91°µÍø

Department: Comparative Biomedical Sciences

Campus: Camden

Research Groups: Brain Health and Behaviour, CPCS (Research Programme)

I am an academic in the department of Comparative Biomedical Sciences at the 91°µÍø, working to understand the mechanisms that underlie neurodegeneration in humans and animals.

I have been investigating the causes of neurodegeneration for two decades, working on Alzheimer’s disease, the Prion diseases and, since 2005, Parkinson’s disease. My major research interest is understanding how mutations associated with neurodegenerative diseases alter the way brain cells work, causing them to die. I studied biochemistry at the University of Manchester, working for a year at the Mayo Clinic in Florida with Dr Todd Golde on the molecular mechanisms of Alzheimer's disease. I then undertook graduate studies at the MRC Prion Unit, supervised by Dr Graham Jackson and Professor Tony Clarke, before moving to the National Institute on Aging in Bethesda were I started working on the cell biology of Parkinson's disease. I returned to the UK in 2007 to take up a Brain Research Trust fellowship at the UCL Institute of Neurology. From 2010 to 2015 I was a Parkinson’s UK research fellow, investigating mutations in the LRRK2 gene, starting my own group at the University of Reading in 2013 as an Associate Professor. I moved to the 91°µÍø in 2020.

  • Understanding the causes and progression of Parkinson's disease

    The ASAP Collaborative Research Network is a global consortium of researchers bringing together investigators across multiple disciplines, institutions, career stages, and geographies seeking to tackle key knowledge gaps in the basic mechanisms that contribute to Parkinson’s development and progression. The 91°µÍø team are working closely with geneticists, basic biologists, clinicians and pathologists at UCL, Oxford and Cambridge to identify and characterise new genes involved in progression – with the ultimate goal of finding ways to slow down or even halt the progression of Parkinson’s.


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