Puf3p induces translational repression of genes linked to oxidative stress

William Rowe, Christopher J. Kershaw, Lydia M. Castelli, Joseph L. Costello, Mark P. Ashe, Christopher M. Grant, Paul F G Sims, Graham D. Pavitt, Simon J. Hubbard

    Research output: Contribution to journalArticlepeer-review

    Abstract

    GIn response to stress, the translation of many mRNAs in yeast can change in a fashion discordant with the general repression of translation. Here, we use machine learning to mine the properties of these mRNAs to determine specific translation control signals. We find a strong association between transcripts acutely translationally repressed under oxidative stress and those associated with the RNA-binding protein Puf3p, a known regulator of cellular mRNAs encoding proteins targeted to mitochondria. Under oxidative stress, a PUF3 deleted strain exhibits more robust growth than wild-type cells and the shift in translation from polysomes to monosomes is attenuated, suggesting puf3D cells perceive less stress. In agreement, the ratio of reduced:oxidized glutathione, a major antioxidant and indicator of cellular redox state, is increased in unstressed puf3D cells but remains lower under stress. In untreated conditions, Puf3p migrates with polysomes rather than ribosome-free fractions, but this is lost under stress. Finally, reverse transcriptase-polymerase chain reaction (RT-PCR) of Puf3p targets following affinity purification shows Puf3p-mRNA associations are maintained or increased under oxidative stress. Collectively, these results point to Puf3p acting as a translational repressor in a manner exceeding the global translational response, possibly by temporarily limiting synthesis of new mitochondrial proteins as cells adapt to the stress. © 2013 The Author(s).
    Original languageEnglish
    Pages (from-to)1026-1041
    Number of pages15
    JournalNucleic acids research.
    Volume42
    Issue number2
    Early online date25 Oct 2013
    DOIs
    Publication statusPublished - 2014

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