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The genetic architecture of the dynamic changes in grain moisture in maize

Wenqiang Li, Yanhui Yu, Luxi Wang, Yun Luo, Yong Peng, Yuancheng Xu, Xiangguo Liu, Shenshen Wu, Liumei Jian, Jieting Xu, Yingjie Xiao, Jianbing Yan

2021Plant Biotechnology Journal87 citationsDOIOpen Access PDF

Abstract

Low grain moisture at harvest is crucial for safe production, transport and storage, but the genetic architecture of this trait in maize (Zea mays) remains elusive. Here, we measured the dynamic changes in grain moisture content in an association-mapping panel of 513 diverse maize inbred lines at five successive stages across five geographical environments. Genome-wide association study (GWAS) revealed 71 quantitative trait loci (QTLs) that influence grain moisture in maize. Epistatic effects play vital roles in the variability in moisture levels, even outperforming main-effect QTLs during the early dry-down stages. Distinct QTL-environment interactions influence the spatio-temporal variability of maize grain moisture, which is primarily triggered at specific times. By combining genetic population analysis, transcriptomic profiling and gene editing, we identified GRMZM5G805627 and GRMZM2G137211 as candidate genes underlying major QTLs for grain moisture in maize. Our results provide insights into the genetic architecture of dynamic changes in grain moisture, which should facilitate maize breeding.

Topics & Concepts

Genetic architectureBiologyQuantitative trait locusEpistasisAgronomyInbred strainCandidate geneTraitPopulationMoistureGenome-wide association studyGeneGeneticsSingle-nucleotide polymorphismGenotypeMaterials scienceDemographySociologyComputer scienceProgramming languageComposite materialGenetic Mapping and Diversity in Plants and AnimalsGenetics and Plant BreedingWheat and Barley Genetics and Pathology
The genetic architecture of the dynamic changes in grain moisture in maize | Litcius