Tags - (3) 2-photon microscopy

Department(s)/lab(s): Physics & Astronomy โ€“ AMOPP | Bain Lab (Femtosecond Laser Spectroscopy and Super-Resolution Biosensing) @ UCL
Summary:

Bain develops advanced laser spectroscopy and super-resolution microscopy techniques for biological applications. Research directions: (1) Femtosecond time-resolved STED (stimulated emission depletion) โ€” combining sub-diffraction spatial resolution with picosecond time resolution to study FRET dynamics in live cells with both spatial and lifetime precision; (2) Time-resolved polarized fluorescence โ€” probing orientation distributions and rotational dynamics of fluorophores; (3) CW STED fluorescence lifetime reconstruction โ€” lower-photodose STED for longer live-cell imaging; (4) Single-molecule FRET to study protein-protein interactions; (5) Single-particle tracking of membrane receptors relevant to viral entry and cancer signaling. Former PhD students include Siรขn Culley (now King's College, SMLM).

Department(s)/lab(s): Neurobiology | Kozorovitskiy Laboratory @ Northwestern
Summary:

Prof. Kozorovitskiy (Neurobiology) studies neuromodulation and plasticity in the striatum and basal ganglia, with a distinctive emphasis on developing and applying advanced optical imaging methods. Imaging technique innovations: (1) Oblique plane illumination (OPI / scanned oblique plane illumination, SOPi) microscopy โ€” a single-objective light-sheet technique achieving tilt-invariant volumetric imaging for rapid 3D capture of fluorescently labeled neural structures without mechanical tilting; (2) Two-photon fluorescence imaging and two-photon glutamate/neuromodulator photorelease for single-synapse resolution in live tissue; (3) Near-infrared genetically-encoded calcium indicators (with Verkhusha group) for in vivo multi-color neural recording with reduced photobleaching. The lab's technical contributions are centered on extending the spatial and volumetric resolution of live-tissue fluorescence imaging. Irving M. Klotz Research Professor of Neurobiology; Beckman Young Investigator 2015.

Department(s)/lab(s): Princeton Neuroscience Institute | Tank Lab @ Princeton
Summary:

Tank is a pioneer of two-photon laser-scanning microscopy for imaging calcium dynamics in dendrites and neural circuits in vivo, and co-directs the Bezos Center for Neural Circuit Dynamics, which develops large-scale optical recording instrumentation combined with rodent virtual-reality systems to study persistent neural activity and short-term memory. His group's methodological contributions to cellular-resolution optical imaging underpin much of modern systems neuroscience.