BACKGROUND AND AIMS: l-Ascorbate (vitamin C) has well-documented roles in many aspects of redox control and anti-oxidant activity in plant cells. This Botanical Briefing highlights recent developments in another aspect of l-ascorbate metabolism: its function as a precursor for specific processes in the biosynthesis of organic acids. SCOPE: The Briefing provides a summary of recent advances in our understanding of l-ascorbate metabolism, covering biosynthesis, translocation and functional aspects. The role of l-ascorbate as a biosynthetic precursor in the formation of oxalic acid, l-threonic acid and l-tartaric acid is described, and progress in elaborating the mechanisms of the formation of these acids is reviewed. The potential conflict between the two roles of l-ascorbate in plant cells, functional and biosynthetic, is highlighted. CONCLUSIONS: Recent advances in the understanding of l-ascorbate catabolism and the formation of oxalic and l-tartaric acids provide compelling evidence for a major role of l-ascorbate in plant metabolism. Combined experimental approaches, using classic biochemical and emerging 'omics' technologies, have provided recent insight to previously under-investigated areas.
BACKGROUND AND AIMS: l-Ascorbate (vitamin C) has well-documented roles in many aspects of redox control and anti-oxidant activity in plant cells. This Botanical Briefing highlights recent developments in another aspect of l-ascorbate metabolism: its function as a precursor for specific processes in the biosynthesis of organic acids. SCOPE: The Briefing provides a summary of recent advances in our understanding of l-ascorbate metabolism, covering biosynthesis, translocation and functional aspects. The role of l-ascorbate as a biosynthetic precursor in the formation of oxalic acid, l-threonic acid and l-tartaric acid is described, and progress in elaborating the mechanisms of the formation of these acids is reviewed. The potential conflict between the two roles of l-ascorbate in plant cells, functional and biosynthetic, is highlighted. CONCLUSIONS: Recent advances in the understanding of l-ascorbate catabolism and the formation of oxalic and l-tartaric acids provide compelling evidence for a major role of l-ascorbate in plant metabolism. Combined experimental approaches, using classic biochemical and emerging 'omics' technologies, have provided recent insight to previously under-investigated areas.
Authors: Qian Xiao; Steven C Moore; Sarah K Keadle; Yong-Bing Xiang; Wei Zheng; Tricia M Peters; Michael F Leitzmann; Bu-Tian Ji; Joshua N Sampson; Xiao-Ou Shu; Charles E Matthews Journal: Int J Epidemiol Date: 2016-04-12 Impact factor: 7.196
Authors: Katherine A Lisko; Raquel Torres; Rodney S Harris; Melinda Belisle; Martha M Vaughan; Berangère Jullian; Boris I Chevone; Pedro Mendes; Craig L Nessler; Argelia Lorence Journal: In Vitro Cell Dev Biol Plant Date: 2013-12 Impact factor: 2.252
Authors: Jérôme Grimplet; Matthew D Wheatley; Hatem Ben Jouira; Laurent G Deluc; Grant R Cramer; John C Cushman Journal: Proteomics Date: 2009-05 Impact factor: 3.984