Abstract

Vacuolar malate transport in Catharanthus roseus is probably mediated by a 37 kDa intrinsic tonoplast protein identified with a photolyzable malate analog. Antibodies raised against the protein inhibit malate uptake in isolated vacuoles. We report here the native molecular mass and the oligomeric state of the putative malate transporter which were determined from two‐dimensional native electrophoresis. In its first dimension, the electrophoresis used a charge shift method developed for isolating native membrane protein complexes from purified tonoplast vesicles. In combination with a second dimension of sodium dodecylsulfate electrophoresis, it enables the determination of the oligomeric state and subunit composition of non‐dissociated complexes. In such analyses, most of the tonoplast proteins of Catharanthus roseus appear to have a complex structure. In native gels (first dimension), both the photoprobe and the antibodies recognized a 160 kDa protein. The photolabelling characteristics correlate well with the main features of malate transport activity. The 160 kDa protein, when analyzed in the second dimension, contained the 37 kDa polypeptide as a subunit. In addition, cross‐linking with dimethyl suberimidate (DMS) in the intact tonoplast vesicles resulted in the disappearance of the 37 kDa monomer protein band with concomitant appearance of additional bands of molecular masses higher than the monomer, i.e. 73 and 160 kDa. These results, taken together, suggest that the putative malate transporter exists in the tonoplast as a tetramer.

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