Regulation of C4 Photosynthesis: Inactivation of Pyruvate,Pi Dikinase in Leaf and Chloroplast Extracts in Relation to Dark/Light Regulation in Vivo

Active pyruvate, P₁ dikinase in leaf or chloroplast extractsisolated from illuminated leaves was inactivated by incubatingwith ADP. With chloroplast extracts neither ATP nor AMP alonewas effective. Half the maximum rate of inactivation was observedwith about 55 µM ADP. The following evidence supportedthe view that ADP-mediated inactivation had a co-requirementfor low concentrations of ATP Buchanan (1980) Ann. Rev. PlantPhysiol. 31: 341], adding hexokinase and glucose prevented inactivationby ADP Feldhaus et al. (1975) Eur. J. Biochem. 57: 197], whenGDP and UDP were added in place of ADP they mediated rapid inactivationonly when ATP was also provided; GTP was not effective. ATPwas apparently optimally effective at about 1 µM or less.The rate of inactivation was approximately proportional to thesquare of extract concentration suggesting dependancy on a factorin the extracts in addition to active enzyme. The involvementof one or more heat labile protein factors was confirmed bytrypsin treatment of extracts. Pyruvate, P₁ dikinase inactivatedby treatment with ADP was reactivated by incubating with P₁,a property common to the inactive enzyme extracted from darkenedleaves. Thiol/disulphide interconversion was apparently notcritical in the regulation of pyruvate, P₁ dikinase. ³Present address: Department of Agricultural Chemistry, Facultyof Agriculture, Nagoya University, Chikusa, Nagoya 464, Japan. (Received September 22, 1980; Accepted December 6, 1980)