Epigenetic modifications allow cells to quickly alter their gene expression and adapt to different stresses. In addition to direct chromatin modifications, prion-like proteins have recently emerged as a system that can sense and adapt the cellular response to stressful conditions. Interestingly, such responses are maintained through prions' self-templating conformations and transmitted to the progeny of the cell that established a prion trait. Alternatively, mnemons are prion-like proteins which conformational switch encodes memories of past events and yet does not propagate to daughter cells. In this review, we explore the biology of the recently described prions found in Saccharomyces cerevisiae including [ESI+], [SMAUG+], [GAR+], [MOT3+], [MOD+], [LSB+] as well as the Whi3 mnemon. The reversibility of the phenotypes they encode allows cells to remove traits which are no longer adaptive under stress relief and chaperones play a fundamental role in all steps of prion-like proteins functions. Thus, the interplay between chaperones and prion-like proteins provides a framework to establish responses to challenging environments.
Keywords: Chaperones; Memory; Mnemon; Prion; Stress.
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