Dissecting the trade-off of grain number and size in wheat

Main conclusion Principal component and meta-QTL analyses identified genetic loci affecting the trade-off of wheat grain number and size, which could provide opportunities to optimize local breeding strategies for further yield improvement. Grain yield of wheat is complex, and its physiological and...

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Bibliographic Details
Published in:Planta 2021-07, Vol.254 (1), p.3-3, Article 3
Main Authors: Xie, Quan, Sparkes, Debbie L.
Format: Article
Language:English
Subjects:
ADP glucose pyrophosphorylase
AGP2 gene
Agriculture
Biomedical and Life Sciences
Chromosome Mapping
Chromosomes
Crop yield
Ecology
Edible Grain - genetics
Forestry
Gene mapping
Genetic analysis
Grain
Haplotypes
Inbreeding
Life Sciences
Original Article
Phenotype
Phenotypic variations
Plant Breeding
Plant Sciences
Quantitative trait loci
Quantitative Trait Loci - genetics
Spikes
Tradeoffs
Triticum - genetics
Wheat
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Summary:Main conclusion Principal component and meta-QTL analyses identified genetic loci affecting the trade-off of wheat grain number and size, which could provide opportunities to optimize local breeding strategies for further yield improvement. Grain yield of wheat is complex, and its physiological and genetic bases remain largely unknown. Using the Forno/Oberkulmer recombinant inbred lines, this study validated the negative phenotypic relationships between thousand grain weight (TGW) and grain number components. This trade-off might be alleviated at the population level by early anthesis and at the shoot level by higher shoot biomass. Principal component (PC) analysis revealed three useful PCs, of which both PC1 and PC3 were positively associated with grain yield and grains m −2 through increased spikes m −2 (for PC1) or grains per spike (for PC3), while PC2 primarily reflected the trade-off of grain number and TGW. Quantitative trait locus (QTL) mapping detected eight and seven loci for PC1 and PC2, respectively, on chromosomes 1D, 2A, 3A, 3B, 4A, 4B, 5A and 7B, individually explaining 11.7‒29.3% of phenotypic variations. Using the 1203 QTLs published previously, a meta-analysis was performed to reveal 12, 21, 37 and 54 genomic regions (MQTLs) affecting grains m −2 , spikes m −2 , grains per spike and TGW, respectively. Moreover, 67 MQTLs (96%) for grain number were coincided with the TGW MQTLs, with reverse phenotypic effects, suggesting intensive genetic trade-off between grain number and size. The AGP2 gene, which encodes ADP-glucose pyrophosphorylase determining TGW, was found by haplotype analysis in the Forno/Oberkulmer population to affect grain number oppositely, indicating this trade-off at the gene level. Appropriate combinations of the QTLs/genes for local breeding targets, such as higher grain number or larger grains, therefore, would be critical to achieve future yield gains.
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-021-03658-5