Linearity and Functioning Forms in the Carboxylase Reaction of Spinach Ribulose 1,5-Bisphosphate Carboxylase/Oxygenase

The reaction of spinach RuBisCO activated with CO₂ and Mg²⁺proceeded in two phases, an initial burst for a few minutesand the subsequent linear phase, in the presence of saturatingconcentrations of CO₂, ribulose 1,5-bisphosphate (RuBP), andMg²⁺. The percentage of the activity in the linear phase tothat in the initial burst was 55% with RuBisCO prepared withpolyethylene glycol, and very close to the value with the enzymereleased immediately from isolated chloro-plasts. RuBisCO preparedwith ammonium sulfate had a much larger decrease of the activityin the linear phase. The Euglena enzyme had a linear courseof reaction with time for up to 20 minutes. The K_m for CO₂ of spinach RuBisCO activated beforehand was 20µM in the initial burst, and 28 µM in the linearphase. In the carboxylase reaction initiated with inactive enzyme,the activity was initially negligible, but in 5 minutes increasedto the level observed in the linear phase of the activated enzyme.The K_m for CO₂ in the linear phase of the pre-inactivated enzymewas 70 µM. The concentration of RuBP was the immediate cause of the two-phasiccourse of the carboxylase reaction of spinach RuBisCO. The curvatureof the time course was not observed below 35 µM RuBP.The enzyme required over 88 µM RuBP for the conventionaltwo-phasic course. Further increase of the concentration ofRuBP increased the extent of the curvature, but did not startthe curvature sooner after the start of the reaction. Even ifspinach RuBisCO was in the linear phase, dilution of RuBP orits consumption by the enzymatic reaction to less than 30 µMcaused the enzyme to show the resumed biphasic reaction courseafter addition of a high concentration of RuBP. ¹This paper is the twenty-fourth in a series on PhotosyntheticCarbon Metabolism in Euglena gracilis. (Received September 19, 1988; Accepted November 25, 1988)