posted on 2015-10-16, 00:00authored byAnna Payne-Tobin Jost, Orion D. Weiner
We
recently developed a technique for rapidly and reversibly inhibiting
protein function through light-inducible sequestration of proteins
away from their normal sites of action. Here, we adapt this method
for inducible inactivation of Bem1, a scaffold protein involved in
budding yeast polarity. We find that acute inhibition of Bem1 produces
profound defects in cell polarization and cell viability that are
not observed in bem1Δ. By disrupting Bem1 activity
at specific points in the cell cycle, we demonstrate that Bem1 is
essential for the establishment of polarity and bud emergence but
is dispensable for the growth of an emerged bud. By taking advantage
of the reversibility of Bem1 inactivation, we show that pole size
scales with cell size, and that this scaling is dependent on the actin
cytoskeleton. Our experiments reveal how rapid reversible inactivation
of protein function complements traditional genetic approaches. This
strategy should be widely applicable to other biological contexts.