Add to ORKGCells must overcome replication blocks that might otherwise lead to genomic instability or cell death. Classical genetic experiments have identified a series of mechanisms that cells use to replicate damaged DNA: translesion synthesis, template switching and homologous recombination. In translesion synthesis, DNA lesions are replicated directly by specialised DNA polymerases, a potentially error-prone approach. Template switching and homologous recombination use an alternative undamaged template to allow the replicative polymerases to bypass DNA lesions and, hence, are generally error free. Classically, these pathways have been viewed as alternatives, competing to ensure replication of damaged DNA templates is completed. However, this view ...
AbstractMost types of DNA damage block the passage of the replication machinery. In order to bypass ...
The integrity of DNA is essential for the survival of all living organisms. However, cellular DNA i...
Accurate duplication of chromosomal DNA is essential for the transmission of genetic information. Th...
During every S phase, cells need to duplicate their genomes so that both daughter cells inherit comp...
Accurate DNA replication is crucial for cell survival and the maintenance of genome stability. Cells...
DNA is a chemically reactive molecule that is subject to many different covalent modifications from ...
DNA harbors the genetic information in all living organisms and plays a pivotal role in passing the ...
DNA replication is constantly challenged by DNA lesions, noncanonical DNA structures and difficult-t...
A variety of repair mechanisms exist to remove dam-aged bases from DNA. However, if the damage is no...
DNA contains the genetic information of all living organisms. Therefore, its integrity and stability...
This is an open access article under the terms of the Creative Commons Attribution License.-- et al....
DNA damage tolerance (DDT) mechanisms are crucial for genome integrity as they allow efficient bypas...
The replication of damaged DNA involves cascading mechanisms of increasing complexity but decreasing...
Translesion synthesis (TLS) DNA polymerases allow the bypass of unrepaired lesions during DNA replic...
Most types of DNA damage block the passage of the replication machinery. In order to bypass these bl...
AbstractMost types of DNA damage block the passage of the replication machinery. In order to bypass ...
The integrity of DNA is essential for the survival of all living organisms. However, cellular DNA i...
Accurate duplication of chromosomal DNA is essential for the transmission of genetic information. Th...
During every S phase, cells need to duplicate their genomes so that both daughter cells inherit comp...
Accurate DNA replication is crucial for cell survival and the maintenance of genome stability. Cells...
DNA is a chemically reactive molecule that is subject to many different covalent modifications from ...
DNA harbors the genetic information in all living organisms and plays a pivotal role in passing the ...
DNA replication is constantly challenged by DNA lesions, noncanonical DNA structures and difficult-t...
A variety of repair mechanisms exist to remove dam-aged bases from DNA. However, if the damage is no...
DNA contains the genetic information of all living organisms. Therefore, its integrity and stability...
This is an open access article under the terms of the Creative Commons Attribution License.-- et al....
DNA damage tolerance (DDT) mechanisms are crucial for genome integrity as they allow efficient bypas...
The replication of damaged DNA involves cascading mechanisms of increasing complexity but decreasing...
Translesion synthesis (TLS) DNA polymerases allow the bypass of unrepaired lesions during DNA replic...
Most types of DNA damage block the passage of the replication machinery. In order to bypass these bl...
AbstractMost types of DNA damage block the passage of the replication machinery. In order to bypass ...
The integrity of DNA is essential for the survival of all living organisms. However, cellular DNA i...
Accurate duplication of chromosomal DNA is essential for the transmission of genetic information. Th...