Expression of Tobacco Carbonic Anhydrase in the C4Dicot Flaveria bidentis Leads to Increased Leakiness of the Bundle Sheath and a Defective CO2-Concentrating Mechanism

Abstract

Flaveria bidentis (L.) Kuntze, a C₄ dicot, was genetically transformed with a construct encoding the mature form of tobacco (Nicotiana tabacum L.) carbonic anhydrase (CA) under the control of a strong constitutive promoter. Expression of the tobacco CA was detected in transformant whole-leaf and bundle-sheath cell (bsc) extracts by immunoblot analysis. Whole-leaf extracts from two CA-transformed lines demonstrated 10% to 50% more CA activity on a ribulose-1,5-bisphosphate carboxylase/oxygenase-site basis than the extracts from transformed, nonexpressing control plants, whereas 3 to 5 times more activity was measured in CA transformant bsc extracts. This increased CA activity resulted in plants with moderately reduced rates of CO₂ assimilation (A) and an appreciable increase in C isotope discrimination compared with the controls. With increasing O₂ concentrations up to 40% (v/v), a greater inhibition of A was found for transformants than for wild-type plants; however, the quantum yield of photosystem II did not differ appreciably between these two groups over the O₂ levels tested. The quantum yield of photosystem II-to-A ratio suggested that at higher O₂ concentrations, the transformants had increased rates of photorespiration. Thus, the expression of active tobacco CA in the cytosol of F. bidentis bsc and mesophyll cells perturbed the C₄ CO₂-concentrating mechanism by increasing the permeability of the bsc to inorganic C and, thereby, decreasing the availability of CO₂ for photosynthetic assimilation by ribulose-1,5-bisphosphate carboxylase/oxygenase.