«New insight on a familiar glow: Green fluorescent proteins for
monitoring cell processes.»
Not exact matches
In several recent papers, Prof. Shen and colleagues at the Micro / Bio / Nanofluidics Unit at the Okinawa Institute of Science and Technology (OIST), described their creation of a new biosensing material that can be used to
monitor processes in living
cells.
«One of the major goals of nanoplasmonics is to search for better ways to
monitor processes in living
cells in real time,» says Prof. Shen.
One of the team's new biosensors is made from a nanoplasmonic material that is able to accommodate a large number of
cells on a single substrate and to
monitor cell proliferation, a fundamental
process involving
cell growth and division, in real time.
By measuring how the light has changed once it emerges through the other side of the slide, the researchers can detect and
monitor processes occurring on the sensor surface, such as
cell division.
The use of nuclear imaging enables the researchers to
monitor expansion of the corrected
cells through a noninvasive imaging
process.
Invaluable as markers for
monitoring photosynthesis and other energy - related
processes in living
cells, green fluorescent proteins (GFPs), discovered in a species of jellyfish, are vital in extremely high - resolution imaging studies.
At that point, the researchers began
monitoring the repair
process with longitudinal fluorescence to determine if there would be an appreciable loss of stem
cells in the in vivo samples, as compared to the static, in vitro, environments.
Instead we can use the epigenetic clock to
monitor their
cells» aging rate and to evaluate which therapies slow the biological aging
process,» explained Horvath.
We need the ability to observe and
monitor the
process without impeding it; therefore, our team decided to analyze and study a new approach to
monitoring stem
cells as they transform into tissues we may need to treat disease.»
One consistent challenge has been observing and
monitoring the
process through which stem
cells transform.
In the Medalist + C group, there were alterations in the DNA damage checkpoint pathway machinery that
monitors the DNA repair
process of the body's
cells.
Using a new imaging technique, the scientists
monitored the formation of insulating layers around nerve
cells, a
process called myelination, which is vital for normal brain function.
Our goal is to use a new imaging system to
monitor damage caused by AD to the brain region that contains the insulated axons (analogous to cables) connecting the neuron
cell bodies (analogous to the central
processing unit of a computer).
«A long - standing mystery among researchers was how the buildup of this mutant huntingtin caused
cells to degrade and die, but previous technology made it virtually impossible to
monitor this
process at the cellular level.
By combining new systems biological analyses and advanced data analysis, a recent study led by Petter Brodin (Karolinska Institutet / SciLifeLab) have been able to
monitor the maturation
process of the immune system in leukaemia patients who have undergone stem
cell transplantation.
Cells at the crisis stage resemble senescent cells and the expression of SA - beta - Gal may be used to monitor the process of immortaliza
Cells at the crisis stage resemble senescent
cells and the expression of SA - beta - Gal may be used to monitor the process of immortaliza
cells and the expression of SA - beta - Gal may be used to
monitor the
process of immortalization.
For hardware, I have a hands - free telephone headset, my
cell phone and Bluetooth headset, and three
monitors (one for email, one for word
processing, one for online search, research, and miscellaneous — like listening to the radio or podcasts).
In addition, the device includes the Qnovo adaptive charging technology, which automatically
monitors electrochemical
processes in the battery
cells, adjusting charging parameters in order to extend battery life.
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