Abstract
We examined the response of leaves of 3-week-old maize (Zea mays L.) to short-term (5 h) fumigation with O3-enriched air (0, 0.12, 0.24, or 0.36 [mu]L/L). Older leaves and leaf tissue developed more severe visible damage at higher external O3 concentrations. To investigate the immediate effect of O3 exposure on the accumulation of newly synthesized leaf proteins, leaves were labeled with [35S]methionine after 2 h and fumigated for an additional 3 h. O3-induced alterations of leaf proteins were observed in a concentration-dependent manner. There was a significant decrease in [35S]methionine incorporation into protein at the highest O3 concentration. Developmental differences in accumulation of de novo-synthesized leaf proteins were observed when the leaf tip, middle, and basal sections were labeled under 0 [mu]L/L O3, and additional changes were apparent upon exposure to increasing O3 concentrations. Changes in leaf protein synthesis were observed in the absence of visible leaf injury. Subcellular fractionation revealed O3-induced alterations in soluble and membrane-associated proteins. A number of thylakoid membrane-associated proteins showed specific increases in response to O3 fumigation. In contrast, the synthesis of a 32-kD polypeptide associated with thylakoid membranes was reduced in response to O3 fumigation in parallel with reduced incorporation of [35S]methionine into protein. Immunoprecipitation identified this polypeptide as the D1 protein of photosystem II. A reduction in the accumulation of newly synthesized D1 could have consequences for the efficiency of photosynthesis and other cellular processes.