Corn mitochondrial F1-ATPase was purified from submitochondrial particles by chloroform extraction. Enzyme stored in ammonium sulfate at 40C was substantially activated by ATP, while enzyme stored at -70'C in 25% glycerol was not. Enzyme in glycerol remained fully active (8)(9) micromoles Pi released per minute per milligram), while the ammonium sulfate preparations steadily lost activity over a 2-month storage period. The enzyme was cold labile, and inactived by 4 minutes at 60'C. Treatment with octylglucoside resulted in complete loss of activity, while vanadate had no effect on activity. The apparent subunit molecular weights of corn mitochondrial F,-ATPase were determined by SDSpolyacrylamide gel electrophoresis to be 58,000 (a), 55,000 (8), 35,000 (-y), 22,000 (a), and 12,000 (e). Monoclonal (9). No detailed comparisons of mitochondrial F,-ATPase and chloroplastic CF,-ATPase from the same plant species has as yet been accomplished, and the similarities or differences between these enzymes can only be inferred by studies ofanimal mitochondrial Fr-ATPases.The fact that plant cells contain two unique organelles capable of energy production by oxidative phosphorylation in one case, or photosynthetic phosphorylation in the other, makes them an attractive model for comparative studies. Detailed studies of plant mitochondrial F,-ATPase will provide the basis for comparison to chloroplastic CF,-ATPase. Comparisons of these two enzymes from the same cell may provide valuable information on aspects of structure, regulation, biosynthesis, and evolution of the enzyme within these two organelles. This paper reports the isolation, purification, physical and enzymic properties of the F,-ATPase from corn mitochondria. In addition, the antigenic properties ofthis enzyme are compared to those from CF,-ATPases and mamallian and E. coli F,-ATPases using both polyclonal and monoclonal antibodies.
MATERIALS AND METHODS
Purification of
