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(Received for publication, April 4, 1997, and in revised form, June 16, 1997)
From the Plant Science Center, Cornell University,
Ithaca, New York 14853
Nucleus-encoded chloroplast proteins that reside
in the thylakoid lumen are synthesized as precursors with bipartite
transit peptides that contain information for uptake and
intra-chloroplast localization. We have begun to apply the superb
molecular and genetic attributes of Chlamydomonas to study
chloroplast protein import by creating a series of deletions in the
transit peptide of plastocyanin and determining their effects on
translocation into isolated Chlamydomonas chloroplasts.
Most N-terminal mutations dramatically inhibited in vitro
import, whereas replacement with a transit peptide from the
Volume 272, Number 33,
Issue of August 15, 1997
pp. 20357-20363
©1997 by The American Society for Biochemistry and Molecular Biology, Inc.
-subunit
of chloroplast ATPase restored uptake. Thus, the N-terminal region has
stroma-targeting function. Deletions within the C-terminal portion of
the transit peptide resulted in the appearance of import intermediates,
suggesting that this region is required for lumen translocation and
processing. Thus, despite its short length and predicted structural
differences, the Chlamydomonas plastocyanin transit peptide
has functional domains similar to those of vascular plants. Similar
mutations have been analyzed in vivo by transforming
altered genes into a mutant defective at the plastocyanin locus
(K. L. Kindle, manuscript in preparation). Most mutations affected
in vitro import more severely than plastocyanin
accumulation in vivo. One exception was a deletion that
removed residues 2-8, which nearly eliminated in vivo
accumulation but had a modest effect in vitro. We suggest that this mutant precursor may not compete successfully with other proteins for the translocation pathway in vivo. Apparently,
in vivo and in vitro analyses reveal different
aspects of chloroplast protein biogenesis.
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