毛状体尖端:茄科酰基糖代谢多样性的进化。
Tip of the trichome: evolution of acylsugar metabolic diversity in Solanaceae.
机构信息
Department of Biochemistry and Molecular Biology, Michigan State University, East Lansing, MI 48824, USA.
Department of Plant Biology, Michigan State University, East Lansing, MI 48824, USA.
出版信息
Curr Opin Plant Biol. 2019 Jun;49:8-16. doi: 10.1016/j.pbi.2019.03.005. Epub 2019 Apr 19.
Abstract
Acylsugars are insecticidal plant specialized metabolites produced in the Solanaceae (nightshade family). Despite having simple constituents, these compounds are unusually structurally diverse. Their structural variations in phylogenetically closely related species enable comparative biochemical approaches to understand acylsugar biosynthesis and pathway diversification. Thus far, varied enzyme classes contributing to their synthesis were characterized in cultivated and wild tomatoes, including from core metabolism - isopropylmalate synthase (Leu) and invertase (carbon) - and a group of evolutionarily related BAHD acyltransferases known as acylsucrose acyltransferases. Gene duplication and neofunctionalization of these enzymes drove acylsugar diversification both within and beyond tomato. The broad set of evolutionary mechanisms underlying acylsugar diversity in Solanaceae make this metabolic network an exemplar for detailed understanding of the evolution of metabolic form and function.
摘要
酰基糖是茄科(茄科)中产生的杀虫植物特异性代谢物。尽管这些化合物的组成很简单,但它们的结构却非常多样。在系统发育上密切相关的物种中,它们结构的变化使比较生物化学方法能够用于理解酰基糖的生物合成和途径多样化。到目前为止,在栽培和野生番茄中,包括来自核心代谢的异丙基苹果酸合酶(Leu)和转化酶(碳),以及一组被称为酰基蔗糖酰基转移酶的进化上相关的 BAHD 酰基转移酶,都已鉴定出参与其合成的各种酶类。这些酶的基因复制和新功能化推动了酰基糖在番茄内部和外部的多样化。茄科酰基糖多样性背后的广泛进化机制使这个代谢网络成为详细了解代谢形式和功能进化的典范。
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