Genotyping-by-sequencing targets genic regions and improves resolution of genome-wide association studies in autotetraploid potato

Sharma, Sanjeev Kumar; McLean, Karen; Hedley, Peter E.; Dale, Finlay; Daniels, Steve; Bryan, Glenn J.

doi:10.1007/s00122-024-04651-8

Theor Appl Genet

2024

DOI: 10.1007/s00122-024-04651-8

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Genotyping-by-sequencing targets genic regions and improves resolution of genome-wide association studies in autotetraploid potato

Sanjeev Kumar Sharma,

Karen McLean,

Peter E. Hedley

et al.

Abstract: Key message De novo genotyping in potato using methylation-sensitive GBS discovers SNPs largely confined to genic or gene-associated regions and displays enhanced effectiveness in estimating LD decay rates, population structure and detecting GWAS associations over ‘fixed’ SNP genotyping platform. Study also reports the genetic architectures including robust sequence-tagged marker–trait associations for sixteen important potato traits potentially carrying higher transferability across a wider ra… Show more

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Cited by 4 publications

References 120 publications

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Construction of relatedness matrices in autopolyploid populations using low-depth high-throughput sequencing data

Bilton,

Sharma,

Schofield

et al. 2024

Theor Appl Genet

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Key message An improved estimator of genomic relatedness using low-depth high-throughput sequencing data for autopolyploids is developed. Its outputs strongly correlate with SNP array-based estimates and are available in the package GUSrelate. Abstract High-throughput sequencing (HTS) methods have reduced sequencing costs and resources compared to array-based tools, facilitating the investigation of many non-model polyploid species. One important quantity that can be computed from HTS data is the genetic relatedness between all individuals in a population. However, HTS data are often messy, with multiple sources of errors (i.e. sequencing errors or missing parental alleles) which, if not accounted for, can lead to bias in genomic relatedness estimates. We derive a new estimator for constructing a genomic relationship matrix (GRM) from HTS data for autopolyploid species that accounts for errors associated with low sequencing depths, implemented in the R package GUSrelate. Simulations revealed that GUSrelate performed similarly to existing GRM methods at high depth but reduced bias in self-relatedness estimates when the sequencing depth was low. Using a panel consisting of 351 tetraploid potato genotypes, we found that GUSrelate produced GRMs from genotyping-by-sequencing (GBS) data that were highly correlated with a GRM computed from SNP array data, and less biased than existing methods when benchmarking against the array-based GRM estimates. GUSrelate provides researchers with a tool to reliably construct GRMs from low-depth HTS data.

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Construction of relatedness matrices in autopolyploid populations using low-depth high-throughput sequencing data

Bilton,

Sharma,

Schofield

et al. 2024

Theor Appl Genet

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Identification of heat stress-related genomic regions by genome-wide association study in Solanum tuberosum

Kaier,

Beck,

Ingold

et al. 2024

Genomics

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A genomic dataset integrating genotyping-by-sequencing, SolCAP array and PCR marker data on tetraploid potato advanced breeding lines

Leuenberger,

Sharma,

McLean

et al. 2024

Front. Plant Sci.

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Developing new potato varieties with enhanced resistance to diseases and pests is essential for ensuring food security and promoting sustainable agricultural production. INRAE has been creating potato advanced breeding lines for over 50 years by crossing different wild potato species with Solanum tuberosum to improve various traits, such as resistance to major pests and diseases or quality traits. These breeding lines have been distributed to French potato breeders, contributing significantly to the development of more resilient potato varieties. However, further research progress is needed to breed durable multi-resistant potato varieties adapted to low-input (mainly pesticides and fertilizer) agriculture. Molecular markers can effectively assist in pyramiding multiple loci for resistance (Pilet-Nayel et al., 2017) to major diseases and pests of potato, such as late blight disease, cyst nematodes, and viruses, while preserving the agronomic and quality values of varieties.The development of genomics and the evolution of sequencing methods in the last decade have facilitated the identification of a large number of SNPs (Single Nucleotide polymorphism) from sequencing data. SNPs discovered using EST (Expressed Sequence Tag) or transcriptome data from six potato varieties were used to construct the widely used Infinium 8K SNP SolCAP array (Hamilton et al., 2011; Felcher et al., 2012). However, this genotyping method may display ascertainment bias especially for germplasm containing Frontiers in Plant Science frontiersin.org 01

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Genotyping-by-sequencing targets genic regions and improves resolution of genome-wide association studies in autotetraploid potato

Cited by 4 publications

References 120 publications

Construction of relatedness matrices in autopolyploid populations using low-depth high-throughput sequencing data

Construction of relatedness matrices in autopolyploid populations using low-depth high-throughput sequencing data

Identification of heat stress-related genomic regions by genome-wide association study in Solanum tuberosum

A genomic dataset integrating genotyping-by-sequencing, SolCAP array and PCR marker data on tetraploid potato advanced breeding lines

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