«Eggshells are notoriously difficult to study by traditional means, because they easily break when we try to make a thin slice for
imaging by electron microscopy,» says McKee, who is also a professor in McGill's Department of Anatomy and Cell Biology.
Not exact matches
By using a powerful
imaging technique known as cryo -
electron microscopy, however, Campbell and her colleagues were able to figure out exactly how the antibiotic throws a wrench into RNAP.
Selective
imaging by correlated optical and
electron microscopy of protein molecules of known ages will clarify fundamental processes of protein trafficking in situ.
The authors also employed other advanced
imaging techniques — including
electron microscopy and super-resolution
imaging — to discover that the formation, and subsequent loosening, of these contacts is regulated
by a lysosomal protein called RAB7.
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.
Invented
by researchers with the U.S. Department of Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California (UC) Berkeley, CLAIRE extends the incredible resolution of
electron microscopy to the dynamic
imaging of soft matter.
A new technique enables 3 - D visualization of chromatin (DNA plus associated proteins) structure and organization within a cell nucleus (purple, bottom left)
by painting the chromatin with a metal cast and
imaging it with
electron microscopy (EM).
CLAIRE works
by essentially combining the best attributes of optical and scanning
electron microscopy into a single
imaging platform.
Another technique pinpoints the locations of proteins within their subcellular context
by coupling super-resolution
imaging with
electron microscopy.
These questions will be addressed
by combining unbiased «omics» - approaches (i.e. genomics, transcriptomics, and proteomics) and a targeted genetic analysis with both superresolution live - cell
imaging and
electron microscopy of nanotube - forming cells.
The photocathode materials research is supported
by the Chemical
Imaging Initiative and is designed to impact next generation light source development and further ultrafast transmission
electron microscopy.
The Calgary
Microscopy and
Imaging Facility (MIF) is a world - class university - wide facility housing transmission
electron microscopy (TEM), scanning
electron microscopy (SEM), advanced light
microscopy, atomic force
microscopy (AFM), including single cell force spectroscopy (SCFS), and advanced image processing for three - dimensional
electron and light
microscopy, directed
by Professor Matthias Amrein.
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.