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Establishment and application of fluorescence recovery after photobleaching to study the nuclear dynamics of DNA repair proteins


Mueller, R. Establishment and application of fluorescence recovery after photobleaching to study the nuclear dynamics of DNA repair proteins. 2010, University of Zurich, Vetsuisse Faculty.

Abstract

The genetic information is constantly exposed to physical and chemical DNA-damaging agents. To safeguard genome stability, nucleotide excision repair (NER) is a protective system that processes a wide diversity of structurally unrelated DNA lesions, including UV–induced photoproducts and cisplatin intrastrand crosslinks. The aim of this thesis was to establish novel fluorescent protein-based imaging techniques to study NER activity in living fibroblasts and to apply these methods to determine the mechanism by which low-dose formaldehyde, a widely used genotoxic chemical, inhibits DNA repair. The nuclear movements of NER factors were analyzed by measuring the kinetics of accumulation at lesion sites and by monitoring protein dynamics in fluorescence recovery after photobleaching experiments. In combination, this live-cell imaging approach reveals that formaldehyde, at noncytotoxic concentrations, impedes the intra-nuclear trafficking of the DNA damage recognition proteins DDB2 and XPC, thus retarding their recruitment to NER substrates. Further live-cell imaging experiments with fluorescently tagged ubiquitin suggest that DDB2 stimulates protein ubiquitylation in response to formaldehyde exposure. In conclusion, these findings indicate that formaldehyde-induced DNA-protein crosslinks interfere with the normal trafficking of NER subunits, thus distracting these repair factors from their physiologic function in recognizing and processing mutagenic DNA lesions.

The genetic information is constantly exposed to physical and chemical DNA-damaging agents. To safeguard genome stability, nucleotide excision repair (NER) is a protective system that processes a wide diversity of structurally unrelated DNA lesions, including UV–induced photoproducts and cisplatin intrastrand crosslinks. The aim of this thesis was to establish novel fluorescent protein-based imaging techniques to study NER activity in living fibroblasts and to apply these methods to determine the mechanism by which low-dose formaldehyde, a widely used genotoxic chemical, inhibits DNA repair. The nuclear movements of NER factors were analyzed by measuring the kinetics of accumulation at lesion sites and by monitoring protein dynamics in fluorescence recovery after photobleaching experiments. In combination, this live-cell imaging approach reveals that formaldehyde, at noncytotoxic concentrations, impedes the intra-nuclear trafficking of the DNA damage recognition proteins DDB2 and XPC, thus retarding their recruitment to NER substrates. Further live-cell imaging experiments with fluorescently tagged ubiquitin suggest that DDB2 stimulates protein ubiquitylation in response to formaldehyde exposure. In conclusion, these findings indicate that formaldehyde-induced DNA-protein crosslinks interfere with the normal trafficking of NER subunits, thus distracting these repair factors from their physiologic function in recognizing and processing mutagenic DNA lesions.

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Additional indexing

Item Type:Dissertation
Referees:Naegeli H, Luch A
Communities & Collections:05 Vetsuisse Faculty > Institute of Veterinary Pharmacology and Toxicology
Dewey Decimal Classification:570 Life sciences; biology
Language:English
Date:2010
Deposited On:18 Feb 2011 15:39
Last Modified:05 Apr 2016 14:48
Number of Pages:73
Additional Information:Establishment and application of fluorescence recovery after photobleaching to study the nuclear dynamics of DNA repair proteins / vorgelegt von Renée Müller. - Zürich, 2010
Related URLs:http://opac.nebis.ch/F/?local_base=NEBIS&con_lng=GER&func=find-b&find_code=SYS&request=006282122
Permanent URL: https://doi.org/10.5167/uzh-46211

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