An association between photorespiration and protein catabolism: Studies with Chlamydomonas

Abstract

Work demonstrating the operation of a photorespiratory N cycle in Chlamydomonas is described. NH₃ release by this process is light dependent, sensitive to changes in pO₂ and pCO₂, and abolished by a photosystem II inhibitor. Evidence is presented which shows that this NH₃ derives its N from protein rather than from freshly synthesised glutamate. Protein turnover is shown to provide amino-N at a rate sufficient to account for the highest photorespiratory N excretion observed suggesting that changes in excretion can be accounted for by increased catabolism of normally recirculating amino acids. It is equally possible however that a direct link between photorespiration and protein turnover exists, increased NH₃ excretion resulting from enhanced protein turnover. The data suggest that if similar mechanisms operate in higher plants, previous estimates of the amount of N recycled in photorespiration may have been too high.