Implementation of an extrachromosomal system for the detection of novel DNA double strand break repair genes in S. cerevisiae

Caputo Galarce, Valentina

January 2003

No description available.

572.86459

DNA repair

Characterization of the fission yeast rad2 gene

Al-Harithy, Rowyda Nawwaf

January 1994

No description available.

572.8

DNA repair

The rejoining of non-homologous DNA double-strand breaks by mammalian cell free extracts

Mason, Rebecca Mary Aglaia

January 1996

No description available.

572

DNA repair

DNA helicase II and exonuclease V of Escherichia coli

Cavanagh, David R.

January 1990

No description available.

572.8

DNA repair and recombination

Molecular organisation and functional analysis of the chromosomal ruv region of Escherichia coli K12

Sharples, Gary John

January 1990

No description available.

572.8

DNA repair mechanisms

Effects of the benzotriazine-di-N-oxide tirapazamine upon DNA

Walmsley, Ray

January 1995

No description available.

615.1

DNA repair; Tumour

Analysis of the Escherichia coli K12 RuvC recombination protein

Hagan, Nicola Frances Petrina

January 1996

No description available.

572.8

DNA repair

The RusA resolvase protein of Escherichia coli K-12

Chan, Sau Ngor

January 1996

No description available.

572

DNA repair

Molecular and functional analysis of the sbcC gene of Escherichia coli K12

Naom, Isam Said

January 1991

No description available.

572.8

DNA repair mechanisms

Hypoxia Suppresses DNA Repair: Implications for Cancer Progression and Treatment

Chan, Norman

14 February 2011

Acute and chronic hypoxia exists within the microenvironment of solid tumours and drives therapy resistance, genetic instability and metastasis. Despite its importance in solid tumour progression, very little is known regarding the functional consequences of hypoxia-mediated changes in the expression of DNA repair proteins. I studied the relationship between hypoxia and DNA repair using a prolonged chronic hypoxic gas treatment model in a variety of human tumour cell lines to mimic the dynamic state of proliferation and DNA repair in cells distant from the tumour blood vasculature. I observed decreased expression of homologous recombination (HR) and base excision repair (BER) proteins due to a novel mechanism involving decreased protein synthesis. Error-free HR was suppressed 3-fold under 0.2% O2 as measured by the DR-GFP reporter system and functional BER was impaired as assessed with a functional glycosylase assay. This decrease in protein expression and function resulted in increased sensitivity to the DNA damaging agents MMC, cisplatin, H2O2 and MMS. Additionally, chronically hypoxic cells were relatively radiosensitive (OER = 1.37) when compared to acutely hypoxic or anoxic cells (OER = 1.96 - 2.61). As HR defects are synthetically lethal with poly(ADP-ribose) polymerase 1 (PARP1) inhibition, I evaluated the sensitivity of repair-defective hypoxic cells to PARP inhibition. I observed increased clonogenic killing in HR-deficient hypoxic cells following inhibition or depletion of PARP1. PARP-inhibited hypoxic cells accumulated γH2AX foci consistent with an accumulation of collapsed replication forks. Additionally, tumour xenografts exposed to PARP1 inhibition showed increased γH2AX and cleaved caspase-3 expression in hypoxic subregions with suppressed RAD51 protein expression and decreased ex vivo clonogenic survival. I conclude that persistent down-regulation of DNA repair components by the microenvironment could result in faulty DNA repair with significant implications for therapeutic response and genetic instability in human cancers. Specifically, hypoxic cells may be sensitized to PARP inhibitors and other agents targeting repair pathways down-regulated by hypoxia as a consequence of microenvironment-mediated “contextual synthetic lethality”.

Hypoxia

DNA Repair

0760