Abstract
We used complexes of avidin and biotinylated precursors to generate translocation intermediates that occupy functional transport sites and thereby block the transport of other precursor proteins into pea chloroplasts. Cysteine residues of purified precursor to the small subunit of rubisco (prSS) were modified with the biotinylation reagent biotin-1-biotinamido-4-[-4'-(maleimidomethyl)-cyclohexane-ca rboxamido ]butane. Chemically biotinylated prSS was readily imported into chloroplasts. The addition of avidin, however, resulted in the formation of an avidin-biotinylated precursor complex that could not be imported into chloroplasts even when precursors had already engaged the transport apparatus before avidin was added. On fractionation, the avidin-biotinylated precursor complex associated with envelope membranes. Titration of transport sites with avidin-biotinylated precursor complexes revealed that saturation was reached at 2,000 molecules/chloroplast. Even with less than saturating levels of complexes, a sufficient number of translocation sites could be occupied with avidin-precursor complexes so that the import rate of freshly added radiolabeled prSS was reduced by 35%. From these observations we conclude that the trapped intermediates were blocking functional translocation sites. These biotinylated translocation intermediates should be useful in future efforts to purify and characterize the chloroplastic protein import machinery.
Highlights
Most chloroplastic proteins are encoded in the nucleus and synthesized on cytoplasmic ribosomes as precursor proteins containing an N-terminal transit peptide [1,2,3]
A translocation intermediate was generated by Eilers and Schatz [16] using a chimeric precursor protein consisting of a mitochondrial targeting signal fused to dihydrofolate reductase (DHFR)
In addition to identifying components of the mitochondrial import apparatus, translocation intermediates have provided a means to investigate the energetics of protein import into mitochondria and have been useful in identifying stromal factors involved in unidirectional import into mitochondria [19]
Summary
Most chloroplastic proteins are encoded in the nucleus and synthesized on cytoplasmic ribosomes as precursor proteins containing an N-terminal transit peptide [1,2,3]. This article describes a strategy whereby the import of a biotinylated chloroplastic precursor is blocked when avidin is present. When the chemically biotinylated precursor prSS-BMCC is incubated in the presence of avidin, a complex forms.
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