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Crit Rev Biotechnol


Title:"Exploring plant metabolic genomics: chemical diversity, metabolic complexity in the biosynthesis and transport of specialized metabolites with the tea plant as a model"
Author(s):Zhao J; Li P; Xia T; Wan X;
Address:"State Key Laboratory of Tea Plant Biology and Utilization, Anhui Agricultural University, Hefei, China"
Journal Title:Crit Rev Biotechnol
Year:2020
Volume:20200422
Issue:5
Page Number:667 - 688
DOI: 10.1080/07388551.2020.1752617
ISSN/ISBN:1549-7801 (Electronic) 0738-8551 (Linking)
Abstract:"The diversity and complexity of secondary metabolites in tea plants contribute substantially to the popularity of tea, by determining tea flavors and their numerous health benefits. The most significant characteristics of tea plants are that they concentrate the complex plant secondary metabolites into one leaf: flavonoids, alkaloids, theanine, volatiles, and saponins. Many fundamental questions regarding tea plant secondary metabolism remain unanswered. This includes how tea plants accumulate high levels of monomeric galloylated catechins, unlike the polymerized flavan-3-ols in most other plants, as well as how they are evolved to selectively synthesize theanine and caffeine, and how tea plants properly transport and store these cytotoxic products and then reuse them in defense. Tea plants coordinate many metabolic pathways that simultaneously take place in young tea leaves in response to both developmental and environmental cues. With the available genome sequences of tea plants and high-throughput metabolomic tools as great platforms, it is of particular interest to launch metabolic genomics studies using tea plants as a model system. Plant metabolic genomics are to investigate all aspects of plant secondary metabolism at the genetic, genome, and molecular levels. This includes plant domestication and adaptation, divergence and convergence of secondary metaboloic pathways. The biosynthesis, transport, storage, and transcriptional regulation mechanisms of all metabolites are of core interest in the plant as a whole. This review highlights relevant contexts of metabolic genomics, outstanding questions, and strategies for answering them, with aim to guide future research for genetic improvement of nutrition quality for healthier plant foods"
Keywords:"Caffeine/biosynthesis Camellia sinensis/chemistry/*genetics/*metabolism Catechin Flavonoids/biosynthesis Gene Expression Regulation, Plant *Genomics Glutamates/biosynthesis Metabolic Networks and Pathways Metabolomics Plant Leaves/genetics/metabolism Plan;"
Notes:"MedlineZhao, Jian Li, Penghui Xia, Tao Wan, Xiaochun eng Review England 2020/04/24 Crit Rev Biotechnol. 2020 Aug; 40(5):667-688. doi: 10.1080/07388551.2020.1752617. Epub 2020 Apr 22"

 
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