Above Image:
Electron microscopy image of thyroid tissue from a patient with Hashimoto's thyroiditis, showing electron dense deposits of Antibodies (IgG and TG) along the basement membrane of follicular cells.
1)
Electron microscopy image of thyroid tissue from a patient with Hashimoto's thyroiditis, showing electron dense deposits of IgG and TG along the basement membrane of follicular cells.
(B - i)
Electron microscopy image of a porcine photoreceptor outer segment (POS) adjacent to an iPS - RPE cell following 3 hours co-culture with a porcine retina explant.
An electron microscopy image shows many examples of nanoscrolls.
An electron microscopy image shows an antibody - secreting plasma cell generated using antigen - and CpG - coated nanoparticles.
This is a transmission
electron microscopy image of different levels of crystallinity in the amorphous alloy.
This is a scanning
electron microscopy image of a calcite crystal generated in the presence of the sea urchin protein rSpSM50 on a silicon wafer showing organized nanotexturing on exposed surfaces.
This is a collage showing contains a transmission
electron microscopy image of the improved quantum dot and its representation (left), the schematic of the device which nicely illustrates «current - focusing» idea (middle), and the device under operation (right).
SUGAR CHECK Artificial insulin - secreting cells (shown in this false color cryo -
electron microscopy image) could offer automatic, ultrafine blood sugar regulation for diabetes patients.
In this false - color scanning
electron microscopy image, thermal conductivity was measured by transporting heat from the suspended heat source pad (red) to the sensing pad (blue).
A transmission
electron microscopy image of the new material SAM2X5 - 630 shows the metallic compound's disorganized inner structure, usually a hallmark of glass.
This scanning
electron microscopy image shows the self - assembled nanofibers that make up the hydrogel.
TOUGH STUFF A new wood - compacting process crushes the gaps between cell walls in natural wood (porous structure seen in the scanning
electron microscopy image, left), making the densified wood (right) as strong as steel.
The only species Onstott has observed in action are nematode worms; he could see them squirming under a microscope, and took detailed
electron microscopy images of their hundredth - of - an - inch - long bodies.
Low - temperature
electron microscopy images of depth hoar are leading to better models for converting the raw satellite readings into accurate measurements of snowfall.
Electron microscopy images of the porous graphene - based structure created by diffusion driven layer - by - layer assembly.
Scanning
electron microscopy images for showing sugar blowing process: glucose were polymerized and blown by released ammonia into melanoidin bubbles in heating, which bubbles were finally converted into strutted graphene containing mono - / few - layered graphene membranes and graphitic struts.
This is a cross-sectional scanning
electron microscopy images of a 750 nm period grating fabricated by focused ion beam milling in a 300 nm thick amorphous germanium antimony telluride film on silica.
This is a 3 - D reconstruction of an amyloid fibril from two protofilaments (red / blue) calculated from cryo -
electron microscopy images.
We review progress in the processing of
electron microscopy images and, in particular, a semi-automated reconstruction pipeline deployed at Janelia.
At Pacific Northwest National Laboratory, Abellan is obtaining and analyzing in situ
electron microscopy images of nanomaterials in liquids.
Scanning
electron microscopy images of PLG microspheres created using Precision Particle Fabrication.
The new hydrogel type can be seen in
these electron microscopy images, which show the nanogel and polymer structure at different magnifications (Image: MIT)
Not exact matches
So in the end I would name my
image «STXM -
Microscopy -
Electron -
microscopy - ben - libberton».
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.»
Single particles of the mediator of transcriptional regulation (Mediator) and of RNA polymerase II holoenzyme were revealed by
electron microscopy and
image processing.
Cryo -
electron microscopy fires
electrons at proteins that have been frozen in solution, providing
images of such high resolution that scientists can create models down to the atomic level.
Through a combination of high - resolution cryo -
electron microscopy (cryo - EM) and a unique methodology for
image analysis, a team of researchers with Berkeley Lab and the University of California (UC) Berkeley has produced an atomic view of microtubules that enabled them to identify the crucial role played by a family of end - binding (EB) proteins in regulating microtubule dynamic instability.
Using transmission
electron microscopy, the team
imaged individual tubes and sized up the kinks.
One mission of the Facility is to establish user - friendly workflows ranging from sample preparation to
image acquisition,
image processing, and long - term data storage, especially for imaging modalities generating very big datasets or files, such as slide - scanning, high - content screening, and 3 - D scanning
electron microscopy.
Acquiring
images using modern techniques such as light sheet fluorescence, confocal, or
electron microscopy creates a significant data stream.
By using thousands of
images, they reconstructed a high - resolution cryo -
electron microscopy structure of the Zika virus.
The researchers used an ion beam to slice off thin sections from the samples, and they used
electron microscopy techniques to
image the samples and perform elemental analyses.
However, when they tried to create high - magnification
images of the interaction using
electron microscopy, they were surprised that they could not find any intact VLPs.
In transmission
electron microscopy (TEM),
images are formed after
electrons pass through a thin sample.
Much like in an old tube television where a beam of
electrons moves over a phosphor screen to create
images, the new
microscopy technique works by scanning a beam of
electrons over a sample that has been coated with specially engineered quantum dots.
In
microscopy much effort is invested in reducing the impact of light or
electron beam — the so - called observer effect» — on the sample to ensure that the
images represent truly pristine structures, unaffected by the process of measurement.
Electron microscopy and electron diffraction can provide the spatial resolution to image atoms, but filming atomic motions requires ultrashort shutter speeds — the shorter the electron pulses, the sharper the images from the micr
Electron microscopy and
electron diffraction can provide the spatial resolution to image atoms, but filming atomic motions requires ultrashort shutter speeds — the shorter the electron pulses, the sharper the images from the micr
electron diffraction can provide the spatial resolution to
image atoms, but filming atomic motions requires ultrashort shutter speeds — the shorter the
electron pulses, the sharper the images from the micr
electron pulses, the sharper the
images from the microcosmos.
Three - dimensional
image using scanning tunneling
electron microscopy of
electrons on the surface of a Weyl semi-metal, a kind of crystal with unusual conducting and insulating properties.
The TSRI laboratories of Professor Erica Ollmann Saphire and Assistant Professor Andrew Ward are studying the structures of these antibodies using techniques called
electron microscopy, which creates high - resolution
images by hitting samples with
electrons, and X-ray crystallography, which determines the atomic structure of crystalline arrays of proteins.
The ultimate dream is to take STEM into three dimensions with confocal
electron microscopy, which
images a material in slices by changing the focus of the beam.
The scientists
imaged the crystals with high - resolution
electron microscopy and found that the unique environment made the ice crystallize in a new, cubic configuration, they report online today in Nature.
To help with understanding the crystal structure, Steve Hackney, professor of materials science at Michigan Tech, was able to provide crucial high - resolution
images and diffraction patterns using transmission
electron microscopy on ultrathin samples prepared with a diamond knife by Owen Mills, director of Michigan Tech's Applied Chemical & Morphological Analysis Laboratory.
He then began his career as a research technician in the Department of Pathology at the University of Washington, where he was introduced to the use of digital
image processing and
image analysis with light and
electron microscopy.
(Left) Representative reference - free 2D class averages of negative - stain
electron microscopy (EM)
images of the uncleaved BG505 gp140 and the native - like BG505 SOSIP.664 trimers.
She and her research group recently demonstrated CLAIRE's imaging capabilities by applying the technique to aluminum nanostructures and polymer films that could not have been directly
imaged with
electron microscopy.
We thank Kathy West for providing a titi monkey photograph, Dr. Don Canfield for the gross pathology and histopathology
images as well as expert interpretation, and Grete Adamson for the transmission
electron microscopy.
Klie and his colleagues devised a way to take temperature measurements of TMDs at the atomic level using scanning transition
electron microscopy, which uses a beam of
electrons transmitted through a specimen to form an
image.
The answer has been to use scanning
electron microscopy (SEM) and atomic force
microscopy (ATM), which yield reasonable
images.
(X-Window-based
Microscopy Image Processing Package) a suite of image processing programs primarily aimed at single - particle 3D electron micros
Image Processing Package) a suite of
image processing programs primarily aimed at single - particle 3D electron micros
image processing programs primarily aimed at single - particle 3D
electron microscopy.