Biosynthesis of the Tonoplast H-ATPase from Oats

Abstract

To determine whether the tonoplast-type H(+)-ATPase was differentially synthesized in various parts of the oat seedling, sections of 4-day-old oat (Avena sativa L. var Lang) seedlings were labeled in vivo with [(35)S]methionine and ATPase subunits were precipitated with polyclonal antisera. ATPase subunits were detected in all portions of the seedling with the exception of the seed. Lesser amounts of the 60 and 72 kilodalton polypeptides of the ATPase were found in apical regions (0-5 millimeter) than in maturing regions (10-15, or 20-25 millimeter from the tip) of the roots or shoots. To initiate a study of the biosynthesis of the ATPase, the intracellular site of synthesis for two peripheral ATPase subunits was investigated. Poly(A) RNA from either free or membrane-bound polysomes was isolated and translated in vitro. Message encoding the 72 kilodalton (catalytic) subunit was found predominantly in mRNA isolated from membrane-bound polysomes. In contrast, the message for the 60 kilodalton (putative regulatory) subunit was found predominantly on free polysomes. Polypeptides synthesized in vivo or obtained from RNA translated in vitro exhibited no apparent size differences (limit of resolution, approximately 1 kilodalton), suggesting the absence of cleaved precursors for the 72 or 60 kilodalton subunits. These data suggest a complex mechanism for the synthesis and assembly of the tonoplast ATPase.