Diversity of fatty acid biosynthesis genes across the soybean pangenome

Derbyshire, Mark; Marsh, Jacob I.; Tirnaz, Soodeh; Nguyen, Henry T.; Batley, Jacqueline; Bayer, Philipp E.; Edwards, David

doi:10.1002/tpg2.20334

Cited by 6 publications

(1 citation statement)

References 94 publications

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“…Therefore, the pangenome concept extends beyond the gene-centric view to encompass the full expanse of the genomic landscape, including intergenic spaces and repetitive sequences, contributing to the genomic architecture by influencing gene expression and genetic diversity ( Fu and Dooner 2002 ). Research into pangenomes has underscored the critical role of these structural variations in influencing plant species’ environmental adaptability, evolution, and breeding potential by affecting genes associated with abiotic and biotic stress resistance, domestication, and agronomic traits ( Golicz, Bayer, et al 2016 ; Bayer, Valliyodan, et al 2022 ; Hu et al 2022 ; Derbyshire et al 2023 ).…”

Section: Introductionmentioning

confidence: 99%

Technological Development and Advances for Constructing and Analyzing Plant Pangenomes

Hu,

Li,

Zhao

et al. 2024

Genome Biology and Evolution

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A pangenome captures the genomic diversity for a species, derived from a collection of genetic sequences of diverse populations. Advances in sequencing technologies have given rise to three primary methods for pangenome construction and analysis: de novo assembly and comparison, reference genome-based iterative assembly and graph-based pangenome construction. Each method presents advantages and challenges in processing varying amounts and structures of DNA sequencing data. With the emergence of high-quality genome assemblies and advanced bioinformatics tools, the graph-based pangenome is emerging as an advanced reference for exploring the biological and functional implications of genetic variations.

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Section: Introductionmentioning

confidence: 99%

Technological Development and Advances for Constructing and Analyzing Plant Pangenomes

Hu,

Li,

Zhao

et al. 2024

Genome Biology and Evolution

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Four‐allele combinations for high oleic, low linolenic soybeans

Hudson,

Carrero‐Colón

2024

J Americ Oil Chem Soc

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Soybean oil accounts for approximately 29% of global oil consumption. The polyunsaturated linoleic and linolenic acids comprise more than 60% of commodity soybean oil, while oleic acid makes up 20%. To make a healthier soybean oil with improved stability for food uses, genetic approaches in soybean composition breeding target reducing levels of linoleic and linolenic acids while simultaneously increasing the oleic acid fraction. Quadruple mutants were constructed to evaluate the combinations of fatty acid desaturase2 (fad2) and fatty acid desaturase3 (fad3) mutant alleles to achieve a high oleic, low linolenic soybean oil profile. Over three growing seasons we observed that all four combinations resulted in oleic acid levels from 75% to 82%, and linolenic acid levels from 1.9% to 2.7%. No significant differences in seed total protein or oil levels were observed in the quadruple mutants, suggesting that these combinations will be useful for breeding soybean with improved oil profiles.

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