Add to ORKGStudies using the Saccharomyces cerevisiae aging model have uncovered life span regulatory pathways that are partially conserved in higher eukaryotes1-2. The simplicity and power of the yeast aging model can also be explored to study DNA damage and genome maintenance as well as their contributions to diseases during aging. Here, we describe a system to study age-dependent DNA mutations, including base substitutions, frame-shift mutations, gross chromosomal rearrangements, and homologous/homeologous recombination, as well as nuclear DNA repair activity by combining the yeast chronological life span with simple DNA damage and mutation assays. The methods described here should facilitate the identification of genes/pathways that regulate genom...
Copyright © 2012 Ricardo Gredilla et al. This is an open access article distributed under the Creati...
All eukaryotic genomes are assembled into a nucleoprotein structure termed chromatin, which is compr...
AbstractIn the September 26 issue of Science, McMurray and Gottschling (2003) report that aged yeast...
International audienceAging is the major risk factor for many human cancers. However, the mechanisms...
International audienceAging is the major risk factor for many human cancers. However, the mechanisms...
Saccharomyces cerevisiae has been an excellent model system for examining mechanisms and consequence...
There is a striking link between increasing age and the incidence of cancer in humans. One of the ha...
Aging brings a gradual decline in molecular fidelity and biological functionality, resulting in age ...
Genome instability is a fundamentally important component of aging in all eukaryotes. How age-relate...
The budding yeast Saccharomyces cerevisiae divides asymmetrically, producing a new daughter cell fro...
Copyright © 2013 Katya Uzunova et al.This is an open access article distributed under the Creative C...
The concept that mutations cause aging phenotypes could not be directly tested previously due to ina...
Genome instability is a fundamentally important component of aging in all eukaryotes. How age-relate...
The concept that mutations cause aging phenotypes could not be directly tested previously due to ina...
S. cerevisiae plays a pivotal role as a model system in understanding the biochemistry and molecular...
Copyright © 2012 Ricardo Gredilla et al. This is an open access article distributed under the Creati...
All eukaryotic genomes are assembled into a nucleoprotein structure termed chromatin, which is compr...
AbstractIn the September 26 issue of Science, McMurray and Gottschling (2003) report that aged yeast...
International audienceAging is the major risk factor for many human cancers. However, the mechanisms...
International audienceAging is the major risk factor for many human cancers. However, the mechanisms...
Saccharomyces cerevisiae has been an excellent model system for examining mechanisms and consequence...
There is a striking link between increasing age and the incidence of cancer in humans. One of the ha...
Aging brings a gradual decline in molecular fidelity and biological functionality, resulting in age ...
Genome instability is a fundamentally important component of aging in all eukaryotes. How age-relate...
The budding yeast Saccharomyces cerevisiae divides asymmetrically, producing a new daughter cell fro...
Copyright © 2013 Katya Uzunova et al.This is an open access article distributed under the Creative C...
The concept that mutations cause aging phenotypes could not be directly tested previously due to ina...
Genome instability is a fundamentally important component of aging in all eukaryotes. How age-relate...
The concept that mutations cause aging phenotypes could not be directly tested previously due to ina...
S. cerevisiae plays a pivotal role as a model system in understanding the biochemistry and molecular...
Copyright © 2012 Ricardo Gredilla et al. This is an open access article distributed under the Creati...
All eukaryotic genomes are assembled into a nucleoprotein structure termed chromatin, which is compr...
AbstractIn the September 26 issue of Science, McMurray and Gottschling (2003) report that aged yeast...