In vivo stoichiometry of photorespiratory metabolism.
Identifieur interne : 003622 ( Ncbi/Curation ); précédent : 003621; suivant : 003623In vivo stoichiometry of photorespiratory metabolism.
Auteurs : Cyril Abadie [Australie] ; Edouard R A. Boex-Fontvieille [France] ; Adam J. Carroll [Australie] ; Guillaume Tcherkez [Australie]Source :
- Nature plants [ 2055-0278 ] ; 2016.
Abstract
Photorespiration is a major light-dependent metabolic pathway that consumes oxygen and produces carbon dioxide. In the metabolic step responsible for carbon dioxide production, two molecules of glycine (equivalent to two molecules of O2) are converted into one molecule of serine and one molecule of CO2. Here, we use quantitative isotopic techniques to determine the stoichiometry of this reaction in sunflower leaves, and thereby the O2/CO2 stoichiometry of photorespiration. We find that the effective O2/CO2 stoichiometric coefficient at the leaf level is very close to 2 under normal photorespiratory conditions, in line with expectations, but increases slightly at high rates of photorespiration. The net metabolic impact of this imbalance is likely to be modest.
DOI: 10.1038/nplants.2015.220
PubMed: 27249192
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<front><div type="abstract" xml:lang="en">Photorespiration is a major light-dependent metabolic pathway that consumes oxygen and produces carbon dioxide. In the metabolic step responsible for carbon dioxide production, two molecules of glycine (equivalent to two molecules of O2) are converted into one molecule of serine and one molecule of CO2. Here, we use quantitative isotopic techniques to determine the stoichiometry of this reaction in sunflower leaves, and thereby the O2/CO2 stoichiometry of photorespiration. We find that the effective O2/CO2 stoichiometric coefficient at the leaf level is very close to 2 under normal photorespiratory conditions, in line with expectations, but increases slightly at high rates of photorespiration. The net metabolic impact of this imbalance is likely to be modest.</div>
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