Suffering in silence: the tolerance of DNA damage
EC Friedberg - Nature reviews Molecular cell biology, 2005 - nature.com
EC Friedberg
Nature reviews Molecular cell biology, 2005•nature.comWhen cells that are actively replicating DNA encounter sites of base damage or strand
breaks, replication might stall or arrest. In this situation, cells rely on DNA-damage-tolerance
mechanisms to bypass the damage effectively. One of these mechanisms, known as
translesion DNA synthesis, is supported by specialized DNA polymerases that are able to
catalyse nucleotide incorporation opposite lesions that cannot be negotiated by high-fidelity
replicative polymerases. A second category of tolerance mechanism involves alternative …
breaks, replication might stall or arrest. In this situation, cells rely on DNA-damage-tolerance
mechanisms to bypass the damage effectively. One of these mechanisms, known as
translesion DNA synthesis, is supported by specialized DNA polymerases that are able to
catalyse nucleotide incorporation opposite lesions that cannot be negotiated by high-fidelity
replicative polymerases. A second category of tolerance mechanism involves alternative …
Abstract
When cells that are actively replicating DNA encounter sites of base damage or strand breaks, replication might stall or arrest. In this situation, cells rely on DNA-damage-tolerance mechanisms to bypass the damage effectively. One of these mechanisms, known as translesion DNA synthesis, is supported by specialized DNA polymerases that are able to catalyse nucleotide incorporation opposite lesions that cannot be negotiated by high-fidelity replicative polymerases. A second category of tolerance mechanism involves alternative replication strategies that obviate the need to replicate directly across sites of template-strand damage.
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