Frontiers in BioImaging
The four sessions in ‘Frontiers in Bioimaging’ will cover the latest developments in imaging approaches and their applications, from custom built microscopes, to new methods for labelling and super-resolution microscopy. The talks will be organised into the four sessions below:
Bespoke light microscopy for molecular level imaging
Session Chair: Mark Leake, York University, UK
Co-Chair: Philipp Kukura, Oxford University, UK
Invited Speaker: Seamus Holden,Newcastle University, UK
Developing super-resolution methods for functional insight
Session Chair: Michelle Peckham, King’s College London, UK
Co-Chair: Ilaria Testa, KTH Royal Institute of Technology, UK
Invited Speaker: Olivier Rossier,University of Bordeaux, France
Advanced light imaging for addressing longer length scale biological questions
Session Chair: Susan Cox, King’s College London, UK
Co-Chair: Steven Lee, University of Cambridge, UK
Invited Speaker: Jae-Byum Chang,MIT, USA
Advances in labelling for super-resolution microscopy
Session Chair: Jan Faix, Hannover Medical School, Germany
Co-Chair and Invited Speaker: Helge Ewers, Freie University, Germany
Co-Chair and Invited Speaker: Christina Flors, IMDEANanoscience Institute, Spain
Bio Applications: Imaging Cancer
Session Chair: Claire Wells, King's College London, UK
Co-Chair and Invited Speaker: Kurt Anderson, Francis Crick Institute, UKInvited Speaker: Chris Contag, Stanford Medecine University,USA
Imaging tumour cells in fixed samples, complex matrix and living tissue is transforming our view of cancer. This session aims to highlight the latest developments in cancer imaging. Contributions to this symposium are solicited from any area of research where imaging techniques are being applied to the study of cancer biology.
Bio Applications: Imaging cells in 3D – matrix, tissue, in vivo
Session Chair: Theresa Ward,London School of Hygiene & Tropical Medicine, UK
Co-Chair and Invited Speaker: Roberto Weigert, NIH, USA
Invited Speaker: Enrico Coen, John Innes Centre, UK
Imaging cells within more complex 3D micro environments is an exciting field of cell biology. This session will showcase both technical developments at high resolution and novel applications enabling insight into cell behaviour in a physiological context. Contributions to this session are solicited from any area of research, plant, human or animal, where 3D imaging techniques are being applied.
Bio Applications: Bacterial Ultrastructure
Session Chair: Morgan Beeby, Imperial College, UK
Co-Chair and Invited Speaker: Ariane Briegel, Leiden University, Netherlands
Invited Speaker: Cecile Morlot, University of Grenoble, France
Gone are the days in which bacteria were considered ‘bags of enzymes'. Advances in microscopy have revealed intricately interconnected spatial regulation of bacterial cell biology over multiple scales. Fluorescent light microscopy has shown the dynamic control of subcellular localisation of structures involved in all aspects bacterial cell biology, including cell division,motility, and storage. Meanwhile, electron microscopy has enabled imaging of entire cells to nanometre resolution, allowing insights into the molecular mechanisms underlying subcellular organization. This session will highlight recent advances in imaging bacterial ultrastructure using electron and light microscopies to understand the molecular mechanisms underlying the coordination of bacterial cell biology.
Bio Applications: Imaging protein dynamics in living cells
Session Chair: Steven Briddon, Nottingham University, UK
Co-Chair and Invited Speaker: Maddy Parsons, King's College London
Invited Speaker: Carsten Hoffman, University of Wurzburg, Germany
The precise co-ordination of specific subcellular molecular interactions is fundamental in defining the behaviour and survival of all cells. Capturing and quantifying such dynamic associations between proteins,peptides, lipids and DNA in live cells requires the application of a range of advanced imaging methods. Recent advances in techniques such as Fluorescence resonance energy transfer (FRET), Fluorescence correlation spectroscopy (FCS),correlation analysis (IC(C)S) and single particle tracking (SPT) have transformed quantitative biology and provided robust means to interrogate spatiotemporal changes in molecular interactions. This session welcomes studies using advanced or novel techniques in this area, particularly those targeted to living cells.
Bio Applications: Long-term imaging using Single Plane Illumination Microscopy
Session Chair: George Littlejohn, University of Exeter, UK
Co-Chair and Invited Speaker: Jon Girkin, University of Durham, UK
Minimallyinvasive live cell imaging in tissues is challenging, both optically andin terms of maintenance of specimen physiological integrity. Single PlaneIllumination Microscopy(SPIM) is being applied successfully in plant and animalsystems and allows researchers to address these limitations to agreater or lesser extent but also brings its own challenges, particularlyin terms of data storage and analysis. This general live cellSPIM session will focus on the application of live cell microscopy techniquesusing plants as a great exemplar that is also relevant to many other sampletypes and will discuss associated image analysis and data capture.
Bio EM Sample Prep and Analysis
Session Chair: Roland Fleck, King's College London, UK
Co-Chair and Invited Speaker: Bruno Humbel, UNIL, Switzerland
Invited Speaker: Andres Käch, University of Zurich, Switzerland
A specialist session addressing the critical first step in any successful biological electron microscopy study, the preparation of the tissue itself. The session will consider all processing steps from pre-culture of cells and tissues, fixation, labelling and sectioning for scanning and transmission electron microscopy through to imaging the sample itself.
Both room temperature and cryo-electron microscopy sample preparation techniques will be considered focusing on (but not limited to) improving ultrastructural preservation of tissue, how to improve sample processing to support novel imaging methods (e.g., STEM), improved sample stability in the electron microscope (either scanning or transmission electron microscopy), technical innovations able to improve sample quality and/ or reproducibility, preparation of specimens for specialist techniques (e.g, EELS, EDX, CLEM etc).
The session chairs will encourage active discussion during the session.
Investigating Biological Structure using Electron Tomography
Session Chair: Erin Tranfield, Instituto Gulbenkian de Ciência, Portugal
Co-Chair and Invited Speaker: Stefanie Redemann, Medical Theoretical Centre, Germany
Invited Speaker: Johanna Höög, University of Gothenburg,Sweden
The focus of this session will be the use of electron tomography on plastic-embedded samples and vitreous samples to study structural questions in the biological sciences.
Imaging in Flow Cytometry
Session Chair: Richard Grenfell, Cancer Research UK Cambridge Institute, UK
Session title to be confirmed
Further information about this session will be available soon.
Electron Cryomicroscopy of Biological Macromolecules
Session Chair: Peter Rosenthal, The Francis Crick Institute, UK
Co-Chair: Carolyn Moore, Birbeck College, UK
Recent progress in methods for electron cryomicroscopy has brought an explosion of new results on biological specimens. This session will present new structural studies of macromolecular assemblies, but will also highlight method developments that will improve and expand the scope of cryomicroscopy.
Biological Applications of 3D Electron Microscopy
Session Chair: Lucy Collinson, The Francis CrickInstitute, UK
Co-Chair and Invited Speaker: Saskia Lippens, University of Gent, Belgium
Invited Speaker: Rick Webb, University of Brisbane, Australia
Technologies for gathering high resolutionthree dimensional images from biological samples are now well-established.Serial Electron Tomography, Serial Block Face Scanning EM, Focused Ion BeamScanning EM and Array Tomography are revealing new insights into neurobiology,developmental biology, cell biology, plant biology, cancer biology, infectionand immunity, microbiology and more. This session will look atapplication-focused outputs of these exciting microscopical advances, whilstalso considering associated sample handling, technological and big datachallenges.
Session Chair: Paul Verkade, University of Bristol, UK
Co-Chair and Invited Speaker: Yannick Schwab, EMBL, Germany
Invited Speaker: Errin Johnson, Oxford University, UK
Extracting a variety of data sets from a single sample using differentimaging modalities can give much more information than when each modality isused in isolation. This set up of combining technologies to perform CorrelativeMicroscopy (CM) is however not always trivial and there is now a wealth oftechniques developed and under development to achieve this. AlthoughCorrelative Light Electron Microscopy (CLEM) is by far the best establishedcorrelative technique there are a number of exciting new imaging / analysismodalities integrated into CM workflows. In this session we want to highlightboth the application of CM technology to answer biological questions as well asthe latest developments with regards to for instance probes, processing, and /or analysis for Correlative Microscopy experiments.
Celtic Session: Biological Processes at the Nanoscale
Session Chair: Miep Helfrich, The University of Aberdeen, UK
Co-Chair and Invited Speaker: TBC
Invited Speaker: Jeremy Simpson, UCD Dublin, Ireland
The Celtic sessions, will be chaired by the Microscopy Society of Ireland and the Scottish Microscopy Group.
mmc2017 will bring together both societies for a session featuring research in the life sciences and material sciences.
Invited talks by members of both societies will be complemented by short presentations selected from submitted abstracts. The MSI and SMG hope to see not only members of their societies at the session, but also those who want to find out more about the work done by their members using the fabulous range of microscope facilities available in Ireland and Scotland.
Session Chair: Nick Read, Manchester University, UK
Co-Chair and Invited Speaker: Mark Fricker, University of Oxford,UK
Invited Speaker: Keith Gull, University of Oxford, UK
It goes without saying that microscopy has had a profound impact on microbiology over the last few centuries. The ongoing development of new microscope technologies and the combined use of different types of microscopy with a wide range of other powerful experimental approaches continues to provide exciting opportunities to address novel and important questions relating to basic and applied aspects of microbiology. The purpose of this symposium is to provide examples of some of the latest innovations in microbial imaging and analysis and show how advanced microscopic techniques are continuing to provide far-reaching insights into the biology of microbes.
Session Chair: Pippa Hawes, Pirbright Institute, UK
Co-Chair and Invited Speaker: Spencer Shorte, Pasteur Institute, France
Recent advances in imaging technology have given researchers the freedom to investigate host-pathogen interactions in novel and imaginative ways. The development of new reagents for the study of cell biology has produced exciting results and cemented microscopy as one of the most important techniques in the study of pathogens, both in vitro and in vivo. The purpose of this symposium is to showcase state-of-the-art microscopical techniques currently being used in the study of pathogen structure, entry, replication, egress and spread.