Literature DB >> 22393048

Impact of oxidative stress on ascorbate biosynthesis in Chlamydomonas via regulation of the VTC2 gene encoding a GDP-L-galactose phosphorylase.

Eugen I Urzica1, Lital N Adler, M Dudley Page, Carole L Linster, Mark A Arbing, David Casero, Matteo Pellegrini, Sabeeha S Merchant, Steven G Clarke.   

Abstract

The L-galactose (Smirnoff-Wheeler) pathway represents the major route to L-ascorbic acid (vitamin C) biosynthesis in higher plants. Arabidopsis thaliana VTC2 and its paralogue VTC5 function as GDP-L-galactose phosphorylases converting GDP-L-galactose to L-galactose-1-P, thus catalyzing the first committed step in the biosynthesis of L-ascorbate. Here we report that the L-galactose pathway of ascorbate biosynthesis described in higher plants is conserved in green algae. The Chlamydomonas reinhardtii genome encodes all the enzymes required for vitamin C biosynthesis via the L-galactose pathway. We have characterized recombinant C. reinhardtii VTC2 as an active GDP-L-galactose phosphorylase. C. reinhardtii cells exposed to oxidative stress show increased VTC2 mRNA and L-ascorbate levels. Genes encoding enzymatic components of the ascorbate-glutathione system (e.g. ascorbate peroxidase, manganese superoxide dismutase, and dehydroascorbate reductase) are also up-regulated in response to increased oxidative stress. These results indicate that C. reinhardtii VTC2, like its plant homologs, is a highly regulated enzyme in ascorbate biosynthesis in green algae and that, together with the ascorbate recycling system, the L-galactose pathway represents the major route for providing protective levels of ascorbate in oxidatively stressed algal cells.

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Year:  2012        PMID: 22393048      PMCID: PMC3340187          DOI: 10.1074/jbc.M112.341982

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  63 in total

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Review 4.  Ascorbic acid in plants: biosynthesis and function.

Authors:  N Smirnoff; G L Wheeler
Journal:  Crit Rev Biochem Mol Biol       Date:  2000       Impact factor: 8.250

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  34 in total

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7.  Systems and trans-system level analysis identifies conserved iron deficiency responses in the plant lineage.

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