Visualization of lipids and proteins at high spatial and temporal resolution 
via interferometric scattering (iSCAT) microscopy

Spindler, Susann; Ehrig, Jens; Koenig, Katharina; Nowak, Tristan; Piliarik, Marek; Stein, Hannah E.; Taylor, Richard W.; Garanger, Elisabeth; Lecommandoux, Sebastien; Alves, Isabel D.; Sandoghdar, Vahid

doi:10.1088/0022-3727/49/27/274002

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Visualization of lipids and proteins at high spatial and temporal resolution via interferometric scattering (iSCAT) microscopy

MPG-Autoren

/persons/resource/persons201200

Spindler, Susann
Sandoghdar Division, Max Planck Institute for the Science of Light, Max Planck Society;

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Ehrig, Jens
Sandoghdar Division, Max Planck Institute for the Science of Light, Max Planck Society;

Koenig, Katharina
Sandoghdar Division, Max Planck Institute for the Science of Light, Max Planck Society;

/persons/resource/persons201156

Piliarik, Marek
Sandoghdar Division, Max Planck Institute for the Science of Light, Max Planck Society;

Taylor, Richard W.
Sandoghdar Division, Max Planck Institute for the Science of Light, Max Planck Society;

/persons/resource/persons201175

Sandoghdar, Vahid
Sandoghdar Division, Max Planck Institute for the Science of Light, Max Planck Society;

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Zitation

Spindler, S., Ehrig, J., Koenig, K., Nowak, T., Piliarik, M., Stein, H. E., et al. (2016). Visualization of lipids and proteins at high spatial and temporal resolution via interferometric scattering (iSCAT) microscopy. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49(27): 274002. doi:10.1088/0022-3727/49/27/274002.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-002D-62A7-1

Zusammenfassung

Microscopy based on the interferometric detection of light scattered from nanoparticles (iSCAT) was introduced in our laboratory more than a decade ago. In this work, we present various capabilities of iSCAT for biological studies by discussing a selection of our recent results. In particular, we show tracking of lipid molecules in supported lipid bilayers (SLBs), tracking of gold nanoparticles with diameters as small as 5 nm and at frame rates close to 1 MHz, 3D tracking of Tat peptide-coated nanoparticles on giant unilamellar vesicles (GUVs), imaging the formation of lipid bilayers, sensing single unlabelled proteins and tracking their motion under electric fields, as well as challenges of studying live cell membranes. These studies set the ground for future quantitative research on dynamic biophysical processes at the nanometer scale.