Utilization of Nonstop mRNA to Assess Ribosome-Associated Nascent Polypeptide Chains in Early Topogenesis of Peroxisomal Proteins.

Markus Rudowitz Luis Daniel Cruz-Zaragoza Wolfgang Girzalsky Ralf Erdmann

Methods Mol Biol

Department of Systems Biochemistry, Faculty of Medicine, Institute of Biochemistry and Pathobiochemistry, Ruhr University Bochum, Bochum, Germany.

Published: March 2023

* These ns proteins often have an N-terminal targeting signal that helps them move to specific organelles by stabilizing their translocation intermediates.
* Researchers can purify early-stage ribosome-associated protein complexes, like those involved in peroxisomal protein import, using plasmids with FLAG-tagged nonstop variants of the cargo protein Fox3p.

The translation of mRNAs lacking a stop codon results in a nascent polypeptide chain still attached to the translating ribosome. When containing an exposed N-terminal targeting signal, these so-called nonstop (ns) proteins have been shown to localize to their respective organellar translocation channel, resulting in stabilized translocation intermediates. Utilizing a plasmid encoding a FLAG-tagged nonstop protein with an N-terminal targeting signal early-stage ribosome-associated protein complexes can be purified by affinity chromatography. This will be exemplified by purification of protein complexes of the peroxisomal protein import machinery using different nonstop variants of the PTS2 cargo protein Fox3p from both soluble and membrane fractions.

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