«Previously, dynein movement had only been tracked by attaching fluorescent molecules to the proteins and observing the fluorescence using very
powerful light microscopes.
Under
a powerful light microscope, he looked for tiny chips and abrasions on the edges of the arrowheads.
Not exact matches
Shapiro and colleagues are now building even more
powerful X-ray
microscopes at the Advanced
Light Source to improve the platform's spatial resolution by a factor of ten.
Then, using a
powerful microscope that magnifies and
lights up the electrical circuitry of the cells, they watched the chain of events that unfolded inside them.
Using one of the world's most
powerful soft X-ray
microscopes — the Scanning Transmission X-ray
Microscope (STXM) and X-ray Emission beamlines — at the Canadian
Light Source in tandem with one of the world's highest resolution aberration - corrected transmission electron
microscopes housed at the University of Illinois at Chicago (UIC), Banerjee and collaborators from the Lawrence Berkeley National Laboratory, the UIC and Argonne National Laboratory were able to observe the unique electronic properties of their novel vanadium pentoxide and directly prove magnesium - ion intercalation into the material.
The University of Portsmouth and NREL collaborated with scientists at the Diamond
Light Source in the United Kingdom, a synchrotron that uses intense beams of X-rays 10 billion times brighter than the sun to act as a
microscope powerful enough to see individual atoms.
They imaged cells on
powerful microscopes that detect the
light emitted from fluorescent molecules in each sensor.
Researchers used a
powerful X-ray
microscope at Berkeley Lab's Advanced
Light Source (ALS) to capture images of nerve cell samples at different stages of maturity as they became more specialized in their function — this process is known as «differentiation.»
A new
light microscope so
powerful that it allows scientists peering inside cells to discern the precise location of nearly each individual protein they are studying has been developed and...
«And if you see it through the eyes of the opportunities of the states, the
light microscope becomes very, very
powerful.»
The electron
microscope is an extremely
powerful tool for viewing the individual synapses of neurons, at orders of magnitude higher resolution than
light microscopy.