgheri -littoral Tuscany-, Montalcino – Appennine Tuscany- and Romagna -foothill area-), trained in an almost identical manner, and sampled at four developmental stages over two grapevine growing seasons, 2011 and 2012, for a total of 144 samples that were analyzed by hybridization to a whole-genome microarray and by Reduced Representation Bisulfite Sequencing (RRBS-seq). In order to study the relationships among differential gene expression profiles and environmental cues, we have developed a new statistical data mining tool based on data reduction approaches which allowed a dissection of the transcriptomic data into stage-specific, cultivar-related and GxE important clusters of gene expression. This deep inspection of inner relationships between the different dataset variables allowed the identification of several candidate genes that could represent putative markers of berry quality traits in grapevine GxE interactions. Moreover, the methods used to establish our model provide a framework for the analysis of transcriptome plasticity in other crops as they respond to diverse environments. Overall design: Vitis vinifera berries from Sangiovese and Cabernet Sauvignon cultivars were harvested at four different developmental stages (i.e., pea size (PS), pre-veraison (PV), mid-ripening (MR) and fully ripe (FR)), in three central Italian locations (i.e., Bolgheri in the Tuscany coast, Montalcino in the Tuscany Appennines and Riccione in the Adriatic coast) (Fig. 1a, Supplementary Tables 1-2) during two consecutive growing seasons (2011 and 2012) in biological triplicates for a total of 144 samples. Forty-eight of these samples, corresponding to two developmental stages (i.e. pre-veraison (PV) and mid-ripening) and two biological replicates were analyzed by Reduced Representation Bisulfite Sequencing (RRBS-seq) to provide genome-wide DNA methylation data.

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