Whole genome resequencing and custom genotyping unveil clonal lineages in Malbec grapevines (Vitis vinifera L.)

CALDERÓN, LUCIANO; MAURI, N; MUÑOZ, CJ; CARBONELL BEJERANO, P; BREE, L; BERGAMIN, D; SOLA, C; GOMEZ TALQUENCA, S; ROYO, C; IBANEZ, J; MARTINEZ-ZAPATER, JM; LIJAVETZKY, D

Scientific Reports

Nature Publishing Group

Año: 2021

2045-2322

Grapevine cultivars are clonally propagated to preserve their varietal attributes. However, genetic variations accumulate due to the occurrence of somatic mutations. This process is anthropically influenced through plant transportation, clonal propagation and clonal selection. Malbec is a cultivar that is well-appreciated for the elaboration of red wine. It originated in Southwestern France and was introduced in Argentina during the 1850s. In order to study the clonal genetic diversity of Malbec grapevines, we generated whole-genome resequencing data for four accessions with different clonal propagation records. A stringent variant calling procedure was established to identify reliable polymorphisms among the analyzed accessions. The latter procedure allowed retrieving 941 single nucleotide variants (SNVs). A reduced set of the detected SNVs was corroborated through Sanger sequencing, and employed to custom-design a genotyping experiment. We successfully genotyped 214 Malbec accessions using 41 SNVs, and identified 14 genotypes that clustered in two genetically divergent clonal lineages. These lineages were associated with the time span of clonal propagation of the analyzed accessions in Argentina and Europe. Our results show the potential usefulness of these approaches for the study of the scarce intra-cultivar genetic diversity in grapevines. We also provide evidence on how human actions might have driven the accumulation of different somatic mutations, ultimately shaping the Malbec genetic diversity pattern.