Andreas Meier scite author profile

Phosphorylated histone H2AX (cH2AX) is generated in nucleosomes flanking sites of DNA double-strand breaks, triggering the recruitment of DNA-damage response proteins such as MDC1 and 53BP1. Here, we study shortened telomeres in senescent human cells. We show that most telomeres trigger cH2AX formation, which spreads up to 570 kb into the subtelomeric regions. Furthermore, we reveal that the spreading patterns of 53BP1 and MDC1 are very similar to that of cH2AX, consistent with a structural link between these factors. Moreover, different subsets of telomeres signal in different cell lines, with those that signal tending to equate to the shortest telomeres of the corresponding cell line, thus linking telomere attrition with DNA-damage signalling. Notably, we find that, in some cases, cH2AX spreading is modulated in a manner suggesting that H2AX distribution or its ability to be phosphorylated is not uniform along the chromosome. Finally, we observe weak cH2AX signals at telomeres of proliferating cells, but not in hTERT immortalised cells, suggesting that low telomerase activity leads to telomere uncapping and senescence in proliferating primary cells.

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Performance Measurement Systems Must Be Engineered

Kueng¹,

Meier²,

Wettstein³

2001

CAIS

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The aim of this paper, which puts special emphasis on IT-related aspects, is threefold.• First, it defines requirements a modern Performance Measurements System (PMS) should meet. The list of requirements generated can be used both to assess a current PMS, and to identify ways to improve an existing PMS.• Second, it reports the findings of an empirical study, which seeks to identify the shortcomings of existing PMSs.• Third, a life cycle for PMSs is suggested.

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RNA Polymerase II Transcription Inhibits DNA Repair by Photolyase in the Transcribed Strand of Active Yeast Genes

Livingstone‐Zatchej

Meier

Suter

et al. 1997

Nucleic Acids Research

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Yeast uses nucleotide excision repair (NER) and photolyase (photoreactivation) to repair cyclobutane pyrimidine dimers (CPDs) generated by ultraviolet light. In active genes, NER preferentially repairs the transcribed strand (TS). In contrast, we recently showed that photolyase preferentially repairs the non-transcribed strands (NTS) of the URA3 and HIS3 genes in minichromosomes. To test whether photoreactivation depends on transcription, repair of CPDs was investigated in the transcriptionally regulated GAL10 gene in a yeast strain deficient in NER [AMY3 (rad1Delta)]. In the active gene (cells grown in galactose), photoreactivation was fast in the NTS and slow in the TS demonstrating preferential repair of the NTS. In the inactive gene (cells grown in glucose), both strands were repaired at similar rates. This suggests that RNA polymerases II blocked at CPDs inhibit accessibility of CPDs to photolyase. In a strain in which both pathways are operational [W303-1a (RAD1)], no strand bias was observed either in the active or inactive gene, demonstrating that photoreactivation of the NTS compensates preferential repair of the TS by NER. Moreover, repair of the NTS was more quickly in the active gene than in the repressed gene indicating that transcription dependent disruption of chromatin facilitates repair of an active gene.

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Andreas Meier

Spreading of mammalian DNA-damage response factors studied by ChIP-chip at damaged telomeres

Performance Measurement Systems Must Be Engineered

RNA Polymerase II Transcription Inhibits DNA Repair by Photolyase in the Transcribed Strand of Active Yeast Genes

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