The RNA Binding Protein Csx1 Promotes Sexual Differentiation in Schizosaccharomyces pombe

Ana M Matia-Gonzalez,Miguel A Rodriguez-Gabriel,Jael Sotelo,Juan Mata

doi:10.1371/journal.pone.0030067

Ana M Matia-Gonzalez, Miguel A Rodriguez-Gabriel + Show 2 more

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https://doi.org/10.1371/journal.pone.0030067

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Abstract

Sexual differentiation is a highly regulated process in the fission yeast Schizosaccharomyces pombe and is triggered by nutrient depletion, mainly nitrogen source.One of the key regulatory proteins in fission yeast sexual differentiation is the transcription factor Ste11. Ste11 regulates the transcription of many genes required for the initial steps of conjugation and meiosis, and its deficiency leads to sterility. Ste11 activity is mainly regulated at two levels: phosphorylation and abundance of its mRNA.Csx1 is an RNA binding protein that we have previously described to bind and regulate the turnover rate of the mRNA encoding the transcription factor Atf1 in the presence of oxidative stress.We have observed that Csx1-deficient cells have defects in sexual differentiation and are partially sterile. We investigated how Csx1 is regulating this process in S. pombe. Csx1 associates with ste11+ mRNA and cells lacking Csx1 are sterile with a reduced amount of ste11+ mRNA. Overexpression of ste11+ mRNA completely rescues the mating deficiencies of csx1Δ cells.Here, we present a novel mechanism of ste11+ mRNA positive regulation through the activity of Csx1, an RNA binding protein that also have key functions in the response to oxidative stress in fission yeast. This finding opens interesting question about the possible coordination of sexual differentiation and oxidative stress response in eukaryotes and the role of RNA binding proteins in the adaptation to environmental signals.

Highlights

In the fission yeast S. pombe, haploid homothallic (h90) and heterothallic (h+ or h2) strains reproduce by mitosis and are divided by medial fission under standard growth conditions
In this report we have examined the role of Csx1 RNA binding protein in the sexual differentiation process in S. pombe
This sterility can be fully rescued by overproduction of the transcription factor Ste11

Summary

Introduction

In the fission yeast S. pombe, haploid homothallic (h90) and heterothallic (h+ or h2) strains reproduce by mitosis and are divided by medial fission under standard growth conditions. Diploids undergo meiosis and sporulation, producing four haploid spores (tetrad) that, under adequate conditions, would germinate finishing the mating cycle [1]. The transcription factor Ste is a key factor in the sexual differentiation process in S. pombe [2]. Ste participates in the transcriptional induction of many genes involved in the mating process, including the key meiotic regulator Mei, and cells deficient in Ste are profoundly sterile [2,3,4,5]. Ste protein is phosphorylated by several kinases including Pat, Spk and Cdc2 [6,7,8,9], and second, Ste mRNA abundance is regulated by Atf, Rst, Pcr and Prr transcription factors [10,11,12,13,14,15] and Msa and Msa2/Nrd RNA binding proteins [16,17,18]

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