Recent advances in faba bean genetic and genomic tools for crop improvement

Hamid Khazaei; Donal M. O'Sullivan; Frederick L. Stoddard; Kedar N. Adhikari; Jeffrey G. Paull; Alan H. Schulman; Stig U. Andersen; Albert Vandenberg

doi:10.1002/leg3.75

Legume Science (Sep 2021)

Recent advances in faba bean genetic and genomic tools for crop improvement

Hamid Khazaei,
Donal M. O'Sullivan,
Frederick L. Stoddard,
Kedar N. Adhikari,
Jeffrey G. Paull,
Alan H. Schulman,
Stig U. Andersen,
Albert Vandenberg

Affiliations

Hamid Khazaei: Department of Plant Sciences University of Saskatchewan Saskatoon Saskatchewan Canada
Donal M. O'Sullivan: School of Agriculture, Policy and Development University of Reading Reading UK
Frederick L. Stoddard: Department of Agricultural Sciences, Viikki Plant Science Centre, and Helsinki Sustainability Science Centre University of Helsinki Helsinki Finland
Kedar N. Adhikari: Plant Breeding Institute, Faculty of Science The University of Sydney Narrabri New South Wales Australia
Jeffrey G. Paull: School of Agriculture, Food and Wine The University of Adelaide Adelaide South Australia Australia
Alan H. Schulman: Production Systems Natural Resources Institute Finland (Luke) Helsinki Finland
Stig U. Andersen: Department of Molecular Biology and Genetics Aarhus University Aarhus Denmark
Albert Vandenberg: Department of Plant Sciences University of Saskatchewan Saskatoon Saskatchewan Canada

DOI: https://doi.org/10.1002/leg3.75
Journal volume & issue: Vol. 3, no. 3
pp. n/a – n/a

Abstract

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Abstract Faba bean (Vicia faba L.), a member of the Fabaceae family, is one of the important food legumes cultivated in cool temperate regions. It holds great importance for human consumption and livestock feed because of its high protein content, dietary fibre, and nutritional value. Major faba bean breeding challenges include its mixed breeding system, unknown wild progenitor, and genome size of ~13 Gb, which is the largest among diploid field crops. The key breeding objectives in faba bean include improved resistance to biotic and abiotic stress and enhanced seed quality traits. Regarding quality traits, major progress on reduction of vicine‐convicine and seed coat tannins, the main anti‐nutritional factors limiting faba bean seed usage, have been recently achieved through gene discovery. Genomic resources are relatively less advanced compared with other grain legume species, but significant improvements are underway due to a recent increase in research activities. A number of bi‐parental populations have been constructed and mapped for targeted traits in the last decade. Faba bean now benefits from saturated synteny‐based genetic maps, along with next‐generation sequencing and high‐throughput genotyping technologies that are paving the way for marker‐assisted selection. Developing a reference genome, and ultimately a pan‐genome, will provide a foundational resource for molecular breeding. In this review, we cover the recent development and deployment of genomic tools for faba bean breeding.

Published in Legume Science

ISSN: 2639-6181 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Agriculture: Plant culture
Website: https://onlinelibrary.wiley.com/journal/26396181

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