Abstract
Unraveling the genomic processes at play during variety diversification is of fundamental interest for understanding evolution, but also of applied interest in crop science. It can indeed provide knowledge on the genetic bases of traits for crop improvement and germplasm diversity management. Apple is one of the most important fruit crops in temperate regions, having both great economic and cultural values. Sweet dessert apples are used for direct consumption, while bitter cider apples are used to produce cider. Several important traits are known to differentiate the two variety types, in particular fruit size, biennial versus annual fruit bearing, and bitterness, caused by a higher content in polyphenols. Here, we used an Illumina 8k SNP chip on two core collections, of 48 dessert and 48 cider apples, respectively, for identifying genomic regions responsible for the differences between cider and dessert apples. The genome-wide level of genetic differentiation between cider and dessert apples was low, although 17 candidate regions showed signatures of divergent selection, displaying either outlier FST values or significant association with phenotypic traits (bitter versus sweet fruits). These candidate regions encompassed 420 genes involved in a variety of functions and metabolic pathways, including several colocalizations with QTLs for polyphenol compounds.
Highlights
Domestication and variety diversification have been models for studying the mechanisms underlying adaptation since Darwin (1856), being the result of a strong and recent selection by humans for desired traits in organisms used as food (Meyer et al 2012; Larson and Burger 2013; McTavish et al 2013), ornaments (Yuan et al 2014), pets (Axelsson et al 2013), or for their metabolic abilities (Douglas and Klaenhammer 2010)
SNP genotyping After visually screening the 7867 SNPs of the International RosBREED SNP Consortium (IRSC) apple 8K SNP array v1 on GenomeStudio, a set of 4234 polymorphic SNPs evenly spread across the apple genome was obtained; after removing potential paralogous SNPs, the number of markers was reduced down to 3704
The question of sustainable management of germplasm resources is increasingly recognized as a fundamental goal to achieve in many crops
Summary
Domestication and variety diversification have been models for studying the mechanisms underlying adaptation since Darwin (1856), being the result of a strong and recent selection by humans for desired traits in organisms used as food (Meyer et al 2012; Larson and Burger 2013; McTavish et al 2013), ornaments (Yuan et al 2014), pets (Axelsson et al 2013), or for their metabolic abilities (Douglas and Klaenhammer 2010). Identifying the genomic regions involved may accelerate further improvement of traits controlling agricultural productivity and performance, such as yield, organoleptic or nutritional quality, and resistance to biotic and abiotic stresses, using marker-assisted selection (Soller 1994; Collard and Mackill 2008; Prada 2009). It may help conservation management programs aiming at maintaining important functional biodiversity in core collections as well as in wild relatives of crop species.
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