Noel F. Lowndes scite author profile

Histone proteins associate with and compact eukaryotic nuclear DNA to form chromatin. The basic unit of chromatin is the nucleosome, which is made up of 146 base pairs of DNA wrapped around two of each of four core histones, H2A, H2B, H3 and H4. Chromatin structure and its regulation are important in transcription and DNA replication. We therefore thought that DNA-damage signalling and repair components might also modulate chromatin structure. Here we have characterized a conserved motif in the carboxy terminus of the core histone H2A from Saccharomyces cerevisiae that contains a consensus phosphorylation site for phosphatidylinositol-3-OH kinase related kinases (PIKKs). This motif is important for survival in the presence of agents that generate DNA double-strand breaks, and the phosphorylation of this motif in response to DNA damage is dependent on the PIKK family member Mec1. The motif is not necessary for Mec1-dependent cell-cycle or transcriptional responses to DNA damage, but is required for efficient DNA double-strand break repair by non-homologous end joining. In addition, the motif has a role in determining higher order chromatin structure. Thus, phosphorylation of a core histone in response to DNA damage may cause an alteration of chromatin structure that facilitates DNA repair.

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Budding Yeast Rad9 Is an ATP-Dependent Rad53 Activating Machine

Gilbert¹,

Green²,

2001

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We find budding yeast Rad9 in two distinct, large, and soluble complexes in cell extracts. The larger (> or =850 kDa) complex, found in nondamaged cells, contains hypophosphorylated Rad9, whereas the smaller (560 kDa) complex, which forms after DNA damage, contains hyperphosphorylated Rad9 and Rad53. This smaller Rad9 complex is capable of catalyzing phosphorylation and release of active Rad53 kinase, a process requiring the kinase activity of Rad53. However, Mec1 and Tel1 are no longer required once the 560 kDa complex has been formed. We propose a model whereby Mec1/Tel1-dependent hyperphosphorylation of Rad9 results in formation of the smaller Rad9 complex and recruitment of Rad53. This complex then catalyzes activation of Rad53 by acting as a scaffold that brings Rad53 molecules into close proximity, facilitating Rad53 in trans autophosphorylation and subsequent release of activated Rad53.

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Control of DNA synthesis genes in fission yeast by the cell-cycle gene cdclO+

Lowndes¹,

Al³

et al. 1992

Nature

226

211

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In the budding yeast Saccharomyces cerevisiae, cell-cycle control over DNA synthesis occurs partly through the coordinate expression in late G1 phase of many, if not all, of the genes required for DNA synthesis. A cis-acting hexamer element ACGCGT (an MluI restriction site) is responsible for coordinating transcriptional regulation of these genes at the G1/S phase boundary and we have identified a binding activity, DSC1, that recognizes these sequences in a cell-cycle-dependent manner. In the distantly related fission yeast Schizosaccharomyces pombe, only one of the known DNA synthesis genes, cdc22+, which encodes a subunit of ribonucleotide reductase, is periodically expressed in late G1 (ref. 6). The promoter region of cdc22+ has two MluI sites and five related sequences, suggesting that similar controls over DNA synthesis genes could occur in fission yeast. We report here a binding activity in fission yeast that is very similar to DSC1 in budding yeast. We also show that the fission yeast cdc10+ gene product, which is required for Start and entry into S phase, is a component of this binding activity.

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Yeast histone 2A serine 129 is essential for the efficient repair of checkpoint‐blind DNA damage

et al. 2003

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Sensing and responding to DNA damage

Lowndes¹,

Murguía²

2000

Current Opinion in Genetics & Development

247

145

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Noel F. Lowndes

A role for Saccharomyces cerevisiae histone H2A in DNA repair

Budding Yeast Rad9 Is an ATP-Dependent Rad53 Activating Machine

Control of DNA synthesis genes in fission yeast by the cell-cycle gene cdclO+

Yeast histone 2A serine 129 is essential for the efficient repair of checkpoint‐blind DNA damage

Sensing and responding to DNA damage

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