Abstract
In order to further our understanding of the targeting of nuclear-encoded proteins into intracellular organelles, we have investigated the import of chimeric precursor proteins into pea chloroplasts. Two different chimeric precursor proteins were produced by in vitro expression of chimeric genes. One chimeric precursor contained the transit peptide of the small subunit of soybean ribulose 1,5-bisphosphate carboxylase and the mature peptide of the same protein from pea. The second contained the same transit peptide plus 13 amino acids of the pea mature peptide fused to a cytosolic heat shock protein. The extent of import and binding of the two chimeric proteins was examined by using quantitative assays and was compared to the import of pea small subunit precursor. Both precursor proteins imported well into pea chloroplasts, although the extent of import observed with the chimeric small-subunit-heat shock precursor was less than that observed with the soybean-pea small subunit precursor. The heat shock protein alone did not import into nor bind to chloroplasts. The binding of both the chimeric small-subunit-heat shock protein and the soybean-pea small subunit precursor to chloroplasts was physiologically significant, as shown by the fact that when chloroplasts with bound precursors were isolated, these bound precursors could subsequently be imported.
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