Differential regulation of photorespiratory gene expression by moderate and severe salt and drought stress in relation to oxidative stress.

The tolerant C3 plant Pancratium maritimum L. was used to investigate the contribution of photorespiration to the oxidative load under salt and drought stress. 7-weeks old plants were salt-stressed by 150 or 300 mM NaCl or drought-stressed by withholding water for 11 or 21 days. The growth, photosynthesis (A) and transpiration rates (E) were reduced by all stress treatments proportionally to the severity of stress. The rate of photorespiration was remarkably higher under moderate stresses than under severe stresses as revealed by large increase in the photorespiratory indicators Gly/Ser ratio and glyoxylate content and as substantiated by higher expression levels of photorespiratory enzymes. Nonetheless, indicators of oxidative stress namely, malondialdehyde (MDA) and hydrogen peroxide (H₂O₂) contents showed greater increase under severe stresses suggesting that the increase in the oxidative load under severe stresses is independent of photorespiration rate. The lower contents of MDA and H₂O₂ under moderate stresses (compared to these under severe stresses) in spite of the strong upregulation of photorespiration indicate efficient detoxification of photorespiration-generated H₂O₂ as shown by efficient upregulation of catalase (CAT) and peroxidase (POD). It is thus concluded that photorespiration may not be major contributor to the oxidative load under salt and drought stress.