Phenotypical temperature adaptation of protein turnover in desert annuals.

Protein synthesis and protein degradation rates were measured in three desert annual species at four different experimental temperatures. The taxa chosen for this study were the C(3) winter annuals, Bowlesia incana Ruiz & Pavon and Plantago insularis Eastw., and a C(4) summer annual, Atriplex elegans (Moq.) D. Dietr. Peak rates of protein synthesis correlated well with the preferred habitat temperatures of B. incana and A. elegans; optima occurred at 25 and 35 degrees C, respectively. Plants of P. insularis showed an optimum protein synthesis rate at 35 degrees C; however, this optimum rate was considerably lower than for the other two species. Higher activation energies for protein synthesis tended to parallel adaptation to higher temperature habitats. Responses of protein degradation to temperature in A. elegans and B. incana were consistent with their natural thermal regimes, when evaluated for the transition from 25 to 35 degrees C. Again, protein degradation in P. insularis shows an intermediate response to temperature during the 25 to 35 degrees C transition.