Next generation sequencing has revolutionized plant biology.Not only has our understanding of plant metabolism advanced using model systems and modern chromatography,but application of‘omics’-based technology has be...Next generation sequencing has revolutionized plant biology.Not only has our understanding of plant metabolism advanced using model systems and modern chromatography,but application of‘omics’-based technology has been widely extended to non-model systems as costs have plummeted and efficiency increased.As a result,important fundamental questions relating to important horticultural crops are being answered,and novel approaches with application to industry are in progress.Here we review recent research advances on development and ripening of fruit crops,how next generation sequencing approaches are driving this advance and the emerging future landscape.展开更多
基金by grants from,NSF Plant Genome Research Program,USDA-ARS and Federal Formula Funds project NE1336.
文摘Next generation sequencing has revolutionized plant biology.Not only has our understanding of plant metabolism advanced using model systems and modern chromatography,but application of‘omics’-based technology has been widely extended to non-model systems as costs have plummeted and efficiency increased.As a result,important fundamental questions relating to important horticultural crops are being answered,and novel approaches with application to industry are in progress.Here we review recent research advances on development and ripening of fruit crops,how next generation sequencing approaches are driving this advance and the emerging future landscape.
