Name  Institution  Interests 

Andrew Bangham 
UEA 

Malcolm Bennett 
Mathematical Sciences, Nottingham 
 Plant Root Developmental Biology, Plant Root Systems Biology, Plant Biotechnology

Lloyd Bridge 
Mathematical Sciences, Nottingham 
 GProtein coupled receptors and signal transduction

Helen Byrne 
Mathematical Sciences, Nottingham 
 Modelling various aspects of solid tumour growth
 Modelling placental development
 Modelling molecular dynamics of DNA
 Tissue engineering

Alan Champneys 
Bristol 

Stephen Coombes 
Mathematical Sciences, Nottingham 
 Mathematical neuroscience
 Cellular calcium signalling

Alistair Hetherington 
Bristol 

Steve Hill 
Biomedical Sciences 

Oliver Jensen 
Mathematical Sciences, Nottingham 
 Physiological fluid mechanics
 Surface tension and surfactant effects in lung mechanics
 Cell adhesion in the microcirculation
 Flows in collapsible tubes
 Flow and development in the placenta

John King 
Mathematical Sciences, Nottingham 
 Applications of diffusion in medicine, notably in percutaneous absorption, controlledrelease devices and tumour growth and treatment
 Modelling aspects of solid tumour growth
 Pattern formation in diffusive systems
 Modelling bacterial infections

Alistair Middleton 
Mathematical Sciences, Nottingham 
 Modelling of hormone signalling in plants

Nick Monk 
Mathematical Sciences, Nottingham 
 cellular signalling networks

Markus Owen 
Mathematical Sciences, Nottingham 
 Modelling tumour growth and immunotherapy
 Developmental biology
 Waves and pattern formation in discrete and continuous media
 Ecological invasions
 Modelling cytokine signalling and cell interactions in Rheumatoid Arthritis

Sabine Schamberg 
Mathematical Sciences, Nottingham 
 Modelling planar cell polarity

Jonathan Sherratt 
HeriotWatt 

Rüdiger Thul 
Mathematical Sciences, Nottingham 

John Ward 
Mathematical Sciences, Loughborough 

Alex Webb 
Cambridge 

Hao Zhu 
Mathematical Sciences, Nottingham 
 Computational modelling of planar cell polarity
