Impact of genotype‐calling methodologies on genome‐wide association and genomic prediction in polyploids

Njuguna, Joyce N.; Clark, Lindsay V.; Lipka, Alexander E.; Anzoua, Kossonou G.; Bagmet, Larisa; Chebukin, Pavel; Dwiyanti, Maria S.; Dzyubenko, Elena; Dzyubenko, Nicolay; Ghimire, Bimal Kumar; Jin, Xiaoli; Johnson, Douglas A.; Kjeldsen, Jens Bonderup; Nagano, Hironori; de Bem Oliveira, Ivone; Peng, Junhua; Petersen, Karen Koefoed; Sabitov, Andrey; Seong, Eun Soo; Yamada, Toshihiko; Yoo, Ji Hye; Yu, Chang Yeon; Zhao, Hua; Munoz, Patricio; Long, Stephen P.; Sacks, Erik J.

doi:10.1002/tpg2.20401

The Plant Genome

2023

DOI: 10.1002/tpg2.20401

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Impact of genotype‐calling methodologies on genome‐wide association and genomic prediction in polyploids

Joyce N. Njuguna,

Lindsay V. Clark,

Alexander E. Lipka

et al.

Abstract: Discovery and analysis of genetic variants underlying agriculturally important traits are key to molecular breeding of crops. Reduced representation approaches have provided cost‐efficient genotyping using next‐generation sequencing. However, accurate genotype calling from next‐generation sequencing data is challenging, particularly in polyploid species due to their genome complexity. Recently developed Bayesian statistical methods implemented in available software packages, polyRAD, EBG, and updog, incorporat… Show more

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Variant calling in polyploids for population and quantitative genetics

Phillips

2024

Appl Plant Sci

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Advancements in genome assembly and sequencing technology have made whole genome sequence (WGS) data and reference genomes accessible to study polyploid species. Compared to popular reduced‐representation sequencing approaches, the genome‐wide coverage and greater marker density provided by WGS data can greatly improve our understanding of polyploid species and polyploid biology. However, biological features that make polyploid species interesting also pose challenges in read mapping, variant identification, and genotype estimation. Accounting for characteristics in variant calling like allelic dosage uncertainty, homology between subgenomes, and variance in chromosome inheritance mode can reduce errors. Here, I discuss the challenges of variant calling in polyploid WGS data and discuss where potential solutions can be integrated into a standard variant calling pipeline.

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Variant calling in polyploids for population and quantitative genetics

Phillips

2024

Appl Plant Sci

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A low-cost dpMIG-seq method for elucidating complex inheritance in polysomic crops: a case study in tetraploid blueberry

Nagasaka,

Nishimura,

Motoki

et al. 2024

Horticulture Research

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Next-generation sequencing (NGS) library construction often requires high-quality DNA extraction, precise adjustment of DNA concentration, and restriction enzyme digestion to reduce genome complexity, which results in increased time and cost in sample preparation and processing. To address these challenges, a PCR-based method for rapid NGS library preparation, named dpMIG-seq, has been developed and proven effective for high-throughput genotyping. However, the application of dpMIG-seq has been limited to diploid and polyploid species with disomic inheritance. In this study, we obtained genome-wide single nucleotide polymorphism (SNP) markers for tetraploid blueberry to evaluate genotyping and downstream analysis outcomes. Comparison of genotyping qualities inferred across samples with different DNA concentrations and multiple bioinformatics approaches revealed high accuracy and reproducibility of dpMIG-seq-based genotyping, with Pearson's correlation coefficients between replicates in the range of 0.91 to 0.98. Furthermore, we demonstrated that dpMIG-seq enables accurate genotyping of samples with low DNA concentrations. Subsequently, we applied dpMIG-seq to a tetraploid F1 population to examine the inheritance probability of parental alleles. Pairing configuration analysis supported the random meiotic pairing of homologous chromosomes on a genome-wide level. On the other hand, preferential pairing was observed on chr-11, suggesting that there may be an exception to the random pairing. Genotypic data suggested quadrivalent formation within the population, although the frequency of quadrivalent formation varied by chromosome and cultivar. Collectively, the results confirmed applicability of dpMIG-seq for allele dosage genotyping and are expected to catalyze the adoption of this cost-effective and rapid genotyping technology in polyploid studies.

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Impact of genotype‐calling methodologies on genome‐wide association and genomic prediction in polyploids

Cited by 2 publications

References 82 publications

Variant calling in polyploids for population and quantitative genetics

Variant calling in polyploids for population and quantitative genetics

A low-cost dpMIG-seq method for elucidating complex inheritance in polysomic crops: a case study in tetraploid blueberry

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