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Microscopy Tech Pulse (3/21/2019)

Microscopy Tech Pulse
Microscopy Tech Pulse is a special edition newsletter from Photonics Media and Mad City Labs covering key developments in microscopy technology.
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Thursday, March 21, 2019
     
March 2019
Microscopy Tech Pulse is a special edition newsletter from Photonics Media and Mad City Labs Inc. covering key developments in microscopy technology. Manage your Photonics Media membership at Photonics.com/subscribe.

 
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Lasers: A Unique Microscopy Source
Lasers: A Unique Microscopy Source
Although filtered lamps and LEDs have their uses as simple light sources in wide-field microscopy, the laser is at the heart of most of the advanced techniques and experiments involving fluorescence excitation. The latest developments in lasers for microscopy are delivering a powerful combination of improved functionality and operational simplicity.
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Mad City Labs Inc. - Fluorescence Microscopy Technique Provides New Views of Biological Processes
Mad City Labs Inc.
Fluorescence Microscopy Technique Provides New Views of Biological Processes
Introduction to the technique of MicroMirror TIRF (total internal reflection fluorescence) microscopy. The MicroMirror TIRF microscopy technique offers significant signal-to-noise ratio improvements compared to dichroic based TIRF microscopy when using multiple wavelength light sources. Short overview of the types of biological processes that can be studied via this method. Mad City Labs is the only commercial provider of a MicroMirror TIRF microscope.
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Two Microscopy Techniques Combine for Nanoscale Brain-Wide Optical Imaging
Two Microscopy Techniques Combine for Nanoscale Brain-Wide Optical Imaging
Scientists from the Eric Betzig lab at Howard Hughes Medical Institute’s Janelia Campus and the Ed Boyden Lab at MIT collaborated to develop an imaging technique that combines expansion microscopy with lattice light-sheet microscopy for nanoscale imaging of fly and mouse neuronal circuits at the molecular level.
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SHG Microscopy Brings Live Cells into 3D Focus
SHG Microscopy Brings Live Cells into 3D Focus
Second-harmonic generation (SHG) microscopy highlights biomolecules that follow a specific structural organization within biological tissues, and complements two-photon excited fluorescence (TPEF) microscopy, as both imaging modalities can operate simultaneously on the same laser scanning microscope.
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New Fluorogenic Method Can Simultaneously Detect Aggregation of Two Proteins in Live Cells
New Fluorogenic Method Can Simultaneously Detect Aggregation of Two Proteins in Live Cells
Researchers re-engineered a fluorescent compound and developed a method by which two different proteins can fluoresce at the same time as they misfold and aggregate inside a living cell, highlighting forms that could play a role in several neurodegenerative diseases.
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Three-Photon Microscope Reveals All Cortical Layers of Awake Mouse Brain
Three-Photon Microscope Reveals All Cortical Layers of Awake Mouse Brain
A new three-photon microscope can deliver rapid, short, low-power light pulses capable of reaching deep targets within the brain without causing functional disturbance or physical damage. It can then detect the resulting fluorescence emitted by cells with high efficiency and produce images with sharp resolution and a fast frame rate.
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PDT, Customized Protocols Team Up for Enhanced Clinical Translation
PDT, Customized Protocols Team Up for Enhanced Clinical Translation
Photodynamic therapy (PDT) is a robust treatment procedure that can be designated to treat some types of cancer, as well as infectious diseases and other tissue disorders. It involves the use of a photosensitizer — a chemical compound that is activated by light — which results in the production of reactive species (mainly singlet oxygen) and further induction of cell death.
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