Please note that this programme is subject to change. Wednesday 3 September Thursday 4 September Friday 5 September Poster Session 1 Poster Session 2 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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P2.01 | Dynamics of two negatively coupled Fitz Hugh - Nagumo neurons A Imanbayeva, al-Farabi Kazakh National University, Kazakhstan |
P2.02 | Accurately measuring the unbinding force of integrin-ligand interactions in effector T cells using optical tweezers C McDonald, University of Dundee, UK |
P2.03 | Competition for space during bacterial colonisation of a surface D Lloyd, University of Edinburgh, UK |
P2.04 | Using atomic force microscopy to show the interplay between cell wall mechanical properties and the cell cycle in Staphylococcus aureus J K Hobbs, University of Sheffield, UK |
P2.05 | The role of optical projection on vesicle fluctuations S A Rautu, University of Warwick, UK |
P2.06 | The role of compositional variation and underdamped mechanics near membrane inclusions S A Rautu, University of Warwick, UK |
P2.07 | Probing swimming with holographic microscopy L Wilson, University of York, UK |
P2.08 | Protein structure, motion and function: rigidity, flexibility and the physics of life S Wells, University of Bath, UK |
P2.09 | How cells interact with two-dimensional and three-dimensional biomaterials J Chen, Newcastle University, UK |
P2.10 | Atomic Force Microscopy imaging and characterization of tumour derived exosomes P Parisse, INSTM - ST Unit, Italy |
P2.11 | Physico-chemical properties of functional DNA nanostructures on gold surfaces P Parisse, INSTM - ST Unit, Italy |
P2.12 | The polymer physics of disordered protein assemblies – emergent structure and function D Ando, University of California, USA |
P2.13 | An autonomous molecular assembler for programmable chemical synthesis and its development towards DNA-based ribosome W Meng, University of Oxford, UK |
P2.14 |
Accelerating localisation microscopy S Cox, King's College London, UK |
P2.15 | Optimising protein production rates A Raguin, University of Aberdeen, UK |
P2.16 | Morphological analysis of epithelial tissues S Kaliman, Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany |
P2.17 | Broken detailed balance: A tool for identifying non-equilibrium dynamics C Battle, Georg-August-Universität Göttingen, Germany |
P2.18 | Total three-dimensional imaging of stomatocytes using defocusing microscopy P M S Roma, Universidade Federal de Minas Gerais, Brazil |
P2.19 | Constrained geometric simulation of the nicotinic acetylcholine receptor P-L Chau, Institut Pasteur, France |
P2.20 | Guiding the folding pathway of DNA origami T E Ouldridge, University of Oxford, UK |
P2.21 | Modelling the interplay between protein and lipid aggregation in supported membranes P Gonzalez de Prado Salas, Universidad Autonoma de Madrid, Spain |
P2.22 | Finite element modelling of skin on a cellular level L Davies, University of Southampton, UK |
P2.23 | Transverse magneto-optic tweezers with nanoscale fluorescence imaging to visualize activities on single DNA molecules J Zhou, University of York, UK |
P2.24 | Flagellar Synchronisation through direct hydrodynamic interactions M Polin, University of Warwick, UK |
P2.25 | Memory improves precision of cell sensing in fluctuating environments G Aquino, Imperial College London, UK |
P2.26 | DNA nanotubes with controlled chirality A J Turberfield, University of Oxford, UK |
P2.27 | Tip-bubble plectonemes in supercoiled DNA: Coupled writhe and denaturation C Matek, University of Oxford, UK |
P2.28 | Microfluidic cell- and nuclear-mechanics measurements using microconstrictions G Whyte, FAU Erlangen Nuremberg, Germany |
P2.29 | Conjugate gradient SENSE using spriral and radial trajectory in MRI M Tariq, COMSATS Institute of Information Technology, Pakistan |
P2.30 | Information transfer by leaky, heterogeneous, protein kinase signalling systems M Voliotis, University of Bristol, UK |
P2.31 | Elastically coupled motor proteins D Bhat, Indian Institute of Technology Madras, India |