Arginine Decarboxylase of Oats Is Clipped from a Precursor into Two Polypeptides Found in the Soluble Enzyme

Abstract

We have examined soluble oat (Avena sativa) arginine decarboxylase by probing its structure with polyclonal antibodies that separately recognize amino-terminal and carboxyl-terminal antigens and with a monoclonal antibody that immunoprecipitates enzyme activity. These experiments indicated that oat arginine decarboxylase is clipped from a 66,000-D precursor polypeptide into 42,000- and 24,000-D produce polypeptides. Both of these are found in the enzyme and may be held together by disulfide bonds. A full-length precursor protein could not be detected in plants but could be produced by expression of the cDNA in Escherichia coli. Analysis of the expression of the cDNA in E. coli, with antibodies and using pulse labeling with [(35)S]methionine, indicated that the bulk of the expressed protein was the full-length 66,000-D form. Small amounts of 42,000- and 24,000-D polypeptides could also be detected. A reconstruction experiment, adding a radioactively labeled full-length protein isolated from E. coli to powdered oat leaves, supported the idea that the protein extraction method used for western blots was not likely to result in artifactual proteolytic degradation.