Properties of Bound Inorganic Phosphate on Bovine Mitochondrial F1F0-ATP Synthase

Beef-heart mitochondrial F₁F₀-ATP synthase contained six molecules of bound inorganic phosphate (P_i). This phosphate exchanged completely with exogenous ³²P_i when the enzyme was exposed to 30% (v/v) dimethyl sulfoxide (DMSO) and then returned to a DMSO-free buffer (Beharry and Bragg 2001). Only two molecules were replaced by ³²P_i when the enzyme was not pretreated with DMSO. These two molecules of ³²P_i were not displaced from the enzyme by the treatment with 1 mM ATP. Similarly, two molecules of bound ³²P_i remained on the DMSO-pretreated enzyme following addition of ATP, that is, four molecules of ³²P_i were displaced by ATP. The ATP-resistant ³²P_i was removed from the enzyme by pyrophosphate. It is proposed that these molecules of ³²P_i are bound at an unfilled adenine nucleotide-binding noncatalytic site on the enzyme. Brief exposure of the enzyme loaded with two molecules of ³²P_i to DMSO, followed by removal of the DMSO, resulted in the loss of the bound ³²P_i and in the formation of two molecules of bound ATP from exogenous ADP. A third catalytic site on the enzyme was occupied by ATP, which could undergo a P_i ATP exchange reaction with bound P_i The presence of two catalytic sites containing bound P_i is consistent with the X-ray crystallographic structure of F₁ (Bianchet, et al., 1998). Thus, five of the six molecules of bound P_i were accounted for. Three molecules of bound P_i were at catalytic sites and participated in ATP synthesis or P_i ATP exchange. Two other molecules of bound P_i were present at a noncatalytic adenine nucleotide-binding site. The location and role of the remaining molecule of bound P_i remains to be established. We were unable to demonstrate, using chemical modification of sulfhydryl groups by iodoacetic acid, any gross difference in the conformation of F₁F₀ in DMSO-containing compared with DMSO-free buffers.