Topics
genomeChemical compound
mismatch repairBiomolecule
8-oxoguanineChemical substance
cell divisionTelevision show
DNA repairBook
Saccharomyces cerevisiaeپھُپھُوندی
yeastپھُپھُوندی
polymeraseProtein
DNAElection
S phaseTelevision show
<p>Preserving genome stability is critical to ensure the faithful transmission of intact genetic material through each cell division. One of the key components of this preservation is maintaining low levels of mutagenesis. Most mutations arise during replication of the genome, either as polymerase errors made when copying an undamaged DNA template or during the bypass of DNA lesions. Many different DNA repair proteins act both prior to and during replication to prevent the occurrence of these mutations. Although the mechanisms by which mutations occur and the various repair proteins that act to suppress mutagenesis are conserved throughout all species, they are best characterized in the yeast <italic>Saccharomyces cerevisiae</italic>. ...
AbstractCloning of the OGG1 gene from Saccharomyces cerevisiae has revealed that DNA glycosylases ar...
Mutations in simple sequence repeat loci underlie many inherited disorders in humans, and are increa...
DNA must be synthesized for purposes of genome duplication and DNA repair. While the former is a hig...
Reactive oxygen species are ubiquitous mutagens that have been linked to both disease and aging. The...
A change in the number of base pairs within a coding sequence can result in a frameshift mutation, w...
DNA polymerases influence genome stability through their involvement in DNA replication, response to...
DNA suffers constant damage, leading to a variety of lesions that require repair. One of the most de...
Frameshift mutations occur when the coding region of a gene is altered by addition or deletion of a ...
The postreplicative mismatch repair (MMR) system is important for removing mutational intermediates ...
All living organisms are made of cells, within which genetic information is stored on long strands o...
Abstract The high-fidelity transmission of genetic information is crucial for the survival of organi...
In order to understand the role of yeast polymerases in spontaneous mutagenesis in non-growing cells...
<p>Mitotic genome instability can occur during the repair of double-strand breaks (DSBs) in DNA, whi...
The sources of genome instability, a hallmark of cancer, remain incompletely understood. One potenti...
Recombinational repair processes multiple types of DNA lesions. Though best understood in the repair...
AbstractCloning of the OGG1 gene from Saccharomyces cerevisiae has revealed that DNA glycosylases ar...
Mutations in simple sequence repeat loci underlie many inherited disorders in humans, and are increa...
DNA must be synthesized for purposes of genome duplication and DNA repair. While the former is a hig...
Reactive oxygen species are ubiquitous mutagens that have been linked to both disease and aging. The...
A change in the number of base pairs within a coding sequence can result in a frameshift mutation, w...
DNA polymerases influence genome stability through their involvement in DNA replication, response to...
DNA suffers constant damage, leading to a variety of lesions that require repair. One of the most de...
Frameshift mutations occur when the coding region of a gene is altered by addition or deletion of a ...
The postreplicative mismatch repair (MMR) system is important for removing mutational intermediates ...
All living organisms are made of cells, within which genetic information is stored on long strands o...
Abstract The high-fidelity transmission of genetic information is crucial for the survival of organi...
In order to understand the role of yeast polymerases in spontaneous mutagenesis in non-growing cells...
<p>Mitotic genome instability can occur during the repair of double-strand breaks (DSBs) in DNA, whi...
The sources of genome instability, a hallmark of cancer, remain incompletely understood. One potenti...
Recombinational repair processes multiple types of DNA lesions. Though best understood in the repair...
AbstractCloning of the OGG1 gene from Saccharomyces cerevisiae has revealed that DNA glycosylases ar...
Mutations in simple sequence repeat loci underlie many inherited disorders in humans, and are increa...
DNA must be synthesized for purposes of genome duplication and DNA repair. While the former is a hig...
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