Add to ORKGBeing able to respond to extracellular cues such as nutrients and growth factors is of vital importance to all living cells. Pathways have therefore evolved which can sense the extracellular status, transmit a signal through the cell and affect gene expression, which ultimately enables adaptation. Intriguingly, research has revealed that such signaling pathways responding to nutrient status are intrinsically linked to the lifespan of organisms, a phenomenon known as caloric restriction. This thesis utilizes budding yeast, Saccharomyces cerevisiae, as a model system to investigate how transcription factors affect gene expression in response to nutrient signaling pathways. Paper I investigates the role of the three homologous transcription fa...
Ageing processes involved in replicative lifespan (RLS) and chronological lifespan (CLS) have been f...
The knowledge on the molecular aspects regulating ageing in eukaryotic organisms has benefitted grea...
Cells need to sense the environment in order to survive, in particular they need to detect nutrients...
In this thesis, nutrient signalling in yeast is used as a model to study several features of gene re...
In this thesis, nutrient signalling in yeast is used as a model to study several features of gene re...
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
Addition of glucose to yeast cells increases their growth rate and results in amassive restructuring...
<div><p>Aging in organisms as diverse as yeast, nematodes, and mammals is delayed by caloric restric...
Cellular responses to starvation are of ancient origin since nutrient limitation has always been a c...
Addition of glucose to yeast cells increases their growth rate and results in amassive restructuring...
The budding yeast Saccharomyces cerevisiae exhibits exquisite control of cellular size in response t...
Aging in organisms as diverse as yeast, nematodes, and mammals is delayed by caloric restriction, an...
The budding yeast Saccharomyces cerevisiae exhibits exquisite control of cellular size in response t...
Aging in organisms as diverse as yeast, nematodes, and mammals is delayed by caloric restriction, an...
Ageing processes involved in replicative lifespan (RLS) and chronological lifespan (CLS) have been f...
The knowledge on the molecular aspects regulating ageing in eukaryotic organisms has benefitted grea...
Cells need to sense the environment in order to survive, in particular they need to detect nutrients...
In this thesis, nutrient signalling in yeast is used as a model to study several features of gene re...
In this thesis, nutrient signalling in yeast is used as a model to study several features of gene re...
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
BACKGROUND: A microorganism is able to adapt to changes in its physicochemical or nutritional enviro...
Addition of glucose to yeast cells increases their growth rate and results in amassive restructuring...
<div><p>Aging in organisms as diverse as yeast, nematodes, and mammals is delayed by caloric restric...
Cellular responses to starvation are of ancient origin since nutrient limitation has always been a c...
Addition of glucose to yeast cells increases their growth rate and results in amassive restructuring...
The budding yeast Saccharomyces cerevisiae exhibits exquisite control of cellular size in response t...
Aging in organisms as diverse as yeast, nematodes, and mammals is delayed by caloric restriction, an...
The budding yeast Saccharomyces cerevisiae exhibits exquisite control of cellular size in response t...
Aging in organisms as diverse as yeast, nematodes, and mammals is delayed by caloric restriction, an...
Ageing processes involved in replicative lifespan (RLS) and chronological lifespan (CLS) have been f...
The knowledge on the molecular aspects regulating ageing in eukaryotic organisms has benefitted grea...
Cells need to sense the environment in order to survive, in particular they need to detect nutrients...