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The unstructured C-terminal tail of the 9-1-1 clamp subunit Ddc1 activates Mec1/ATR via two distinct mechanisms.


ABSTRACT: DNA damage checkpoint pathways operate to prevent cell-cycle progression in response to DNA damage and replication stress. In S. cerevisiae, Mec1-Ddc2 (human ATR-ATRIP) is the principal checkpoint protein kinase. Biochemical studies have identified two factors, the 9-1-1 checkpoint clamp and the Dpb11/TopBP1 replication protein, as potential activators of Mec1/ATR. Here, we show that G1 phase checkpoint activation of Mec1 is achieved by the Ddc1 subunit of 9-1-1, while Dpb11 is dispensable. However, in G2, 9-1-1 activates Mec1 by two distinct mechanisms. One mechanism involves direct activation of Mec1 by Ddc1, while the second proceeds by Dpb11 recruitment mediated through Ddc1 T602 phosphorylation. Two aromatic residues, W352 and W544, localized to two widely separated, conserved motifs of Ddc1, are essential for Mec1 activation in vitro and checkpoint function in G1. Remarkably, small peptides that fuse the two tryptophan-containing motifs together are proficient in activating Mec1.

SUBMITTER: Navadgi-Patil VM 

PROVIDER: S-EPMC2796261 | biostudies-literature | 2009 Dec

REPOSITORIES: biostudies-literature

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The unstructured C-terminal tail of the 9-1-1 clamp subunit Ddc1 activates Mec1/ATR via two distinct mechanisms.

Navadgi-Patil Vasundhara M VM   Burgers Peter M PM  

Molecular cell 20091201 5


DNA damage checkpoint pathways operate to prevent cell-cycle progression in response to DNA damage and replication stress. In S. cerevisiae, Mec1-Ddc2 (human ATR-ATRIP) is the principal checkpoint protein kinase. Biochemical studies have identified two factors, the 9-1-1 checkpoint clamp and the Dpb11/TopBP1 replication protein, as potential activators of Mec1/ATR. Here, we show that G1 phase checkpoint activation of Mec1 is achieved by the Ddc1 subunit of 9-1-1, while Dpb11 is dispensable. Howe  ...[more]

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