"Advanced microscopy" refers to the use of highly sophisticated techniques and instruments to visualize and study tiny objects and structures that are too small to be seen by the naked eye. It enables scientists to examine and understand the intricate details of materials, cells, or organisms at a very small scale, providing valuable insights in various scientific fields.
Full definition
Researchers then
used advanced microscopy to visualize activity in their brains, comparing nerve signaling activity in those exposed to anesthesia to those who were not.
In the tour de force study, described in Science on July 27, 2017, the Salk researchers identified a novel DNA dye that, when paired
with advanced microscopy in a combined technology called ChromEMT, allows highly detailed visualization of chromatin structure in cells in the resting and mitotic (dividing) stages.
A team led by Jonathan Poplawsky of the Center for Nanophase Materials Sciences used
advanced microscopy techniques to discover efficiency differences of crystalline structures of various mixtures of cadmium, tellurium and selenium.
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.
I am studying the stochastic dynamics of chromatin (DNA) in the cellular nucleus
with advanced microscopy and single particle tracking.
Also, by
using advanced microscopy techniques, we can investigate processes like mitosis, and gain insight in chromosomal instability.
PHENOMIN - CIPHE, on the strength of its expertise in genetics and mouse immunology, is positioned as a pioneer in multiparametric analysis of the immune system of mutant mice in normal conditions or exposed to risks of infection, by an integration of innovative research and technical knowledge in the field of flow and mass cytometry as well
as advanced microscopy.
Caroline obtained her degree in physics from the University of Heidelberg, Germany in 2008 and went on to do a PhD at the Institute of Photonics, University of Strathclyde, Glasgow in 2012 with a thesis on the application of wavefront sensorless adaptive optics in
advanced microscopy techniques.
Using
advanced microscopy, they noted that the crystals in the Allan Hills sample are too pure to be explained by a thermal event.
The project team turned to Dravid, a longtime collaborator of Mirkin's who specializes in nanopatterning,
advanced microscopy and characterization of soft, hard and hybrid nanostructures.
ITOS Fellows will also have access to the most modern types of high - resolution imaging,
advanced microscopy, genome - level profiling, proteomics, gene manipulation and cell tracking, as well as exposure to systems biology and bioinformatics.
Additionally he is analysing protein - protein interactions in living cells using
advanced microscopy.
The stuff I do certainly needs physics and cell biology in order to study cells with
the advanced microscopy and the genetically encoded fluorescent molecules that I mentioned.
To test this hypothesis, we follow the movement of proteins inside axons in real time, using
advanced microscopy techniques that allow us to determine in detail whether this movement is impaired as an axon ages.
I went to college at Reed College in Portland, where I did a research fellowship for my undergraduate thesis that used
advanced microscopy to study the development of some bizarre marine worms.
Several projects in the area of signal transduction, fluorescent proteins engineering, optogenetics and
advanced microscopy are available.