Tonoplast energization: Two H+ pumps, one membrane

The vacuolar membrane (tonoplast) of plant cells contains two functionally and physically distinct phosphohydrolases, which catalyse electrogenic H⁺ -translocation: An ATPase (tp-ATPase; EC 3.6.1.3) and an inorganic pyrophosphatase (tp-PPase; 3.6.1.1). Neither enzyme belongs to the F₀F₁– or E₁E₂-categories of primary cation pumps, but instead belong to a third and fourth category of enzyme, respectively. Research priorities for the tp-ATPase are studies directed at understanding the roles of the 70 and 60 kDa subunits in catalysis and regulation; the involvement of the 16 kDa subunit in transmembrane H⁺ conduction; and investigations of F₀F₁- like structure/function partitioning. In the longer term, comparisons of sequence homology between the N,N'- dicyclohexylcarbodiimide -binding (16 kDa) proteins from different sources may enable elucidation of the evolutionary relationship of the tp-ATPase with other putative third-category H⁺– translocases. The tp-PPase, on the other hand, represents an exciting but largely unexplored biochemical entity, which necessitates a reconsideration of accepted views concerning the involvement of inorganic pyrophosphate (PPi) in transmembrane energy conservation. Just why the tonoplast should be endowed with two H⁺-translocases is a problem that can only be approached once consideration is given to the paramount question of H⁺/PPi stoichiometry. Once the stoichiometry is known, it should be possible to establish the physiological poise of the tp-PPase, and hence to speculate on its role in the metabolism of plant cells.