The Scw1 RNA-Binding Domain Protein Regulates Septation and Cell-Wall Structure in Fission Yeast

The Scw1 RNA-Binding Domain Protein Regulates Septation and Cell-Wall Structure in Fission Yeast

Jim Karagiannis^a, Rena Oulton^a, and Paul G. Young^a
^a Department of Biology, Queen's University, Kingston, Ontario K7L-3N6, Canada

Corresponding author: Paul G. Young, Rm. 2443, Biosciences Complex, Queen's University, Kingston, ON K7L-3N6, Canada., youngpg{at}biology.queensu.ca (E-mail)

Communicating editor: P. RUSSELL

Loss of the nonessential RNA-binding domain protein, Scw1, increasesresistance to cell-wall-degrading enzymes in fission yeast.Surprisingly, scw1 null mutations also suppress the lethalityof mutations (cdc11-136, cdc7-24, cdc14-118, sid1-239, sid2-250,sid3-106, sid4-A1, and mob1-1) at all levels of the sid pathway.This pathway forms part of the septation initiation network(SIN), which regulates the onset of septum formation and ensuresthe proper coupling of mitosis to cytokinesis. In contrast,scw1^- mutations do not suppress ts alleles of the rng genes,cdc12 or cdc15. These mutations also prevent the formation ofa septum and in addition block assembly and/or function of thecontractile acto-myosin ring. sid mutants exhibit a hyper-sensitivityto cell-wall-degrading enzymes that is suppressed by loss ofScw1. Furthermore, scw1^--mediated rescue of sid mutants is abolishedin the presence of calcofluor white, a compound that interfereswith cell-wall synthesis. These data suggest that Scw1 actsin opposition to the SIN as a negative regulator of cell-wall/septumdeposition. Unlike components of the SIN, Scw1 is predominantlya cytoplasmic protein and is not localized to the spindle polebody.

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