AI Article Synopsis
- Peroxisomal proteins are typically imported via C-terminal (PTS1) or N-terminal (PTS2) signals recognized by the Pex5p or Pex7p receptors, but some proteins in budding yeast, like AOx and Cat2p, use an alternative import pathway.
- Recent findings reveal that even proteins with PTS1 signals, such as Fox2p and Cta1p, can be imported into peroxisomes without relying on these signals, challenging previous understandings of the process.
- The study also identifies Pex9p as a new receptor that has an unexpected connection to the import of Fox2p and Cta1p, suggesting a need for a re-evaluation of existing models of perox
Article Abstract
The import of most of peroxisomal proteins into the lumen of their target organelle is driven by C-terminal (PTS1) or N-terminal (PTS2) signals recognized by the Pex5p or Pex7p receptors, respectively. However, some proteins in budding yeast, such as acyl-CoA oxidase (AOx) and carnitine acetyltransferase (Cat2p), are imported into peroxisomes via an alternative route that does not rely on known PTS signals and involves the Pex5p receptor N-terminal region. Here, we show that two other budding yeast peroxisomal proteins, a multifunctional enzyme from the β-oxidation pathway (Fox2p) and catalase A (Cta1p), both of which contain PTS1, can be imported independently of this signal. The I264K amino acid substitution in Pex5p adjacent to its FxxxW diaromatic motif, previously shown to abolish the import of AOx and Cat2p into peroxisomes, also affects Fox2p and Cta1p import. Moreover, we demonstrate that Pex9p, a newly discovered paralog of Pex5p that was recently implicated in the import of malate synthases in budding yeast, also exhibits weak receptor activity towards Fox2p and Cta1p. These findings indicate the need to re-evaluate the peroxisomal import paradigm.This article has an associated First Person interview with the first author of the paper.
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| http://dx.doi.org/10.1242/jcs.216986 | DOI Listing |
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