Jie Chen scite author profile

SummaryThe marriage of metabolomic approaches with genetic design has proven a powerful tool in dissecting diversity in the metabolome and has additionally enhanced our understanding of complex traits. That said, such studies have rarely been carried out in wheat. In this study, we detected 805 metabolites from wheat kernels and profiled their relative contents among 182 wheat accessions, conducting a metabolite‐based genome‐wide association study (mGWAS) utilizing 14 646 previously described polymorphic SNP markers. A total of 1098 mGWAS associations were detected with large effects, within which 26 candidate genes were tentatively designated for 42 loci. Enzymatic assay of two candidates indicated they could catalyse glucosylation and subsequent malonylation of various flavonoids and thereby the major flavonoid decoration pathway of wheat kernel was dissected. Moreover, numerous high‐confidence genes associated with metabolite contents have been provided, as well as more subdivided metabolite networks which are yet to be explored within our data. These combined efforts presented the first step towards realizing metabolomics‐associated breeding of wheat.

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Prediction of room temperature and relative humidity by autoregressive linear and nonlinear neural network models for an open office

Mustafaraj

Lowry

Chen

2011

Energy and Buildings

159

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Jie Chen

Design of unknown input observers and robust fault detection filters

Observer-based fault detection and isolation: Robustness and applications

Optimal filtering and robust fault diagnosis of stochastic systems with unknown disturbances

Metabolite‐based genome‐wide association study enables dissection of the flavonoid decoration pathway of wheat kernels

Prediction of room temperature and relative humidity by autoregressive linear and nonlinear neural network models for an open office

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