Journal of Plant Research and Innovations

ABSTRACT

The C₄ phosphoenolpyruvate carboxylase (PEPC) is well known for its modulation by light and temperature. We have attempted to address such coordinated effects of light and temperature on C₃ PEPC in leaves of Pisum sativum. Experiments were done with dark-adapted leaf discs as well as with leaves collected at different times during the day and in each month during the year. The modulation of C₃ PEPC by temperature was much stronger than that by light. The optimum temperature for in vitro activity of C₃ PEPC was 25°C while 20°C was sub-optimal and 30°C to 45°C were supra-optimal. The photo-activation of PEPC was more at 25°C than at 45°C. The activation of C₃ PEPC by temperature was more in the dark than in the light. In in situ conditions, a diurnal rhythm in the activity and regulatory properties of C₃ PEPC was more prominent at colder than at warm temperatures. However, no consistent trends in the seasonal changes in PEPC activity/ regulatory properties were observed. Scatter plots suggested that light had a greater influence on PEPC activity while temperature exerted a much greater effect on its regulatory properties. Thus, C₃ PEPC was also modulated by a natural variation in light and temperature under in situ conditions. These observations correlated well with the light and temperature requirements of C₃ plants.

KEYWORDS

1. C3 PEPC
2. Light
3. Temperature
4. Diurnal rhythm
5. Glucose-6-phosphate
6. Malate