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Plant terpenoid metabolism co-opts a component of the cell wall biosynthesis machinery

dc.creatorJozwiak A., Sonawane P.D., Panda S., Garagounis C., Papadopoulou K.K., Abebie B., Massalha H., Almekias-Siegl E., Scherf T., Aharoni A.en
dc.date.accessioned2023-01-31T08:29:03Z
dc.date.available2023-01-31T08:29:03Z
dc.date.issued2020
dc.identifier10.1038/s41589-020-0541-x
dc.identifier.issn15524450
dc.identifier.urihttp://hdl.handle.net/11615/74122
dc.description.abstractGlycosylation is one of the most prevalent molecular modifications in nature. Single or multiple sugars can decorate a wide range of acceptors from proteins to lipids, cell wall glycans and small molecules, dramatically affecting their activity. Here, we discovered that by ‘hijacking’ an enzyme of the cellulose synthesis machinery involved in cell wall assembly, plants evolved cellulose synthase-like enzymes (Csls) and acquired the capacity to glucuronidate specialized metabolites, that is, triterpenoid saponins. Apparently, endoplasmic reticulum-membrane localization of Csls and of other pathway proteins was part of evolving a new glycosyltransferase function, as plant metabolite glycosyltransferases typically act in the cytosol. Discovery of glucuronic acid transferases across several plant orders uncovered the long-pursued enzymatic reaction in the production of a low-calorie sweetener from licorice roots. Our work opens the way for engineering potent saponins through microbial fermentation and plant-based systems. [Figure not available: see fulltext.]. © 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.en
dc.language.isoenen
dc.sourceNature Chemical Biologyen
dc.source.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85084813939&doi=10.1038%2fs41589-020-0541-x&partnerID=40&md5=438127266248d144752819b57f05036d
dc.subjectglucuronic aciden
dc.subjectglycosyltransferaseen
dc.subjectGlycyrrhiza glabra rooten
dc.subjectglycyrrhizic aciden
dc.subjectsaponin derivativeen
dc.subjectterpenoiden
dc.subjectcelluloseen
dc.subjectcellulose synthaseen
dc.subjectglucosyltransferaseen
dc.subjectglucuronic aciden
dc.subjectglycosyltransferaseen
dc.subjectplant proteinen
dc.subjectsaponinen
dc.subjectterpeneen
dc.subjectamino terminal sequenceen
dc.subjectArticleen
dc.subjectcarboxy terminal sequenceen
dc.subjectcell wallen
dc.subjectcontrolled studyen
dc.subjectendoplasmic reticulumen
dc.subjectendoplasmic reticulum membraneen
dc.subjectenzyme active siteen
dc.subjectenzyme synthesisen
dc.subjectextracellular spaceen
dc.subjectgene clusteren
dc.subjectmetabolic engineeringen
dc.subjectnonhumanen
dc.subjectnuclear magnetic resonanceen
dc.subjectplant metabolismen
dc.subjectpriority journalen
dc.subjectprotein functionen
dc.subjectprotein localizationen
dc.subjectsite directed mutagenesisen
dc.subjectspinachen
dc.subjectbeeten
dc.subjectbiosynthesisen
dc.subjectcell membraneen
dc.subjectcell wallen
dc.subjectgene expression regulationen
dc.subjectgeneticsen
dc.subjectglycosylationen
dc.subjectGlycyrrhizaen
dc.subjectmass fragmentographyen
dc.subjectmetabolismen
dc.subjectplant cellen
dc.subjectplant rooten
dc.subjectBeta vulgarisen
dc.subjectCell Membraneen
dc.subjectCell Wallen
dc.subjectCelluloseen
dc.subjectEndoplasmic Reticulumen
dc.subjectGas Chromatography-Mass Spectrometryen
dc.subjectGene Expression Regulation, Planten
dc.subjectGlucosyltransferasesen
dc.subjectGlucuronic Aciden
dc.subjectGlycosylationen
dc.subjectGlycosyltransferasesen
dc.subjectGlycyrrhizaen
dc.subjectPlant Cellsen
dc.subjectPlant Proteinsen
dc.subjectPlant Rootsen
dc.subjectSaponinsen
dc.subjectSpinacia oleraceaen
dc.subjectTerpenesen
dc.subjectNature Researchen
dc.titlePlant terpenoid metabolism co-opts a component of the cell wall biosynthesis machineryen
dc.typejournalArticleen


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