Investigating GPCR:RAMP
G-protein-coupled receptors (GPCRs) and complexes with accessory proteins (RAMPs) will be purified in nanoscale discs. These will be used to develop small antibodies (nanobodies) as tools for investigating receptor function.
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Research within this theme focuses on understanding fundamental molecular mechanisms to provide novel insights into cellular processes and their regulation.
This includes receptors, cell signalling, development of organisms, their interaction with pathogens, plus the molecular basis and pathophysiology of diseases including cancer and metabolic disorders, as well as signalling and transcriptional pathways in normal and pathological states.
We exploit multi-disciplinary approaches including molecular biology, cell and developmental biology, biochemical pharmacology, confocal microscopy, genetics/epigenetics, computational and systems biology.
Our vision: Improving health through a detailed understanding of molecules and cells.
Our mission: To investigating cellular mechanisms to benefit human health.
Professor Mark Wheatley was appointed by Coventry University as Professor of Biochemical Pharmacology in 2018 and is Lead for the Pharmacology & Molecular Bioscience Research Theme in the CHLS Research Centre. He has over 30 years’ experience investigating the structure and function of G-protein-coupled receptors (GPCRs) using multi-disciplinary approaches. He was appointed lecturer by the University of Birmingham in 1988, given a Chair in Biochemical Pharmacology by the University of Birmingham in 2007 and made Honorary Professor in 2018 before joining Coventry University. Interest in his research by the pharmaceutical industry has resulted in a series of collaborations with multi-national pharmaceutical companies. He was elected Fellow of the British Pharmacological Society in 2016.
Our research aims to increase our understanding of fundamental molecular mechanisms to provide novel insights into cellular processes and their regulation for the benefit of human health.
Find out more about some of our projects:
G-protein-coupled receptors (GPCRs) and complexes with accessory proteins (RAMPs) will be purified in nanoscale discs. These will be used to develop small antibodies (nanobodies) as tools for investigating receptor function.
ABHD16A, a known phosphatatidylserine-lipase involved in neuroimmunological function, was recently identified as a novel, selective APT. This study aims to characterise the molecular mechanisms and functions of a novel APT, ABHD16A.
Exploiting and developing a new state-of-the-art computational model that makes it possible to predict how well a drug will bind to its receptor, how the receptor will change shape, and which signalling pathways it will activate.
This interdisciplinary project in collaboration with the University Hospital Coventry & Warwickshire NHS Trust is aiming to investigate the link between the activity of the human gut microbiota and colorectal cancer.
This multidisciplinary project is aiming to study the molecular mechanism by which secreted metabolites, which are produced in vitro by the human gut microbiota under acid conditions, modulate colorectal cancer cell growth and metabolism.