OPTIMAL THERMAL ENVIRONMENTS FOR PLANT METABOLIC PROCESSES (CUCUMIS-SATIVUS L) - LIGHT-HARVESTING CHLOROPHYLL-A/B PIGMENT-PROTEIN COMPLEX OF PHOTOSYSTEM-II AND SEEDLING ESTABLISHMENT IN CUCUMBER

Analysis of the temperatures providing maximal photosystem II fluorescence reappearance following illumination and thermal kinetic windows (TKWs), obtained from the temperature characteristics of enzyme apparent K(m) values, have been proposed as indicators of the bounds of thermal stress in plants. In this study, we have evaluated the temperature optimum for the accumulation of the chlorophyll a/b light-harvesting complex of photosystem II (LHCP II), its mRNA, and the mRNA of the small subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) in cucumber (Cucumis sativus L. cv Ashley) as a broader measure of metabolism than that provided by either the fluorescence reappearance or TKWs. The TKW for cucumber is between 23.5 and 39-degrees-C, with the minimum apparent K(m) occurring at 32.5-degrees-C. The photosystem II variable fluorescence reappearance following illumination was maximal between 30 and 35-degrees-C. Maximum synthesis of the LHCP II occurred at 30-degrees-C. The light-induced accumulation of the LHCP II and the small subunit of Rubisco mRNAs showed similar temperature characteristics. Suboptimal temperatures delayed germination, altered cotyledonary soluble sugar content, and broadened the temperature range for chlorophyll accumulation. These results demonstrate an effect of seed reserve mobilization on the range of temperatures for chlorophyll accumulation, and suggest that metabolic temperature characteristics may be broadened by increasing available substrates for enzyme utilization. This study provides new information about the relationship between TKWs and cellular responses to temperature. In addition, the results suggest that the temperature range outside of which plants experience temperature stress is narrower than traditionally supposed.