Comprised of a microfluidic plate and controller, the system delivers programmable, hands - free control and, importantly, is fully compatible with microscope stages for
dynamic live cell imaging.
This workshop will cover the advantages of
dynamic live cell imaging, where microenvironmental parameters such as temperature, perfusion of reagents, and gas compositions can be precisely controlled on demand by software during the entire duration of a given imaging experiment.
Not exact matches
It seems incredible to them, for example, that the marvelous, intricate, and
dynamic adjustments constantly made by the
cells in the human body, apart from which human
life is impossible, are somehow self - explanatory.
We've seen this
dynamic at work all around the world, as
cell coverage penetrates to areas that wires have never reach, and it's changed
lives and whole local economies in the process.
Microtubules, hollow fibers of tubulin protein only a few nanometers in diameter, form the cytoskeletons of
living cells and play a crucial role in
cell division (mitosis) through their ability to undergo rapid growth and shrinkage, a property called «
dynamic instability.»
Campbell has developed a new technique, which he has dubbed FPX, that employs genetically encoded fluorescent proteins to image
dynamic biochemical events in
live cells and tissues.
In light - sheet mode, they clearly saw the 3D
dynamic nature of tiny protrusions on
living white blood
cells when they acquired 150 triple - view images over 40 minutes.
Importantly, our technology can follow the
dynamic duplication processes in our
cells and can therefore reveal the
life cycle of these DNA - complexes,» says postdoc Constance Alabert who has been leading the laboratory work.
The researchers also showed that degradable alginate structures are useful for making
dynamic environments for experiments with
live cells.
The researchers then used a
dynamic force - scanning probe microscope for single - molecule force spectroscopy as well as antibody - recognition force microscopy (Ig - RFM) to map the locations of MtrC and OmcA on the surface of
live Shewanella
cells.
A microscope and its parts, image formation, Köhler illumination, optical aberrations, types of lenses, phase contrast, interference contrast, polarization, fluorescence microscopy, laser confocal microscopy, two - photon confocal microscopy, superresolution microscopy, study of
dynamic processes in
living cells, immunofluorescence.
Live Cell Imaging of Paxillin in Rolling Neutrophils by Dual - Color Quantitative
Dynamic Footprinting.
The IncuCyte ®
Live -
Cell Analysis System continuously analyzes cell function and provides insights into the complex and dynamic cellular processes of immunol
Cell Analysis System continuously analyzes
cell function and provides insights into the complex and dynamic cellular processes of immunol
cell function and provides insights into the complex and
dynamic cellular processes of immunology.
«Completing the Human
Cell Atlas is a mammoth task that needs the participation of many international collaborations and the combined knowledge - base will be an immeasurably valuable tool to model the plethora of
dynamic components that enable
life and to create a resource that can be used to explore new ideas for therapies and diagnostics in the near future».
The IXplore SpinSR10 system combines speed, reduced phototoxicity, and stability during time - lapse experiments to create 3D super resolution data that enables users to observe
dynamic changes and phenomena within
live cells.
Importantly, these studies to elucidate gene contacts in the 3D nuclei of
live cells have demonstrated that condensin - mediated contacts between centromeres and the genomic loci carrying Pol III - transcribed genes or retrotransposons are highly
dynamic.
Imitation, they say, is the sincerest form of flattery, but mimicking the intricate networks and
dynamic interactions that are inherent to
living cells is difficult to achieve outside the
cell.
The microscope and its components, image formation, microscopy in both transmitted and fluorescent light, Kohler illumination, optical aberrations, objective lens types, phase contrast, interference contrast, polarization, fluorescence microscopy, laser confocal microscopy, two - photon confocal microscopy, super-resolution microscopy, study of
dynamic processes in
living cells, immunofluorescence.
Dynamic imaging of genomic loci in
living human
cells by an optimized CRISPR / Cas system.
With these modern microscopes we can perform protein localization and mobility analyses, three dimensional, time course
dynamic analyses of
live cells, tissues and organisms.