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Metabolome-based genome-wide association study of maize kernel leads to novel biochemical insights.


ABSTRACT: Plants produce a variety of metabolites that have a critical role in growth and development. Here we present a comprehensive study of maize metabolism, combining genetic, metabolite and expression profiling methodologies to dissect the genetic basis of metabolic diversity in maize kernels. We quantify 983 metabolite features in 702 maize genotypes planted at multiple locations. We identify 1,459 significant locus-trait associations (P?1.8 × 10(-6)) across three environments through metabolite-based genome-wide association mapping. Most (58.5%) of the identified loci are supported by expression QTLs, and some (14.7%) are validated through linkage mapping. Re-sequencing and candidate gene association analysis identifies potential causal variants for five candidate genes involved in metabolic traits. Two of these genes were further validated by mutant and transgenic analysis. Metabolite features associated with kernel weight could be used as biomarkers to facilitate genetic improvement of maize.

SUBMITTER: Wen W 

PROVIDER: S-EPMC3959190 | biostudies-literature | 2014

REPOSITORIES: biostudies-literature

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Metabolome-based genome-wide association study of maize kernel leads to novel biochemical insights.

Wen Weiwei W   Li Dong D   Li Xiang X   Gao Yanqiang Y   Li Wenqiang W   Li Huihui H   Liu Jie J   Liu Haijun H   Chen Wei W   Luo Jie J   Yan Jianbing J  

Nature communications 20140317


Plants produce a variety of metabolites that have a critical role in growth and development. Here we present a comprehensive study of maize metabolism, combining genetic, metabolite and expression profiling methodologies to dissect the genetic basis of metabolic diversity in maize kernels. We quantify 983 metabolite features in 702 maize genotypes planted at multiple locations. We identify 1,459 significant locus-trait associations (P≤1.8 × 10(-6)) across three environments through metabolite-ba  ...[more]

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