Wheat end-use quality: State of art, genetics, genomics-assisted improvement, future challenges, and opportunities

Madhav Subedi¹, Bikash Ghimire², John White Bagwell¹, James W Buck², Mohamed Mergoum³

Affiliations

¹ Institute of Plant Breeding, Genetics and Genomics, University of Georgia, Griffin Campus, Griffin, GA, United States.
² Department of Plant Pathology, University of Georgia, Griffin Campus, Griffin, GA, United States.
³ Department of Crop and Soil Sciences, University of Georgia, Griffin Campus, Griffin, GA, United States.

PMID: 36685944
PMCID: PMC9849398
DOI: 10.3389/fgene.2022.1032601

Review

Wheat end-use quality: State of art, genetics, genomics-assisted improvement, future challenges, and opportunities

Madhav Subedi et al. Front Genet. 2023.

. 2023 Jan 5:13:1032601.

doi: 10.3389/fgene.2022.1032601. eCollection 2022.

Authors

Madhav Subedi¹, Bikash Ghimire², John White Bagwell¹, James W Buck², Mohamed Mergoum³

Affiliations

¹ Institute of Plant Breeding, Genetics and Genomics, University of Georgia, Griffin Campus, Griffin, GA, United States.
² Department of Plant Pathology, University of Georgia, Griffin Campus, Griffin, GA, United States.
³ Department of Crop and Soil Sciences, University of Georgia, Griffin Campus, Griffin, GA, United States.

PMID: 36685944
PMCID: PMC9849398
DOI: 10.3389/fgene.2022.1032601

Abstract

Wheat is the most important source of food, feed, and nutrition for humans and livestock around the world. The expanding population has increasing demands for various wheat products with different quality attributes requiring the development of wheat cultivars that fulfills specific demands of end-users including millers and bakers in the international market. Therefore, wheat breeding programs continually strive to meet these quality standards by screening their improved breeding lines every year. However, the direct measurement of various end-use quality traits such as milling and baking qualities requires a large quantity of grain, traits-specific expensive instruments, time, and an expert workforce which limits the screening process. With the advancement of sequencing technologies, the study of the entire plant genome is possible, and genetic mapping techniques such as quantitative trait locus mapping and genome-wide association studies have enabled researchers to identify loci/genes associated with various end-use quality traits in wheat. Modern breeding techniques such as marker-assisted selection and genomic selection allow the utilization of these genomic resources for the prediction of quality attributes with high accuracy and efficiency which speeds up crop improvement and cultivar development endeavors. In addition, the candidate gene approach through functional as well as comparative genomics has facilitated the translation of the genomic information from several crop species including wild relatives to wheat. This review discusses the various end-use quality traits of wheat, their genetic control mechanisms, the use of genetics and genomics approaches for their improvement, and future challenges and opportunities for wheat breeding.

Keywords: candidate gene approach; end-use quality; genome-wide association study; genomic selection; genomics-assisted breeding; marker-assisted selection; quantitative trait locus mapping; translational genomics.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**FIGURE 1**
Schematic flow diagram showing the use of genomics-assisted breeding and translational genomics for improvement of end-use quality traits in wheat breeding program.

See this image and copyright information in PMC

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Wheat end-use quality: State of art, genetics, genomics-assisted improvement, future challenges, and opportunities

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Wheat end-use quality: State of art, genetics, genomics-assisted improvement, future challenges, and opportunities

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Conflict of interest statement

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