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  • Single Molecule Tracking

    The lab of Prof. Kubitscheck performs a wide range of imaging across different applications including single-molecule tracking and localization, where they examine the export of ribosomal particles through nuclear pore complexes by a number of methods

  • Live Yeast Imaging

    To ensure genome stability, sexually reproducing organisms require that mating brings together exactly 2 haploid gametes and that meiosis occurs only in diploid zygotes.

  • Point Spread Function Engineering

    Christy Landes’ lab at Rice University uses point spread function (PSF) engineering by phase modulation to increase the information recoverable from a two-dimensional image.

  • Super-Resolution Microscopy at Korea University

    The Shim Group at Korea University is an interdisciplinary lab covering physical chemistry, biophysics and cell biology. Sang-Hee Shim, principal investigator and assistant professor of chemistry, leads a team composed of postdoctoral researchers and graduate students to develop new microscopic methods and apply them to answer complex biophysical questions.

  • Plant Calcium Imaging

    The lab of Prof. Zhen-Ming Pei is interested in the early signalling events by which plants sense environmental signals and decode them to give the appropriate responses. Upon perception of external signals, cell surface receptors trigger an increase in cytosolic free calcium concentration, which is mediated by ion channels.

  • Single Microalgae Phototaxis

    Dr. Jorge Arrieta is a postdoctoral researcher at IMEDEA in the lab of Drs. Marco Polin and Idan Tuval, whose research area involves analysing the motility and behavioural in response to external stimuli of the microalgae Chlamydomonas reinhardtii.

  • Super-Resolution Standing Wave Microscopy

    The McConnell group are focused on the development of new optical microscopy methods for biomedical research and imaging.Previously, the McConnell group were using mostly fixed cell imaging in their biological investigations, but they are now focusing on the development of techniques that will improve their live cell imaging capabilities.

  • DeepSIM Super-Resolution at CrestOptics S.p.A.

    CrestOptics is a leading company in the development and manufacture of advanced systems for fluorescence microscopy, featuring products such as the X-Light series of spinning-disk confocal modules.

  • Synchrotron Beamline Measurements

    Dr. Hwang is participating in the Athena_e project, a collaboration between Helmholtz Centers for the technical evolution of plasma wake-field accelerators in conjunction with normal-conducting accelerating structures. Helmholtz-Zentrum Berlin (HZB) operates an advanced synchrotron light source, BESSY II, as well as the low energy storage ring Metrology Light Source (MLS).

  • Interferometry and Lithium Mapping

    Dr. Matthew Gebbie and team are an interfacial science and soft materials lab focusing on molecular interaction forces and self-assembly in soft materials. Dr. Gebbie told us more: “The key theme we are driving at is how ionic self-assembly influences electron transfer and ion transport.

  • T Cell Calcium Imaging

    Prof. Huppa and team study T cells, cells that play an important role in the immune response. These T cells can recognize antigens and distinguish between friend (normal cells) and foe (viruses or infected/dangerous cells) in our bodies.

  • Multicolor Single Molecule FRET

    The lab of Prof. Hugel is interested in obtaining real-time measurements of multi-protein complexes and their dynamic interaction. In living organisms, multi-protein complexes form intricate protein machines that regulate cellular processes.