Kara A. Nyberg scite author profile

DNA checkpoints play a significant role in cancer pathology, perhaps most notably in maintaining genome stability. This review summarizes the genetic and molecular mechanisms of checkpoint activation in response to DNA damage. The major checkpoint proteins common to all eukaryotes are identified and discussed, together with how the checkpoint proteins interact to induce arrest within each cell cycle phase. Also discussed are the molecular signals that activate checkpoint responses, including single-strand DNA, double-strand breaks, and aberrant replication forks. We address the connection between checkpoint proteins and damage repair mechanisms, how cells recover from an arrest response, and additional roles that checkpoint proteins play in DNA metabolism. Finally, the connection between checkpoint gene mutation and genomic instability is considered.

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Details and Concerns Regarding the G2/M DNA Damage Checkpoint in Budding Yeast

Weinert¹,

Little²,

Shanks³

et al. 2000

Cold Spring Harbor Symposia on Quantitative Biology

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Analysis of Rad9 Functions; Roles in the Checkpoint Response, DNA Damage Processing, and Prevention of Genomic Instability

Nyberg¹,

Weinert²

2003

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Sensing voltage for function

Nyberg¹

2005

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Nyberg¹

2005

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Kara A. Nyberg

Toward Maintaining the Genome: DNA Damage and Replication Checkpoints

Details and Concerns Regarding the G2/M DNA Damage Checkpoint in Budding Yeast

Analysis of Rad9 Functions; Roles in the Checkpoint Response, DNA Damage Processing, and Prevention of Genomic Instability

Sensing voltage for function

Gradient upon gradient

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