Researchers can observe the fine details and workings of internal
cellular structures at resolutions beyond the limit of conventional microscopes with the ability to easily switch between super resolution, confocal, and widefield imaging.
SIM is ideal for looking at entire cells in 3 - D, ensembles of cells or multiple
cellular structures at once.
That effect will have
your cellular structure at a warmer level, and with that heat comes the ability for fat to go away and calories to be put to better use.
Not exact matches
Commenting on Whitehead's doctrine of
structured societies
at the
cellular level, John Cobb remarks: «Whitehead
at that point was forced to explain the order in the cell in terms of its molecular
structure, to which spontaneity was denied, and to explain the life of the cell in terms of the events in its empty space, which he depicted as radically unordered.
Philosophy has, I think, adequately yet to digest the
cellular, molecular, atomic, particle - wave (or «wavicle»)
structure of nature
at large.
Hartshorne does admit that panpsychism appears incredible to common sense
at such points as the suggestion that stones may have feelings or be composed of sentient entities; but he counters the force of this objection by pointing out that such scientific conceptions as atomic and
cellular structures of plants and animals also greatly transcend common sense.
Just as quantum mechanics is needed to, and does perfectly, fill the gap between the atomic
structure of crystals and their beautiful shape in space, so too it will be needed to link the biochemistry of genetic code and
cellular processes to the growth and shape of living things — provided, that is, that such a link can be found
at all.
The objective of the research project led by Marko Kallio, Principal Scientist
at VTT, was to accelerate the drug development process by identifying new compounds that would possess similar binding properties and
cellular phenotype, but a different chemical
structure, as the selected drugs in clinical use or investigational compounds in development.
They used this novel simulation approach to build a model of a sperm cell that demonstrates
cellular movement from individual dynein protein molecules in the tail all the way up to the whole cell, allowing them to observe how changes
at the atomic level are reflected in larger - scale
structures.
These motions are evident
at the Sun's surface in the form of two characteristic
cellular structures: granules and supergranules (~ 1000 and ~ 30,000 kilometers across, respectively).
Scientists
at TU Darmstadt showed that the iron content controls the formation of a diamond - shaped
cellular structure that dominates the density and strength of the domain wall pinning sites and thus the coercivity, in other words the resistance the magnet puts up against demagnetization.
Inspired by natural
cellular structures, researchers
at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), the Wyss Institute for Biologically Inspired Engineering
at Harvard University, and MIT have developed a new method to 3D print materials with independently tunable macro-and microscale porosity using a ceramic foam ink.
«The
structure of kinesin - 5 is unexpected, and the implications are big — it allows us to target it, for example in various forms of cancer,» said Jawdat Al - Bassam, assistant professor of molecular and
cellular biology
at UC Davis, who led the project.
Scientists from The Scripps Research Institute (TSRI), working closely with researchers
at the National Institutes of Health (NIH), have mapped out the
structure of an important protein involved in
cellular function and nervous system development.
Scientists look
at the
structure, function, and evolution of genes (genomics), analyze the interactions with proteins these genes produce (proteomics), and systematically track the chemical traces of
cellular processes (metabolomics).
Bonhoeffer says these advances may be bringing scientists closer to the point
at which they can not only describe precisely how learning occurs
at the
cellular and molecular level, but also understand which are the
structures where knowledge is stored.
At Weizmann, Dr. Spiegel will be establishing his own independent research group which will attempt to identify the molecular and
cellular mechanisms through which experience alters the
structure and function of neural circuits in the brain in behaviorally relevant ways and to understand how these processes, when they go awry, might give rise to psychiatric disorders.
We use neuronal cultures, induced pluripotent stem (iPS) cells and transgenic and gene - targeted mouse models to study the differential effects of apoE3 and apoE4 on cell signaling pathways and cytoskelatal
structure and function
at molecular,
cellular and behavioral levels.
To this end, we design new multi-scale quantitative methods that can resolve the local dynamics of soluble proteins, dissect the architecture of
cellular structures, and characterize the mechanical properties and dynamics
at large scales.
Examples of investigations included in this category would involve the study of the
structure, physiology, development, and classification of animals, animal ecology, animal husbandry, entomology, ichthyology, ornithology, and herpetology, as well as the study of animals
at the
cellular and molecular level which would include cytology, histology, and
cellular physiology.
In his lecture, titled Seeing the invisible: Tissue
structure at the
cellular lever with MRI, Dr. Novikov will talk about using MRI to glimpse microstructures one thousand times smaller than one millimeter.
However, if the
cellular structure of a neuron and its synapse should be visualized
at the same time from two different plasmids this approach becomes problematic as it reduces the probability that neurons are transfected with both vectors.
Modern biophysics is a broad and rapidly advancing field encompassing the study of biological
structures with a focus on mechanisms
at the molecular,
cellular, and systems level using the concepts and methods of physics, chemistry, mathematics, engineering, and computational science.
The shapes of some of the tiniest
cellular structures are coming into sharper focus
at the Howard Hughes Medical Institute's Janelia Farm Research Campus, where scientists have developed a new...
Computational Algorithms and Tools (Bruce Aronow, Section Editor): This section focuses on the generation of databases, analysis tools, or large scale analyses carried out from new or established datasets that generate hypotheses into the
structure and function of physiological systems
at the sub
cellular or organismal level.
However, in the new study, when the researchers looked
at Sup35 surrounded by other
cellular proteins, they found that the intrinsically disordered region actually does take on a regular
structure, which they believe to be beta sheets.
In general, while we understand the benefits of looking
at food choices within a particular
structure, what we're really after here is to begin to fuel our bodies with the most nutrient - packed foods possible in order to provide our
cellular and large - scale organ systems the building blocks necessary to make them run optimally.