Simultaneous determination of Rubisco carboxylase and oxygenase kinetic parameters in Triticum aestivum and Zea mays using membrane inlet mass spectrometry

The lack of complete Rubisco kinetic data for numerous species is partly because of the time consuming nature of the multiple methods needed to assay all of the Rubisco parameters. We have developed a membrane inlet mass spectrometer method that simultaneously determines the rate of Rubisco carboxylation (v_c) and oxygenation (v_o), and the CO₂ and O₂ concentrations. Using the collected data, the Michaels‐Menten equations for v_c and v_o in response to changing CO₂ and O₂ concentrations were simultaneously solved for the CO₂ (K_c) and O₂ (K_o) constants, the maximum turnover rates of the enzyme for CO₂ (kcat_CO2) and O₂ (kcat_O2) and the specificity for CO₂ relative to O₂ (S_c/o). In the C₄ species Zea mays K_c was higher but K_o was lower compared with the C₃ species Triticum aestivum. The kcat_CO2 was higher and the kcat_O2 lower in Z. mays compared with T. aestivum and S_c/o was similar in the two species. The V_omax/V_cmax was lower in Z. mays and thus did not correlate with changes in S_c/o. In conclusion, this mass spectrometer system provides a means of simultaneously determining the important Rubisco kinetic parameters, K_c, K_o, kcat_CO2,kcat_O2 and S_c/o from the same set of assays.