Yeast adaptation to stress has been extensively studied. It involves large reprogramming of
genome expression operated by many, more or less specific, transcription factors. Here, we …

The budding yeast Saccharomyces cerevisiae possesses a very flexible and complex
programme of gene expression when exposed to several environmental challenges …

Chitosan is a plasma membrane-perturbing compound consisting of linear chains of β-1, 4-
linked glucosamine residues, which at acidic pHs become positively charged. It is …

When yeast cells are grown continuously at high cell density, a respiratory oscillation
percolates throughout the population. Many essential cellular functions have been shown to …

Grape must is a sugar‐rich habitat for a complex microbiota which is replaced by
Saccharomyces cerevisiae strains during the first fermentation stages. Interest on yeast …

Maintaining the proper expression of the transcriptome during development or in response
to a changing environment requires a delicate balance between transcriptional regulators …

Abstract'ReMoDiscovery'is an intuitive algorithm to correlate regulatory programs with
regulators and corresponding motifs to a set of co-expressed genes. It exploits in a …

Background Stress responses provide valuable models for deciphering the transcriptional
networks controlling the adaptation of the cell to its environment. We analyzed the …

Regulation of gene expression is a vital part of the cellular stress response, yet the full set of
proteins that orchestrate this regulation remains unknown. Snt2 is a Saccharomyces …

Understanding of thermal adaptation mechanisms in yeast is crucial to develop better-
adapted strains to industrial processes, providing more economical and sustainable …