Literature DB >> 25238751

Phenylcoumaran benzylic ether reductase prevents accumulation of compounds formed under oxidative conditions in poplar xylem.

Claudiu Niculaes1, Kris Morreel1, Hoon Kim2, Fachuang Lu2, Lauren S McKee3, Bart Ivens1, Jurgen Haustraete4, Bartel Vanholme1, Riet De Rycke1, Magnus Hertzberg5, Jorg Fromm6, Vincent Bulone3, Andrea Polle7, John Ralph2, Wout Boerjan8.   

Abstract

Phenylcoumaran benzylic ether reductase (PCBER) is one of the most abundant proteins in poplar (Populus spp) xylem, but its biological role has remained obscure. In this work, metabolite profiling of transgenic poplar trees downregulated in PCBER revealed both the in vivo substrate and product of PCBER. Based on mass spectrometry and NMR data, the substrate was identified as a hexosylated 8-5-coupling product between sinapyl alcohol and guaiacylglycerol, and the product was identified as its benzyl-reduced form. This activity was confirmed in vitro using a purified recombinant PCBER expressed in Escherichia coli. Assays performed on 20 synthetic substrate analogs revealed the enzyme specificity. In addition, the xylem of PCBER-downregulated trees accumulated over 2000-fold higher levels of cysteine adducts of monolignol dimers. These compounds could be generated in vitro by simple oxidative coupling assays involving monolignols and cysteine. Altogether, our data suggest that the function of PCBER is to reduce phenylpropanoid dimers in planta to form antioxidants that protect the plant against oxidative damage. In addition to describing the catalytic activity of one of the most abundant enzymes in wood, we provide experimental evidence for the antioxidant role of a phenylpropanoid coupling product in planta.
© 2014 American Society of Plant Biologists. All rights reserved.

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Year:  2014        PMID: 25238751      PMCID: PMC4213149          DOI: 10.1105/tpc.114.125260

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  39 in total

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4.  Cleavage of structural proteins during the assembly of the head of bacteriophage T4.

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Journal:  J Agric Food Chem       Date:  2012-01-19       Impact factor: 5.279

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7.  Profiling of oligolignols reveals monolignol coupling conditions in lignifying poplar xylem.

Authors:  Kris Morreel; John Ralph; Hoon Kim; Fachuang Lu; Geert Goeminne; Sally Ralph; Eric Messens; Wout Boerjan
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6.  Maize Tricin-Oligolignol Metabolites and Their Implications for Monocot Lignification.

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7.  Expression and functional analyses of a putative phenylcoumaran benzylic ether reductase in Arabidopsis thaliana.

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8.  Knockdown of PCBER1, a gene of neolignan biosynthesis, resulted in increased poplar growth.

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9.  Insights into the molecular regulation of monolignol-derived product biosynthesis in the growing hemp hypocotyl.

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