Evidence for the presence of photorespiration in desiccation-sensitive leaves of the C4 'resurrection' plant Sporobolus stapfianus during dehydration stress

The possible role of photorespiration as a general stress protectionmechanism, and in C₄ plant metabolism, is controversial. Inparticular, the potential involvement of photorespiration inthe acquisition of desiccation tolerance in ‘resurrection’plants is unknown. An investigation was carried out into whetherphotorespiration is present in leaves of the C₄ resurrectionplant Sporobolus stapfianus Gandoger (Poaceae) and whether itfunctions as a mechanism of stress resistance in the desiccation-tolerantyounger leaves (YL) of this plant. It is shown that the enzymesinvolved in the photorespiratory pathway maintain their activityuntil 88% relative water content (RWC) in both YL and desiccation-sensitiveolder leaves (OL). In subsequent stages of dehydration stress,the enzymatic activity declined similarly in both YL and OL.The content of the phorespiratory metabolite, serine, and ethanolamine,a direct product of serine decarboxylation, is higher in theearly stages of dehydration (88% RWC) in OL, suggesting a transientlyenhanced photorespiratory activity in these leaves. This wasconfirmed by simultaneous gas exchange and fluorescence measurements,showing suppression of the electron transport rate in OL exposedto non-photorespiratory conditions (2% O₂) at 85% RWC. It isconcluded that a higher photorespiratory electron transportoccurs in desiccation-sensitive OL, and it is therefore proposedthat the capacity to scavenge excess electrons through photorespirationdoes not contribute to protect leaves of the desiccation-tolerantYL of S. stapfianus during the stress. Key words: Ethanolamine, glycine, photorespiratory enzymes, photosynthesis, poikilohydric plant, serineReceived 5 June 2007; Revised 3 September 2007 Accepted 17 September 2007