Abstract
Genetic maps are important tools in plant genomics and breeding. We report a large-scale discovery of single nucleotide polymorphisms (SNPs) using the specific length amplified fragment sequencing (SLAF-seq) technique for the construction of high-density genetic maps for two elite wine grape cultivars, ‘Chardonnay’ and ‘Beibinghong’, and their 130 F1 plants. A total of 372.53 M paired-end reads were obtained after preprocessing. The average sequencing depth was 33.81 for ‘Chardonnay’ (the female parent), 48.20 for ‘Beibinghong’ (the male parent), and 12.66 for the F1 offspring. We detected 202,349 high-quality SLAFs of which 144,972 were polymorphic; 10,042 SNPs were used to construct a genetic map that spanned 1,969.95 cM, with an average genetic distance of 0.23 cM between adjacent markers. This genetic map contains the largest molecular marker number of the grape maps so far reported. We thus demonstrate that SLAF-seq is a promising strategy for the construction of high-density genetic maps; the map that we report here is a good potential resource for QTL mapping of genes linked to major economic and agronomic traits, map-based cloning, and marker-assisted selection of grape.
Highlights
Grape (Vitis vinifera L., 2n = 38) is one of the most important perennial fruit vines worldwide, with a production of 74 million tons over a harvested area of 7 million ha in 2014 (FAO, http://faostat3.fao.org/browse/Q/QC/E)
A total of 372.53 M paired-end reads were generated for this grapevine population; of those 91.92% were high quality, which corresponds to a quality score of at least 30 (Q30)
The SLAF-seq technology has been used successfully to develop a large number of SLAF markers and for the construction of high-density
Summary
The consumption of table grapes and/or wine has proven to be greatly beneficial to human health [1,2,3,4], and the demand for high-quality grapes has increased considerably in recent years. Grape growth, yield, and quality are affected by various biotic and abiotic stresses. For grape breeders, it is important to identify methods for improving the quality characteristics and stress resistance of cultivated grapes. This optimization can be achieved by crossing different germplasms from domesticated or wild-type grapes that possess the desired superior traits [5]. The generation using conventional breeding methods of grape cultivars with the preferred traits requires
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