Uncovering candidate genes involved in photosynthetic capacity using unexplored genetic variation in Spring Wheat

Ryan Joynson; Gemma Molero; Benedict Coombes; Laura Jayne Gardiner; Carolina Rivera-Amado; Francisco J. Piñera-Chávez; John R. Evans; Robert T. Furbank; Matthew P. Reynolds; Anthony Hall

doi:10.1111/pbi.13568

Uncovering candidate genes involved in photosynthetic capacity using unexplored genetic variation in Spring Wheat

Ryan Joynson, Gemma Molero, Benedict Coombes, Laura Jayne Gardiner, Carolina Rivera-Amado, Francisco J. Piñera-Chávez, John R. Evans, Robert T. Furbank, Matthew P. Reynolds^*, Anthony Hall^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

To feed an ever-increasing population we must leverage advances in genomics and phenotyping to harness the variation in wheat breeding populations for traits like photosynthetic capacity which remains unoptimized. Here we survey a diverse set of wheat germplasm containing elite, introgression and synthetic derivative lines uncovering previously uncharacterized variation. We demonstrate how strategic integration of exotic material alleviates the D genome genetic bottleneck in wheat, increasing SNP rate by 62% largely due to Ae. tauschii synthetic wheat donors. Across the panel, 67% of the Ae. tauschii donor genome is represented as introgressions in elite backgrounds. We show how observed genetic variation together with hyperspectral reflectance data can be used to identify candidate genes for traits relating to photosynthetic capacity using association analysis. This demonstrates the value of genomic methods in uncovering hidden variation in wheat and how that variation can assist breeding efforts and increase our understanding of complex traits.

Original language	English
Pages (from-to)	1537-1552
Number of pages	16
Journal	Plant Biotechnology Journal
Volume	19
Issue number	8
DOIs	https://doi.org/10.1111/pbi.13568
Publication status	Published - Aug 2021

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10.1111/pbi.13568

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title = "Uncovering candidate genes involved in photosynthetic capacity using unexplored genetic variation in Spring Wheat",

abstract = "To feed an ever-increasing population we must leverage advances in genomics and phenotyping to harness the variation in wheat breeding populations for traits like photosynthetic capacity which remains unoptimized. Here we survey a diverse set of wheat germplasm containing elite, introgression and synthetic derivative lines uncovering previously uncharacterized variation. We demonstrate how strategic integration of exotic material alleviates the D genome genetic bottleneck in wheat, increasing SNP rate by 62% largely due to Ae. tauschii synthetic wheat donors. Across the panel, 67% of the Ae. tauschii donor genome is represented as introgressions in elite backgrounds. We show how observed genetic variation together with hyperspectral reflectance data can be used to identify candidate genes for traits relating to photosynthetic capacity using association analysis. This demonstrates the value of genomic methods in uncovering hidden variation in wheat and how that variation can assist breeding efforts and increase our understanding of complex traits.",

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note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.",

year = "2021",

month = aug,

doi = "10.1111/pbi.13568",

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AU - Molero, Gemma

AU - Coombes, Benedict

AU - Gardiner, Laura Jayne

AU - Rivera-Amado, Carolina

AU - Piñera-Chávez, Francisco J.

AU - Evans, John R.

AU - Furbank, Robert T.

AU - Reynolds, Matthew P.

AU - Hall, Anthony

PY - 2021/8

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N2 - To feed an ever-increasing population we must leverage advances in genomics and phenotyping to harness the variation in wheat breeding populations for traits like photosynthetic capacity which remains unoptimized. Here we survey a diverse set of wheat germplasm containing elite, introgression and synthetic derivative lines uncovering previously uncharacterized variation. We demonstrate how strategic integration of exotic material alleviates the D genome genetic bottleneck in wheat, increasing SNP rate by 62% largely due to Ae. tauschii synthetic wheat donors. Across the panel, 67% of the Ae. tauschii donor genome is represented as introgressions in elite backgrounds. We show how observed genetic variation together with hyperspectral reflectance data can be used to identify candidate genes for traits relating to photosynthetic capacity using association analysis. This demonstrates the value of genomic methods in uncovering hidden variation in wheat and how that variation can assist breeding efforts and increase our understanding of complex traits.

AB - To feed an ever-increasing population we must leverage advances in genomics and phenotyping to harness the variation in wheat breeding populations for traits like photosynthetic capacity which remains unoptimized. Here we survey a diverse set of wheat germplasm containing elite, introgression and synthetic derivative lines uncovering previously uncharacterized variation. We demonstrate how strategic integration of exotic material alleviates the D genome genetic bottleneck in wheat, increasing SNP rate by 62% largely due to Ae. tauschii synthetic wheat donors. Across the panel, 67% of the Ae. tauschii donor genome is represented as introgressions in elite backgrounds. We show how observed genetic variation together with hyperspectral reflectance data can be used to identify candidate genes for traits relating to photosynthetic capacity using association analysis. This demonstrates the value of genomic methods in uncovering hidden variation in wheat and how that variation can assist breeding efforts and increase our understanding of complex traits.

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Uncovering candidate genes involved in photosynthetic capacity using unexplored genetic variation in Spring Wheat

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