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Publications by Kam-Leung Siu

Loss of Yeast Peroxiredoxin Tsa1p Induces Genome Instability Through Activation of the DNA Damage Checkpoint and Elevation of dNTP Levels

PLoS Genetics

English

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Genome Instability Induced by Low Levels of Replicative DNA Polymerases in Yeast

Genes

Genetics

2018

English

Corrigendum: Adaptation to DNA Damage Checkpoint in Senescent Telomerase-Negative Cells Promotes Genome Instability

Genes and Development

Genetics

Developmental Biology

2019

English

The G2 Checkpoint Activated by DNA Damage Does Not Prevent Genome Instability in Plant Cells

English

Checkpoint Adaptation Precedes Spontaneous and Damage-Induced Genomic Instability in Yeast

Molecular and Cellular Biology

Cell Biology

Molecular Biology

2001

English

Histone H3 Lysine 14 Acetylation Is Required for Activation of a DNA Damage Checkpoint in Fission Yeast

Journal of Biological Chemistry

English

A Requirement for Replication in Activation of the ATR-dependent DNA Damage Checkpoint

Genes and Development

Genetics

Developmental Biology

2002

English

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

2003

English

DNA Damage Induces Chk1-Dependent Threonine-160 Phosphorylation and Activation of Cdk2

English

RAD9 and RAD24 Define Two Additive, Interacting Branches of the DNA Damage Checkpoint Pathway in Budding Yeast Normally Required for Rad53 Modification and Activation

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Kam-Leung Siu

Loss of Yeast Peroxiredoxin Tsa1p Induces Genome Instability Through Activation of the DNA Damage Checkpoint and Elevation of dNTP Levels

Related publications

Genome Instability Induced by Low Levels of Replicative DNA Polymerases in Yeast

Corrigendum: Adaptation to DNA Damage Checkpoint in Senescent Telomerase-Negative Cells Promotes Genome Instability

The G2 Checkpoint Activated by DNA Damage Does Not Prevent Genome Instability in Plant Cells

Checkpoint Adaptation Precedes Spontaneous and Damage-Induced Genomic Instability in Yeast

Histone H3 Lysine 14 Acetylation Is Required for Activation of a DNA Damage Checkpoint in Fission Yeast

A Requirement for Replication in Activation of the ATR-dependent DNA Damage Checkpoint

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

DNA Damage Induces Chk1-Dependent Threonine-160 Phosphorylation and Activation of Cdk2

RAD9 and RAD24 Define Two Additive, Interacting Branches of the DNA Damage Checkpoint Pathway in Budding Yeast Normally Required for Rad53 Modification and Activation