Plant Peroxisomes: Molecular Basis of the Regulation of their Functions

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-oxidation, the glyoxylate cycle and the glycolate pathway for photorespiration. Recent molecular biological studies have revealed that most of these enzymes possess either one of two peroxisomal targeting signals (PTS) within their amino acid sequence. One of the signals, PTS1, is found at the carboxy-terminus, while the other, PTS2, is found within the amino-terminal presequence. Subsequent to the synthesis and folding of these enzymes in the cytosol, the targeting signal in the folded proteins may bind to the corresponding receptors. At present, only a receptor that recognizes PTS1 has been identified in higher plants. After the binding of the protein and the receptor, the protein complex may be recognized by docking proteins that exist in the peroxisomal membrane. The mechanisms responsible for the recognition of peroxisomal proteins are now under investigation. Genetic analyses of Arabidopsis mutants with defective peroxisomes may give us some clues to understanding the mechanisms of peroxisomal protein import.