New TauSTED Tools for Gentle Live Imaging at Nanoscale Resolution
Julia Roberti
Senior Product Manager, Advanced Microscopy, Leica Microsystems
Read BioJulia Roberti studied Chemistry at the University of Buenos Aires, focussing on the characterization of luminescence of lanthanide complexes and developing boron quantification methods for boron neutron capture therapy (BNCT) of cancer. She obtained her PhD from the Max Planck Institute for Biological Chemistry, Göttingen, developing in vitro and in situ fluorescence labeling strategies to elucidate the oligomerization and aggregation mechanisms of the Parkinson's disease-associated protein alpha-synuclein. She joined Leica Microsystems in 2017 as Product Manager for advanced confocal imaging.
CloseLuis Alvarez
Application Manager Life Science Research, Leica Microsystems
Read BioLuis Alvarez studied Physical Chemistry at the Université Paris-Sud XI in Orsay. He worked on molecular quantitative imaging in live cells, focusing on fluorescence lifetime imaging and the effects of reactive oxygen species (ROS) on fluorescent proteins. In 2010, Luis moved to University College Dublin, where he worked on host-pathogen interactions in collaboration with the National Children Research Centre and studied how mucosal immunity uses ROS to respond to bacterial pathogen infections. Luis joined Leica Microsystems in 2019 as a product application manager for functional imaging.
CloseUlf Schwarz
Application Manager (LS), Leica Microsystems CMS GmbH
Read BioUlf Schwarz trained as a biologist at the University of Bayreuth, Germany. After working for 7 years in the healthcare industry, he joined Leica Microsystems in 2002. As an Application Manager, he organizes and conducts system demonstrations, performs user training, and runs microscopy workshops educating participants on all aspects of Confocal, Multiphoton, and STED microscopy.
CloseCapture the dynamics of subcellular species in their native context with the latest tools for multiplex STED (Stimulated Emission Depletion) imaging of living specimens at nanoscale resolution.
In this live webinar, you will learn:
- How STED innovations enable gentle live imaging at the nanoscale
- How fluorescence lifetime information can be used for multiplex imaging of different markers while maintaining nanoscopic resolution
- How advances in our TauSTED approach to optical nanoscopy deliver cutting-edge resolution and image quality at low light, the key to accessing fast nanoscale dynamics of cellular processes
Confocal imaging is a fundamental tool for studying the complex interplay of biomolecules, molecular machines, and higher-order cellular structures owing to its optical sectioning, sensitivity, and temporal and spatial resolution capabilities.
Imaging complex cellular structures at nanoscale resolution while characterizing the dynamics of multiple species in live specimens are emerging avenues to shed light on biological processes in their native physiological context.
With the advent of STED, researchers have realized the visualization of intracellular structures at the nanoscale, enabling unprecedented insights into cellular behavior, interactions, and function.
In this webinar, we will showcase the latest tools and developments for multiplex STED imaging of living specimens at nanoscale resolution.
Our team will be on hand for a live Q&A session to show you how STELLARIS STED innovations can benefit your research.