To understand and engineer plant metabolism, we need a comprehensive and accurate annotation of all metabolic information across plant species. As a step towards this goal, we generated genome-scale metabolic pathway databases of 126 algal and plant genomes, ranging from model organisms to crops to medicinal plants (https://plantcyc.org). Of these, 104 have not been reported before. We systematically evaluated the quality of the databases, which revealed that our semi-automated validation pipeline dramatically improves the quality. We then compared the metabolic content across the 126 organisms using multiple correspondence analysis and found that Brassicaceae, Poaceae, and Chlorophyta appeared as metabolically distinct groups. To demonstra...
Plants display enormous diversity in their metabolism. Although the biosynthesis and function of the...
Investigating the evolution of plant biochemistry is challenging because few metabolites are preserv...
Recent advances in genome sequencing technology have enabled the elucidation of complete genome sequ...
To understand and engineer plant metabolism, we need a comprehensive and accurate annotation of all ...
Plant metabolism underpins many traits of ecological and agronomic importance. Plants produce numero...
Background: Genome-scale metabolic reconstructions have been recognised as a valuable tool for a var...
Metabolic genome-wide association studies (mGWAS), whereupon metabolite levels are regarded as trait...
A better understanding of the genetic and metabolic mechanisms that confer stress resistance and tol...
There is a growing demand for genome-scale metabolic reconstructions for plants, fueled by the need ...
The increasing number of sequenced plant genomes is placing new demands on the methods applied to an...
Abstract Background Sequencing of the first plant gen...
Genome-scale metabolic network models have been successfully used to describe metabolism in a variet...
Plant metabolism research has experienced a second golden age resulting from synergies between genom...
202 pagesTwo of the major bottlenecks that currently hinder the study of plant specialized metabolis...
Analysis of complex traits like plant specialized metabolism is a difficult task in non-model system...
Plants display enormous diversity in their metabolism. Although the biosynthesis and function of the...
Investigating the evolution of plant biochemistry is challenging because few metabolites are preserv...
Recent advances in genome sequencing technology have enabled the elucidation of complete genome sequ...
To understand and engineer plant metabolism, we need a comprehensive and accurate annotation of all ...
Plant metabolism underpins many traits of ecological and agronomic importance. Plants produce numero...
Background: Genome-scale metabolic reconstructions have been recognised as a valuable tool for a var...
Metabolic genome-wide association studies (mGWAS), whereupon metabolite levels are regarded as trait...
A better understanding of the genetic and metabolic mechanisms that confer stress resistance and tol...
There is a growing demand for genome-scale metabolic reconstructions for plants, fueled by the need ...
The increasing number of sequenced plant genomes is placing new demands on the methods applied to an...
Abstract Background Sequencing of the first plant gen...
Genome-scale metabolic network models have been successfully used to describe metabolism in a variet...
Plant metabolism research has experienced a second golden age resulting from synergies between genom...
202 pagesTwo of the major bottlenecks that currently hinder the study of plant specialized metabolis...
Analysis of complex traits like plant specialized metabolism is a difficult task in non-model system...
Plants display enormous diversity in their metabolism. Although the biosynthesis and function of the...
Investigating the evolution of plant biochemistry is challenging because few metabolites are preserv...
Recent advances in genome sequencing technology have enabled the elucidation of complete genome sequ...