AUTHOR=Grimmer Julia , Rödiger Anja , Hoehenwarter Wolfgang , Helm Stefan , Baginsky Sacha 

TITLE=The RNA-binding protein RNP29 is an unusual Toc159 transport substrate

JOURNAL=Frontiers in Plant Science

VOLUME=5

YEAR=2014

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2014.00258

DOI=10.3389/fpls.2014.00258

ISSN=1664-462X

ABSTRACT=<p>The precursors of RNP29 and Ferredoxin (Fd2) were previously identified in the cytosol of <italic>ppi2</italic> plant cells with their N-terminal amino acid acetylated. Here, we explore whether precursor accumulation in <italic>ppi2</italic> is characteristic for Toc159 client proteins, by characterizing the import properties of the RNP29 precursor in comparison to Fd2 and other Toc159-dependent or independent substrates. We find specific accumulation of the RNP29 precursor in <italic>ppi2</italic> but not in wild type or <italic>ppi1</italic> protoplasts. With the exception of Lhcb4, precursor accumulation is also detected with all other tested constructs in <italic>ppi2</italic>. However, RNP29 is clearly different from the other proteins because only precursor but almost no mature protein is detectable in protoplast extracts. Co-transformation of RNP29 with Toc159 complements its plastid import, supporting the hypothesis that RNP29 is a Toc159-dependent substrate. Exchange of the second amino acid in the RNP29 transit peptide to Glu or Asn prevents methionine excision but not N-terminal acetylation, suggesting that different N-acetyltransferases may act on chloroplast precursor proteins <italic>in vivo</italic>. All different RNP29 constructs are efficiently imported into wild type but not into <italic>ppi2</italic> plastids, arguing for a minor impact of the N-terminal amino acid on the import process.</p>