Not exact matches
Bykov et al.
used cryo -
electron tomography of vitrified Chlamydomonas reinhardtii cells to analyze COPI - coated vesicles directly.
Guo et al.
used cryo —
electron tomography to examine the molecular architecture of poly - GA aggregates in situ in intact neurons.
To make their determination, researchers
used a combination of analytical techniques, including atom probe
tomography, transmission
electron microscopy and
electron beam induced current.
CAC was measured at year 20 (2005 - 2006)
using electron - beam computed
tomography.
To gain more insights into this highly specific degradation pattern, Qinghua Zhou et al.
used electron microscopy and
tomography to study sperm mitochondria (or paternal mitochondria) in Caenorhabditis elegans, a type of roundworm, during early stages of development.
In studying the functional behavior of the brain, from control of muscles to the formation of memories, scientists are
using such tools such as
electron microscopy, recordings of electrical signals from individual brain cells, and imaging of brain structures and processes
using functional magnetic resonance imaging (fMRI), positron emission
tomography (PET), and high - resolution optical imaging.
During the 496th Brookhaven Lecture, Lijuan Ruan explained how she
uses electron - positron
tomography from quark - antiquark annihilations to study chiral symmetry, a characteristic that «broke» to form 99 percent of the visible mass in the universe and is thought to be restored during ion collisions at the Relativistic Heavy Ion Collider.
We will continue to study the relationship between the 3D structure and the function of macromolecular complexes
using a combination of 3D
Electron Microscopy, Cryo -
Electron Tomography, single particle analysis, correlative fluorescence microscopy, image analysis, and needed biochemical techniques.
In Situ Localization of N and C Termini of Subunits of the Flagellar Nexin - Dynein Regulatory Complex (N - DRC)
Using SNAP Tag and Cryo -
electron Tomography.
In a Berkeley Lab - led study, flexible double - helix DNA segments connected to gold nanoparticles are revealed from the 3 - D density maps (purple and yellow) reconstructed from individual samples
using a Berkeley Lab - developed technique called individual - particle
electron tomography or IPET.
Researchers
used the 12 - ID - B and 32 - ID beamlines at the Advanced Photon Source, also a DOE Office of Science User Facility, to take X-ray scattering measurements, as well as transmission X-ray microscopy nano - computed
tomography of the samples, scanning
electron microscopy and transmission
electron microscopy.
What's more, the technique
used to create the reconstruction, atomic
electron tomography (which is like an incredibly high - resolution CT scan), lays the foundation for precisely mapping the atomic composition of other useful nanoparticles.
The positions of 3769 tungsten atoms in a tungsten needle segment were determined to a precision of 19 pm (0.019 nm), including the position of a single atom defect in the interior of the sample, by
using aberration - corrected scanning transmission
electron microscopy and computerized
tomography.
Capabilities in the cryo - EM Centre eBIC span single particle analysis and molecular and cellular
tomography using FEI technology and direct
electron detectors.