Cornelius J. O'Connor scite author profile

Chemical genetics can be defined as the study of biological systems using small molecule tools. Cell permeable and selective small molecules modulate gene product function rapidly, reversibly and can be administered conditionally in either a cellular or organismal context. The small molecule approach provides exacting temporal and quantitative control and is therefore an extremely powerful tool for dissecting biological processes. This tutorial review has been written to introduce the subject to a broad audience and highlights recent developments within the field in four key areas of biology: modulating protein-protein interactions, malaria research, hepatitis C virus research, and disrupting RNA interference pathways.

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Maximum Minute Ventilation Test for the ProSeal™ Laryngeal Mask Airway

Stix

O'Connor

2002

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Assessing ProSeal Laryngeal Mask Positioning: The Suprasternal Notch Test

O'Connor

Borromeo

Stix

2002

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Discovery of a small-molecule binder of the oncoprotein gankyrin that modulates gankyrin activity in the cell

Chattopadhyay

O'Connor

Zhang

et al. 2016

Sci Rep

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Gankyrin is an ankyrin-repeat oncoprotein whose overexpression has been implicated in the development of many cancer types. Elevated gankyrin levels are linked to aberrant cellular events including enhanced degradation of tumour suppressor protein p53, and inhibition of gankyrin activity has therefore been identified as an attractive anticancer strategy. Gankyrin interacts with several partner proteins, and a number of these protein-protein interactions (PPIs) are of relevance to cancer. Thus, molecules that bind the PPI interface of gankyrin and interrupt these interactions are of considerable interest. Herein, we report the discovery of a small molecule termed cjoc42 that is capable of binding to gankyrin. Cell-based experiments demonstrate that cjoc42 can inhibit gankyrin activity in a dose-dependent manner: cjoc42 prevents the decrease in p53 protein levels normally associated with high amounts of gankyrin, and it restores p53-dependent transcription and sensitivity to DNA damage. The results represent the first evidence that gankyrin is a “druggable” target with small molecules.

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