Sentences with phrase «microscopy for»
In addition, I am actively involved in numerous investigations utilizing in vivo corneal confocal microscopy for the diagnosis and characterization of ocular surface diseases in a variety of animal species.
https://www2.vet.cornell.edu/
After binding, cells were washed once (carefully using a 200 μl pipette to remove the medium) with RPMI with 0.5 % BSA solution and adherent cells were analyzed by immunofluorescence microscopy or bright field microscopy for quantification.
The facility will be opened by Dr Richard Henderson, from the MRC Laboratory of Molecular Biology in Cambridge, who was one of three scientists to win the 2017 Nobel Prize in Chemistry «for developing cryo - electron microscopy for the high - resolution structure determination of biomolecules in solution.»
A guide to light - sheet fluorescence microscopy for multiscale imaging.
Fully developed and drug - affected several hundred µm thick spheroids are not very dynamic but require confocal and light sheet - based fluorescence microscopy for a full analysis of the spatial distribution of several fluorescing targets.
Optimizing and extending light - sculpting microscopy for fast functional imaging in neuroscience
Caroline joined the Biophotonics group as a post doc in 2013 to implement confocal light - sheet microscopy for structural whole mouse brain imaging and then later functional calcium imaging in Zebrafish.
Researchers at Columbia University have made a significant step toward breaking the so - called «color barrier» of light microscopy for biological systems, allowing for much more comprehensive, system - wide labeling and imaging of a greater number of biomolecules in living cells and tissues than is currently attainable.
In this project, we plan to use multimodal NLO microscopy for automatic analysis and diagnostics of bladder cancer specimens in order to pave the way for an in vivo use in the near future.
Mervyn Miles describes developments towards high - speed non-contact atomic force microscopy for studying living cells.
Shivani Sharma describes the use of atomic force microscopy for studying cell mechanics and diagnosis of cancer.
The aim of this webinar is to highlight the benefits of correlative microscopy for studies of graphene and related two - dimensional transition metal dichalogenides (TMDs) such as MoS2 and WS2.
His research interests belong to pushing frontiers of microscopy for cell biology, developing of new microscopical tools, systems and approaches.
Maria Gaertner (Koch, TUD)-- «Combining high - resolution optical coherence tomography with fluorescence microscopy for lung tissue imaging on the alveolar level» (2013)
These include custom - built light sheet microscopy for single molecule and whole embryo measurements, laser ablation to perturb and dissect the architecture of microtubule structures, quantitative polarization microscopy, and new fluorescence correlation spectroscopy approaches.
Multiphoton excitation fluorescence microscopy for non-destructive analysis of painting substrates
Immunofluorescence microscopy for localization of Arabidopsis chloroplast proteins.
The Nobel Prize for Chemistry 2017 has been awarded to Jacques Dubochet (University of Lausanne, Switzerland), Joachim Frank (Columbia University, New York, USA) and Richard Henderson (MRC Laboratory of Molecular Biology, Cambridge, UK) for «developing cryo - electron microscopy for the high - resolution structure determination of biomolecules in solution».
Light sheet microscopy for real - time developmental biology.
2017 - Jacques Dubochet receives the Nobel Prize in Chemistry, for his work at EMBL developing cryo - electron microscopy for the high - resolution structure determination of biomolecules in solution.
Ferri C, Quattrini A, D'Antonio M. Electron microscopy for the analysis of peripheral nerve myelin.
Viral replication was monitored over 14 days by visual inspection under light microscopy for cytopathic effect (CPE).
He also developed an educational web site on microscopy for elementary school children.
Biologists have better tools — such as advanced microscopy for viewing things on the scale of thousandths of nanometers — that allow them to learn more about animals and their physical mechanisms, he says.
Before and three months after fat grafting, samples of skin from the treated area were obtained for in - depth examination, including electron microscopy for ultrastructural - level detail.
They used scanning electrochemical cell microscopy for this purpose.
The Nobel Prize in Chemistry goes to Jacques Dubochet, Joachim Frank and Richard Henderson for developing cryo - electron microscopy for the high - resolution structure determination of biomolecules in solution.
«For developing cryo - electron microscopy for the high - resolution structure determination of biomolecules in solution,» the Royal Swedish Academy of Sciences awarded the Chemistry Prize to Jacques Dubochet of the University of Lausanne in Switzerland, Joachim Frank of Columbia University in New York City, and Richard Henderson of the MRC Laboratory of Molecular Biology in Cambridge, England.
«Furthermore, adapting in vivo corneal confocal microscopy for use in tracking HIV - induced PNS damage in patients may be of great value to identify early PNS damage independent of performing skin biopsies.»
These include more sensitive mass spectrometry for detecting, identifying and quantifying protein molecules, electron microscopy for visualizing an assortment of components of the nano - machine that transports toxins, and fluorescence confocal microscopy, which can label proteins with light emitting dyes.
Stefan Hell explains super-resolved fluorescence microscopy for which he shared the 2014 Nobel Prize in Chemistry.
confocal, epifluorescence and light microscopy for investigation of bacterial contamination.
Not exact matches
Live and Dry Blood Analysis also known as nutritional microscopy, is the science of qualitative blood analysis for the purpose of evaluating health at the cellular level.
«Increasingly, (atomic force microscopy) is being selected for nanotechnology research over other metrology techniques due to its non-destructive measurement and sub-nanometer accuracy,» Park, the company's CEO, said.
«SUNY Poly is thrilled that a worldwide leader in atomic force microscopy is selecting the campus for its newest location, and we warmly welcome Park Systems as we look forward to working closely to advance research capabilities in this important area,» SUNY Poly Interim President Bahgat Sammakia said.
AAAS Fellow and a member awarded the 2017 Nobel Prize in Chemistry for developing a type of microscopy that reveals life's smallest molecules at work.
For the current study, working in the CU Cancer Center Advanced Light Microscopy Core, co-authors Dominik Stitch, PhD, and Radu Moldovan, PhD, implemented a new technique known intravital multiphoton in vivo microscopy that enabled the team to watch fluorescent - tagged liposomes in real - time after injection.
Confocal microscopy allows for the visualization of the movement of oil droplets away from a freezing interface.
This new development paves the way for a new field of dynamical study in the position dependence of atomic vibration in small particles, and is also likely to benefit the catalytical study of particles.Richard Aveyard, Postdoctoral Research Associate in the Department of Physics at York, said: «Our work highlights the valuable contribution that computational simulations can have in the field of electron microscopy: the more details we can put into our simulations, the more details we can extract from experiments.»
Frank of Columbia University, Henderson of the MRC Laboratory of Molecular Biology in Cambridge, England and Jacques Dubochet of the University of Lausanne in Switzerland were named Nobel laureates for significant discoveries that led to the development and use of cryo - electron microscopy to produce close - up, three - dimensional views of biomolecules.
The kit features true multiplexing capabilities with green fluorescent protein (GFP) and other green fluorescent probes, and is optimized for both fluorescence microscopy and flow cytometry applications.
In 1680, Anton van Leeuwenhoek, godfather of microscopy, gazed upon yeast for the first time; that's when we started moving past the party years.
Its unique ibidi Polymer Coverslip Bottom guarantees superior optics for high - end microscopy.
AAAS Fellow Joachim Frank and AAAS member Richard Henderson were awarded the 2017 Nobel Prize in Chemistry for developing a type of electron microscopy that provides detailed views of the structures of the smallest molecules of life, the Royal Swedish Academy of Sciences announced Oct. 4.
Low - temperature electron microscopy images of depth hoar are leading to better models for converting the raw satellite readings into accurate measurements of snowfall.
Forthcoming workshops cover techniques as varied as «molecular and genetic tools for the analysis of medaka and zebrafish development» and «cryo - electron microscopy and 3 - D image reconstruction.»
«We believe that our approach is broadly applicable to other low - cost microscopy systems that use, for example, inexpensive lenses or cameras, and could facilitate the replacement of high - end bench - top microscopes with cost - effective, mobile alternatives.»
Ozcan's research group has introduced several innovations in mobile microscopy and sensing, and it maintains a particular focus on developing field - portable medical diagnostics and sensors for resource - poor areas.
Eric Betzig, Stefan W. Hell and William E. Moerner share the 2014 chemistry Nobel for the development of super-resolved fluorescence microscopy, which has enabled the study of single molecules in ongoing chemical reactions in living cells.
Following intravenous infusion of tritiated norepinephrine, rat pineals were prepared for combined autoradiography and electron microscopy.