Chromatin dynamics are central to the regulation of gene expression and genome stability,
particularly in the presence of environmental signals or stresses that prompt rapid …

Oxygen provides a crucial energy source in eukaryotic cells. Hence, eukaryotes ranging
from yeast to humans have developed sophisticated mechanisms to respond to changes in …

Dynamic flux balance analysis was utilized to simulate the metabolic behaviour of initially
fully respirative and respirofermentative steady‐state cultures of Saccharomyces cerevisiae …

In industrial fermentations of Saccharomyces cerevisiae, transient changes in oxygen
concentration commonly occur and it is important to understand the behavior of cells during …

A series of novel 3-phenyl-1-(alkylphenyl)-9-oxa-4-azaphenanthren-10-ones and (E)-1-
phenyl-3-(aryl) prop-2-en-1-ones were synthesized and characterized by IR, 1H NMR, 13C …

Insulin-induced gene proteins (INSIGs) function in control of cellular cholesterol. Mammalian
INSIGs exert control by directly interacting with proteins containing sterol-sensing domains …

During development of yeast colonies, various cell subpopulations form, which differ in their
properties and specifically localize within the structure. Three branches of mitochondrial …

The genome of Saccharomyces cerevisiae is arguably the best studied eukaryotic genome,
and yet, it contains approximately 1000 genes that are still relatively uncharacterized. As the …

Background Acute changes in environmental parameters (eg, O 2, pH, UV, osmolarity,
nutrients, etc.) evoke a common transcriptomic response in yeast referred to as the" …

The absence of Tsa1, a key peroxiredoxin that scavenges H2O2 in Saccharomyces
cerevisiae, causes the accumulation of a broad spectrum of mutations. Deletion of TSA1 …