Not exact matches
The feature - rich Easypack ® Quantum ™ XTW offers
high productivity, ease - of - use, safety, superior ergonomics, paper - loading ease, as well as, flexible design which
enables customized work
cell options.
Crosslinked polyethylene is a
high density closed
cell foam characterized by a compact feel and resistance to water that
enables the material to be fabricated, thermoformed or compression molded in many ways.
«This strategy allows a colony to hedge its bets by
enabling individual
cells within a population to assume
high levels of resistance while others avoid this extra work.»
Researchers at Tufts University have created a genetically modified yeast that can more efficiently consume a novel nutrient, xylose,
enabling the yeast to grow faster and to
higher cell densities, raising the prospect of a significantly faster path toward the design of new synthetic organisms for industrial applications, according to a study published today in Nature Communications.
The new synthetic regulon, dubbed XYL,
enabled the yeast
cells to grow more rapidly and to
higher cell densities.
Currently, seasonal flu vaccines are designed to induce
high levels of protective antibodies against hemagglutinin (HA), a protein found on the surface of the influenza virus that
enables the virus to enter a human
cell and initiate infection.
Shortening these RNAs
enables Integrated DNA Technologies to manufacture the components as
high - quality, synthetic RNA oligonucleotides that elicit less toxicity and innate immune response activation in
cells.
Kuo's organoids contain a mix of
cell types, which
enables «observation of
higher - order behaviors such as muscle contraction,» he says.
Its
high reactivity has
enabled its use in photodynamic therapy, in which light is used in combination with a photosensitizing drug to generate large amounts of singlet oxygen to kill cancer
cells or various pathogens.
A
high - resolution map of the human
cell has been generated — part of the Human Protein Atlas database — that provides the in situ localization of 12,036 human proteins at a single -
cell level, covering 30 subcellular structures, and
enabling 14 major organelle proteomes to be defined.
Vaterite has special properties that make it a potentially superior carrier for medications due to its
high loading capacity,
high uptake by
cells and its solubility properties that
enable it to deliver a sustained and targeted release of therapeutic medicines to patients.
The significance of the team's approach is that it «
enables imaging of live
cells in a
high - throughput manner at a time resolution at which all biologically relevant dynamics appear static,» he said.
To gain access to the gene - containing portion of the barley genome at
high resolution, Close and his team identified and sequenced 15,622 BACs or bacterial artificial chromosomes — small fragments of the barley DNA linked to other DNA to constitute a circular molecule that can replicate and be propagated inside an E. coli bacterial
cell,
enabling researchers to produce copies of each BAC for DNA sequencing one small piece of the barley genome at a time.
The fatty acid sensor, known as PPAR - delta, responds to
high levels of fat by turning on a metabolic process that
enables cells to burn fat as an energy source instead of their usual carbohydrates and sugars.
In the second presentation, entitled «Pre-assembled Cas9 - sgRNA Complexes
Enable High - Efficiency Cellular Engineering in Mammalian
Cells,» researchers detailed Caribou's ongoing work utilizing pre-assembled protein - RNA complexes for Cas9 - sgRNA genome editing.
The system can
enable high editing efficiency, with no discernable effect on hiPS
cell health or pluripotency.
DA - HCS
enables the reduction of expensive antibodies and reduces the volume of precious
cells needed in
high content screening assays.
These features
enable gesicles to knock out genes with
high efficiency and in a broader range of
cell types than plasmid - based delivery methods.
These types of investigations have been
enabled by key technologies, including single -
cell assays,
high - throughput genomic sequencing, and improved bioinformatic algorithms.
«Many key - biological questions require the analysis of hundreds or even thousands of individual
cells; the
high - throughput facilities hosted by the SciLifeLab are scaled to
enable such analyses, and will offer this to the Swedish research community» says Stefan Bertilsson, Platform Director of the Microbial Single
Cell Genomics facility.
But the development of new,
high - resolution imaging technology able to capture single
cells has finally
enabled scientists to reliably chart noise at this level, and to study how it influences behavior.
MEDFORD / SOMERVILLE, Mass. (March 26, 2018)-- Researchers at Tufts University have created a genetically modified yeast that can more efficiently consume a novel nutrient, xylose,
enabling the yeast to grow faster and to
higher cell densities, raising the prospect of a significantly faster path toward the design of new synthetic organisms for industrial applications, according to a study published today in Nature Communications.
The work is focused on both new chemistries for enhanced stability and enhanced efficiencies, and also on solar
cell and module processing for
enabling large area
high yield manufacturing.
Combined with spinning confocal, it
enables Super Resolution to be achieved at
high speed and low photo - toxicity, making it the ideal solution for live
high resoluion
cell imaging.
Such
high redundancy of coverage
enabled us to accurately compute allele frequency, and thereby, the fraction of tumor
cells harboring each mutation.
Allogeneic
cell transplantation
enables the use of «younger»
cells, from fetal origins (e.g., umbilical cord blood, placenta) or healthy donors, which are considered to be effective due to
higher regenerative potential and plasticity.
Single -
cell DNA solid tumor profiling
enables high resolution of the genomic diversity in a variety of tumor types.
In the energy arena, nanotechnology will
enable high - efficiency, low - cost batteries and solar
cells.
These techniques
enable them to study genome architecture and protein - DNA interactions in
high resolution in single
cells.
Their three - dimensional
cell - culture system, adapted for
high - throughput screening, has
enabled them to identify small molecules that can inhibit adhesion and invasion, preventing ovarian cancers from spreading to nearby tissues.
Here, authors from Corning Life Sciences describe dissolvable microcarriers as a scalable solution for large - scale expansion and harvest of functional human mesenchymal stem
cells by
enabling simplified downstream processing and
high - yield
cell recovery.
Production of fuel
cells, electrolyzers and hydrogen storage tanks with lower cost and
higher efficiency will be
enabled by the work in Research Area 2 (lead by SINTEF).
The recent developments in
high throughput single -
cell RNA sequencing technology (scRNA - seq) have
enabled the generation of vast amounts of transcriptomic data at cellular resolution.
While
cell - free protein expression done today
enables protein chemists to quickly produce small amounts of proteins when screening DNA libraries, there is a need for
higher protein expression yields.
A new fabrication method
enabled researchers to make larger perovskite
cells with few defects, resulting in
higher efficiency.
By increasing the communication between
cells, the brain's capacity to function at a
higher level is also increase,
enabling us to be more focused, alert and ready for life's stresses.
«The ability to accumulate [fat and cholesterol] may
enable [cancer]
cells to take advantage» of people eating
high - fat diets, and
high - cholesterol diets.
Cell - Tech ™ is designed to
enable you to perform better in explosive movements such as jumping, and 100 metre sprinting which require
high intensity power output fuelled by the ATP - PC system.
The Army will evaluate the ZH2 fuel
cell for: Near - silent operation
enabling silent watch capability Reduced acoustic and thermal signatures
High wheel torque at all speeds via electric drive Low fuel consumption across operating range Water by - product for field uses GM and TARDEC have fuel
cell development laboratories located 20 miles apart in southeast Michigan.
«This project will
enable precision measurements of the physical, chemical and biological changes that occur when
cells are subjected to mechanical loading, ranging from small perturbations to
high - force,
high - speed impacts,» said Megan Valentine from UC Santa Barbara.
As a result, each
cell is highly specialized to produce the
high production volumes that
enable the
highest degree of competence in regard to every factor of production and therefore the greatest economies - of - scale.