The evolutionarily conserved yeast Mec1 and Tel1 protein kinases, as well as the Mec1-
interacting protein Ddc2, are involved in the DNA damage checkpoint response. We show …

The yeast Mec1 kinase is a key regulator of the DNA damage response (DDR). In this issue
of Genes & Development, Kumar and Burgers (pp. 313–321) report that Ddc1, Dpb11, and …

Rad9 is required for the activation of DNA damage checkpoint pathways in budding yeast.
Rad9 is phosphorylated after DNA damage in a Mec1-and Tel1-dependent manner and …

In Saccharomyces cerevisiae, Mec1/ATR plays a primary role in sensing and transducing
checkpoint signals in response to different types of DNA lesions, while the role of the …

The main responder to DNA double‐strand breaks (DSBs) in mammals is ataxia
telangiectasia mutated (ATM), whereas DSB‐induced checkpoint activation in budding yeast …

Checkpoints prevent DNA replication or nuclear division when chromosomes are damaged.
The Saccharomyces cerevisiae DDC1 gene belongs to the RAD17, MEC3 and RAD24 …

DNA damage checkpoint pathways sense DNA lesions and transduce the signals into
appropriate biological responses, including cell cycle arrest, induction of transcriptional …

The Saccharomyces cerevisiae RAD9 checkpoint gene is required for transient cell‐cycle
arrests and transcriptional induction of DNA repair genes in response to DNA damage …

In budding yeast, a single DNA double-strand break (DSB) triggers the activation of Mec1
ATR-dependent DNA damage checkpoint. After about 12 h, cells turn off the checkpoint …

Genetic analysis has suggested that RAD17, RAD24, MEC3, and DDC1 play similar roles in
the DNA damage checkpoint control in budding yeast. These genes are required for DNA …