BraLTP1 is an important member of lipid transfer protein family in Brassica napus.The aim of current study was to detect, classify and follow variations in metabolite profiling of B. napus with overexpression of BraLT...BraLTP1 is an important member of lipid transfer protein family in Brassica napus.The aim of current study was to detect, classify and follow variations in metabolite profiling of B. napus with overexpression of BraLTP1. In this study, metabolic change in leaves of BraLTP1-overexpressing B. napus plants (BraLTP1-22) and negative control (BraLTP1-22N) was investigated using nuclear magnetic resonance (NMR). Statistical strategy of principle component analysis (PCA) was performed to identify related difference metabolites. PCA score plots indicated not only high reproducibility of various treatments, but also significant difference of metabolite levels between different treatments. PCA loading plots indicated main responsible metabolites and a total of 50 metabolites were quantitatively determined. A wide range of metabolites were detected due to BraLTP1 overexpression,including biosynthesis and metabolism of sugars, amino acids, ammoniums compounds and organic acids. Furthermore, concentrations of 17 amino acids were determined for other set of samples by amino acids component analysis assay. The link between metabolite variations and phenotype were also discussed in BraLTP1-overexpressing B. napus.This work will help to gain insight into BraLTP1 function in B. napus in metabolism.展开更多
基金supported by Central Public-interest Scientific Institution Basal Research FundMajor Research Project of CAAS Science and the Technology Innovation Program+1 种基金National Natural Science Foundation of China (31400243)Natural Science Foundation of Hubei Province (ZRMS2016000076)
文摘BraLTP1 is an important member of lipid transfer protein family in Brassica napus.The aim of current study was to detect, classify and follow variations in metabolite profiling of B. napus with overexpression of BraLTP1. In this study, metabolic change in leaves of BraLTP1-overexpressing B. napus plants (BraLTP1-22) and negative control (BraLTP1-22N) was investigated using nuclear magnetic resonance (NMR). Statistical strategy of principle component analysis (PCA) was performed to identify related difference metabolites. PCA score plots indicated not only high reproducibility of various treatments, but also significant difference of metabolite levels between different treatments. PCA loading plots indicated main responsible metabolites and a total of 50 metabolites were quantitatively determined. A wide range of metabolites were detected due to BraLTP1 overexpression,including biosynthesis and metabolism of sugars, amino acids, ammoniums compounds and organic acids. Furthermore, concentrations of 17 amino acids were determined for other set of samples by amino acids component analysis assay. The link between metabolite variations and phenotype were also discussed in BraLTP1-overexpressing B. napus.This work will help to gain insight into BraLTP1 function in B. napus in metabolism.
