Add to ORKGLike all microorganisms, yeast cells spend most of their natural lifetime in a reversible, quiescent state that is primarily induced by limitation for essential nutrients. Substantial progress has been made in defining the features of quiescent cells and the nutrient-signaling pathways that shape these features. A view that emerges from the wealth of new data is that yeast cells dynamically configure the quiescent state in response to nutritional challenges by using a set of key nutrient-signaling pathways, which (1) regulate pathway-specific effectors, (2) converge on a few regulatory nodes that bundle multiple inputs to communicate unified, graded responses, and (3) mutually modulate their competences to transmit signals. Here, I present ...
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
AbstractA cell's reaction to any change in the endogenous or exogenous conditions often involves a c...
Protein kinase C, encoded by PKC1, regulates construction of the cell surface in vegetatively growin...
Upon starvation for glucose or any other macronutrient, yeast cells exit from the mitotic cell cycle...
Studies on replicative and chronological aging in Saccharomyces cerevisiae have greatly advanced our...
International audienceMost cells, from unicellular to complex organisms, spend part of their life in...
Based on the recent findings of the Titorenko laboratory, I hypothesized that caloric restriction sl...
The manipulation of nutrient-signaling pathways in yeast has uncovered the impact of environmental g...
SummaryThe TORC1 and PKA protein kinases are central elements of signaling networks that regulate eu...
Cells need to coordinate their metabolism with the cell division cycle to survive un der changing nu...
The application of yeast as a model organism for studying eukaryotic pathways, notably mechanisms an...
Abstract Cell growth and quiescence in eukaryotic cells is controlled by an evolutionarily conserved...
The nutrient composition of the medium has dramatic effects on many cellular properties in the yeast...
SummaryDepletion of essential nutrients triggers regulatory programs that prolong cell growth and su...
Depletion of essential nutrients triggers regulatory programs that prolong cell growth and survival....
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
AbstractA cell's reaction to any change in the endogenous or exogenous conditions often involves a c...
Protein kinase C, encoded by PKC1, regulates construction of the cell surface in vegetatively growin...
Upon starvation for glucose or any other macronutrient, yeast cells exit from the mitotic cell cycle...
Studies on replicative and chronological aging in Saccharomyces cerevisiae have greatly advanced our...
International audienceMost cells, from unicellular to complex organisms, spend part of their life in...
Based on the recent findings of the Titorenko laboratory, I hypothesized that caloric restriction sl...
The manipulation of nutrient-signaling pathways in yeast has uncovered the impact of environmental g...
SummaryThe TORC1 and PKA protein kinases are central elements of signaling networks that regulate eu...
Cells need to coordinate their metabolism with the cell division cycle to survive un der changing nu...
The application of yeast as a model organism for studying eukaryotic pathways, notably mechanisms an...
Abstract Cell growth and quiescence in eukaryotic cells is controlled by an evolutionarily conserved...
The nutrient composition of the medium has dramatic effects on many cellular properties in the yeast...
SummaryDepletion of essential nutrients triggers regulatory programs that prolong cell growth and su...
Depletion of essential nutrients triggers regulatory programs that prolong cell growth and survival....
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
AbstractA cell's reaction to any change in the endogenous or exogenous conditions often involves a c...
Protein kinase C, encoded by PKC1, regulates construction of the cell surface in vegetatively growin...