Electron microscopy showed mitochondrial damage following NSAID (indomethacin) compatible with uncoupling of oxidative phosphorylation and inhibition of electron transport.
Electron microscopy showed dose dependent mitochondrial changes following indomethacin administration consistent with uncoupling of oxidative phosphorylation (or inhibition of electron transport) which were indistinguishable from those seen with the uncoupler dinitrophenol.
A scanning
electron microscopy shows a cross section of the composite photocathode (left).
Electron microscopy shows dose dependent mitochondrial changes that are indicative of uncoupling of oxidative phosphorylation or inhibition of electron transport.
Not exact matches
They also utilized immunogold labeling — in which gold particles are attached to antibodies that bind to particular proteins in order to make them visible in
electron microscopy — to
show that filaments within the feathers were keratin.
This scanning
electron microscopy image
shows the self - assembled nanofibers that make up the hydrogel.
Structure of the monomeric yeast ATP synthase,
shown as a surface representation, as determined by cryo -
electron microscopy.
A transmission
electron microscopy image of the new material SAM2X5 - 630
shows the metallic compound's disorganized inner structure, usually a hallmark of glass.
The researchers then used
electron microscopy to visualize their necklaces,
shown above.
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.
An international team led by researchers from the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) used advanced techniques in
electron microscopy to
show how the ratio of materials that make up a lithium - ion battery electrode affects its structure at the atomic level, and how the surface is very different from the rest of the material.
And its ability to
show the shape of dendrites and trace neuronal processes provides contextual information unavailable through imaging techniques such as
electron microscopy, fluorescence
microscopy, and magnetic resonance imaging (MRI).
The team used light and
electron microscopy to
show that lymphatic endothelial cells, which line the interior surface of the lymph node capsule, contain a number of channels that penetrate the whole thickness of the cells.
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.
The structure of this complex, determined using cryo -
electron microscopy,
shows how it converts near - infrared light into an electrical charge in order to power cell metabolism, which enables this bacterium to live at the extreme red limit of photosynthesis on Earth.
Using confocal laser
microscopy and
electron microscopy, coupled with the use of advanced synchrotron techniques at the Swiss Light Source, in Villigen (Switzerland), and at the Canadian Light Source in Saskatoon, Canada, the team was able to
show that not only the morphology of microbial twisted structures is preserved after long incubations under diagenetic conditions, but also organic remnants can be detected in the mineralized twisted structures.
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).
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.
Using cryo -
electron microscopy to study the structure of such ribosome - mRNA complexes, the researchers were able to
show the manner in which special rescue proteins (Dom34 and Hbs1) recognize such stalled ribosomes, thereby initiating the splitting of the arrested complex and the degradation of the faulty mRNA.
Mercer says the team has since done
electron microscopy experiments that
show the virus moving into the cell through membrane indentations, although these data were not part of the published study.
«
Electron -
microscopy studies from back in the 1960s
show depressions in the yeast membrane, but they were not studied in detail and were dismissed as artefacts of sample preparation», explains University of Groningen Professor of Biochemistry Bert Poolman.
An
electron microscopy image
shows an antibody - secreting plasma cell generated using antigen - and CpG - coated nanoparticles.
An
electron microscopy image
shows many examples of nanoscrolls.
Scanning
electron microscopy analysis of developing inflorescences from PCZ - treated wild - type plants
showed that terminal AMs mostly formed spikelets rather than bristles (Figures 5C and 5D), that there was ectopic development of rudimentary spikelets (Figure 5D), and many spikelets (∼ 43 %) developed two florets instead of one (Figure 5E), very similar to what we observed in bsl1 - 1 mutants.
To
show that the enzymes were trapped inside the FMS pores, the team stained the protein - FMS complex with gold nanoparticles and documented the enzyme - in - pore complex through
electron microscopy.
(C) to (E) Scanning
electron microscopy analysis of inflorescences from PCZ - treated wild - type plants
showed that by 17 DAS (C), there was no sign of bristle differentiation, but spikelets (white arrows) developed normally.
Using correlated 2 - photon and
electron microscopy, these have
shown how adult neuronal connectivity is far from hard - wired, with dendritic spines playing a significant role in the rapid alterations in the wiring of cortical circuits.
The rewarded work
showed that
electron cryo -
microscopy (cryo - EM) can achieve visualization -LSB-...]
In a ground - breaking collaborative research project using
electron microscopy, circular dichroism and X-ray fiber diffraction, researchers at the University of Sussex and TauRx Pharmaceuticals have succeeded in
showing that the truncated fragment can be made to assemble into PHFs in the test tube (https://doi.org/10.1016/j.jmb.2017.09.007).
The image is generated from reconstructed data from serial block face scanning
electron microscopy,
showing the cells, their flagella (red and purple) and internal organelles.
The rewarded work
showed that
electron cryo -
microscopy (cryo - EM) can achieve visualization of macromolecules at the atomic level.
In the paper, the authors write: ′ As the present study
shows, the combination of light
microscopy, scanning and transmission
electron microscopy and three - dimensional confocal laser
microscopy, successfully contributed novel information on the structure and morphology of ceratomyxid parasite stages in the bile, and provided unique insights into parasite composition, cell motility and cytokinesis in myxozoans, which had not previously been studied.
CS30 was
shown to be thermo - regulated, expressed at 37 °C, but not at 20 °C, by SDS - page and mass spectrometry analyses as well as
electron microscopy imaging.
The lab of Georgios Skiniotis, also at the LSI, used
electron microscopy to
show how NS1 associates with membranes of the infected cell, which the researchers suspected would be associated with both virus replication and immune evasion.
The new hydrogel type can be seen in these
electron microscopy images, which
show the nanogel and polymer structure at different magnifications (Image: MIT)
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 follicula
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 follicula
electron dense deposits of IgG and TG along the basement membrane of follicular cells.
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 follicula
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 follicula
electron dense deposits of Antibodies (IgG and TG) along the basement membrane of follicular cells.
Transmission
electron microscopy with colloidal gold immunocytochemistry
showed structural damage in young and aged microvessel endothelium of ApoE4 animals extended to the cytoplasm of perivascular cells, perivascular nerve terminals and hippocampal neurons and glial cells.
In depth biochemical investigations coupled with
electron microscopy have
shown that at this threshold the balance between safety and toxicity of copper becomes very unstable and liver damage, involving a process known as oxidant stress, becomes very likely.