Restoration of ATP synthesis in urea-treated membranes prepared from pea cotyledon mitochondria

Submitochondrial particles were prepared from pea cotyledon mitochondria by sonication in a medium containing 5 mM MgCl₂. The resulting particles (Mg²⁺-submitochondrial particles) catalyzed oxidative phosphorylation at the rate of 100–200 nmol ATP formed / min per mg protein. Treatment of Mg²⁺-submitochondrial particles with 3.0 M urea resulted in a preparation of highly resolved particles with low ATPase activity and no capacity for oxidative phosphorylation. However, the resulting membranes were not capable of reconstitution of oxidative posphorylation with the purified mitochondrial F₁-ATPase. Urea particles capable of reconstitution of oxidative phosphorylation could be prepared by extracting Mg²⁺-submitochondrial particles with concentrations of urea ranging from 1.7 to 2.0 M. We have used 1.9 M urea for large-scale preparation of urea particles that could be stored in liquid nitrogen without any loss of reconstitution capacity. The residual oxidative phosphorylation rate of these particles was 6–8 nmol ATP / min per mg protein and this rate could increase to 60–70 nmol ATP / min per mg protein on incubation with saturating amounts of purified mitochondrial F₁-ATPase. In contrast to the mitochondrial F₁, purified activated pea chloroplast CF₁ was unable to stimulate ATP synthesis in 1.9 M urea particles.