Identification of grapevine clones via high-throughput amplicon sequencing: a proof-of-concept study

Urra, Claudio; Sanhueza, Dayán; Pavez, Catalina; Tapia, Patricio; Núñez-Lillo, Gerardo; Minio, Andrea; Miossec, Matthieu J.; Blanco‐Herrera, Francisca; Gainza, Felipe; Castro, Álvaro; Meneses, Claudio

doi:10.1093/g3journal/jkad145

G3: Genes, Genomes, Genetics

2023

DOI: 10.1093/g3journal/jkad145

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Identification of grapevine clones via high-throughput amplicon sequencing: a proof-of-concept study

Claudio Urra

Dayán Sanhueza

Catalina Pavez

et al.

Abstract: Wine cultivars are available to growers in multiple clonal selections with agronomic and enological differences. Phenotypic differences between clones originated from somatic mutations that accrued over thousands of asexual propagation cycles. Genetic diversity between grape cultivars remains unexplored, and tools to discriminate unequivocally clones have been lacking. This study aimed to uncover genetic variations among a group of clonal selections of four important Vitis vinifera cultivars: Cabernet sauvigno… Show more

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2024

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From buds to shoots: insights into grapevine development from the Witch’s Broom bud sport

Ritter,

Cousins,

Quigley

et al. 2024

BMC Plant Biol

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Background Bud sports occur spontaneously in plants when new growth exhibits a distinct phenotype from the rest of the parent plant. The Witch’s Broom bud sport occurs occasionally in various grapevine (Vitis vinifera) varieties and displays a suite of developmental defects, including dwarf features and reduced fertility. While it is highly detrimental for grapevine growers, it also serves as a useful tool for studying grapevine development. We used the Witch’s Broom bud sport in grapevine to understand the developmental trajectories of the bud sports, as well as the potential genetic basis. We analyzed the phenotypes of two independent cases of the Witch’s Broom bud sport, in the Dakapo and Merlot varieties of grapevine, alongside wild type counterparts. To do so, we quantified various shoot traits, performed 3D X-ray Computed Tomography on dormant buds, and landmarked leaves from the samples. We also performed Illumina and Oxford Nanopore sequencing on the samples and called genetic variants using these sequencing datasets. Results The Dakapo and Merlot cases of Witch’s Broom displayed severe developmental defects, with no fruit/clusters formed and dwarf vegetative features. However, the Dakapo and Merlot cases of Witch’s Broom studied were also phenotypically different from one another, with distinct differences in bud and leaf development. We identified 968–974 unique genetic mutations in our two Witch’s Broom cases that are potential causal variants of the bud sports. Examining gene function and validating these genetic candidates through PCR and Sanger-sequencing revealed one strong candidate mutation in Merlot Witch’s Broom impacting the gene GSVIVG01008260001. Conclusions The Witch’s Broom bud sports in both varieties studied had dwarf phenotypes, but the two instances studied were also vastly different from one another and likely have distinct genetic bases. Future work on Witch’s Broom bud sports in grapevine could provide more insight into development and the genetic pathways involved in grapevine.

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From buds to shoots: insights into grapevine development from the Witch’s Broom bud sport

Ritter,

Cousins,

Quigley

et al. 2024

BMC Plant Biol

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Exploring Genomic Differences between a Pair of Vitis vinifera Clones Using WGS Data: A Preliminary Study

Araya-Ortega,

Gainza-Cortés,

Riadi

2024

Horticulturae

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The differentiation of clones within grape cultivars, specifically Vitis vinifera, has significant potential for the wine industry. This differentiation involves associating morphological features or a genetic signature with a particular cultivar clone, which is a challenging task. It has been difficult to experimentally find genetic signatures that differentiate a pair of clones, despite evidence suggesting that genomic differences exist. Are there genetic or genomic differences in a pair of clones? If so, where are the variations in the genome? Are there variations in protein coding genes? We addressed these questions by performing a bioinformatic analysis to identify genetic differences between certified clones of the same cultivar. Utilising genome sequencing data from tissue samples, we identified genomic positions differing between the clones and their cultivar reference genome, meeting the filtering criteria. Applying this approach to the Carménère and Merlot clones resulted in 5718 and 5218 variations, respectively, that differentiated the clones. Visual validation of 50 variations per cultivar revealed that 12% of these variations were located in the Merlot genes, while 32% were found in the Carménère genes. We estimated between 600 and 1000 variations per cultivar that could be validated by visual inspection. Despite the presence of these variations within genes, none was found to have a disruptive effect on protein function. By comparing our results with those of previous studies, we discuss issues pertaining to clone differentiation. In conclusion, there are genomic variations in pairs of clones that allow for their differentiation, though the variations are not directly related to the phenotype.

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Identification of grapevine clones via high-throughput amplicon sequencing: a proof-of-concept study

Cited by 2 publications

References 53 publications

From buds to shoots: insights into grapevine development from the Witch’s Broom bud sport

From buds to shoots: insights into grapevine development from the Witch’s Broom bud sport

Exploring Genomic Differences between a Pair of Vitis vinifera Clones Using WGS Data: A Preliminary Study

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