Another Toyota researcher, Taiyo Kawai, general manager - fuel -
cell system development, estimates the crossover point for battery - electric and fuel - cell vehicles is a driving range of about 90 miles (144 km) and expects the two powerplants to co-exist.
Not exact matches
The United Nations
Development Programme (UNDP) is planning a pilot project to test a
system that allows individuals to invest in solar energy - generating
cells and effectively receive rent from consumers that use the hardware.
Our home
cell system is a funtional structure which has helped with building stronger relationships and works well among the yout who are highly relational at this stage of their human
development, but I still feel we are missing it somewhere.
Prior to the
development of a fully functioning nervous
system, and the activation of said
system, a human embryo is «alive» in the same sense a tumor is «alive»: the individual
cells that make it up are alive, but there is no higher - level functionality.
All three varieties are fortified with 12 essential vitamins and minerals to support healthy
development, including Vitamins A, C, and D, plus Zinc, which helps brain and body
cells to develop and grow, Iron, which helps deliver oxygen to the brain and body, and Vitamin B12, which can help support the nervous
system and brain function.
According to a team of researchers led by Dr. Michael Julius, a specific protein in breast milk, CD14, helps jump start an infant's immune
system and develop essential B
cells, which are instrumental in the
development of antibodies.
Their first visit was to CytoCybernetics, where CEO Glenna Bett explained how her company has developed a
system that uses computers and live human
cells to screen drugs in their early stages of
development, to determine whether they may cause any potentially deadly side effects.
And a new analysis of the STEP trial, published last November in Proceedings of the National Academy of Sciences USA, provides a warning that the very vectors (adenoviruses, which are also employed in other vaccine
development work) used to distribute the inactive HIV strains can actually make the immune
system more vulnerable to infection by recruiting susceptible T
cells to mucous membranes, where they are more likely to be infected during sexual activity.
BOX 17, A-15-7; 30219216 / 734999 SAPA, c. 1973 Defining Operationally / Electric Circuits and Their Parts, Dennis Reading Tests - Activity of Rats, Hebeisen Reading Exercise - Observation and Inference, Hebeisen Guinea Pigs Run the Maze, Hebeisen Reading Exercise - Onservation and Inference, Hebeisen Interpreting Data - Identifying Materials, Capie Interpreting Data - Identifying Materials, Capie Observations and Hypotheses, Conductors and Nonconductors, Schwartz Interpreting Field of Vision, Hebeisen Punch Card Sets, Capie Reading Test - Feeding Squirrels, Hebeisen Reading Test - Effect of Environment on
Development of the Eye, Menhusen Six - Legged Wonders, Troyer Measuring K - Angles, Livermore Detergent and Seed Germination, Troyer Upward Movement of Liquid, Capie Interpreting Data - Things Look Bigger (
Cells) Defining Operationally - Growth, Menhusen Communicating - Force and Acceleration Rotations and Linear Spped, Mayor Predictions in Various Physical
Systems, mayor (2 Folders) Big «M» Game Interpreting Data - Nutrition, Menhusen Game - What's Up?
«Chronic inflammation of the intestine is thought to be caused by abnormal interactions between gut microbes, intestinal epithelial
cells and the immune
system, but so far it has been impossible to determine how each of these factors contribute to the
development of intestinal bowel disease,» said Hyun Jung Kim, Ph.D., former Wyss Technology Development Fellow and first author on the study, speaking about the limitations of conventional in vitro and animal models of bacterial overgrowth and inflammation of the
development of intestinal bowel disease,» said Hyun Jung Kim, Ph.D., former Wyss Technology
Development Fellow and first author on the study, speaking about the limitations of conventional in vitro and animal models of bacterial overgrowth and inflammation of the
Development Fellow and first author on the study, speaking about the limitations of conventional in vitro and animal models of bacterial overgrowth and inflammation of the intestines.
He and his colleagues discovered many of the key molecules and signaling
systems that guide nerve
cells to make connections during
development of the nervous
system.
We believe that they will also lead to the
development of a whole new range of therapies for neurodegenerative diseases of the central nervous
system,» explains corresponding author of the study Jihwan Song, professor and director of Neural Regeneration and Therapy Group at the CHA Stem
Cell Institute of CHA University.
New
developments include reaction
systems for catalysis research, sampling from reactors,
systems for high - throughput applications in synthesis, the handling of microorganisms or
cell - culturing procedures, and more.
Hartgerink is a pioneer in the
development of self - assembling multidomain peptide (MDP) hydrogels, which mimic the body's extracellular matrix to encourage the growth of
cells and vascular
systems for tissue repair.
EMD Serono, Kirschbaum says, «focuses on the
development of targeted cancer therapies on three therapeutic platforms: targeting the tumor
cell, the tumor environment, and the immune
system.»
These elements are crucial for a healthy immune
system,
cell development, hemoglobin production and brain function.
During embryonic
development of mice, however, the situation is different: To build up the
system, all mature blood and immune
cells develop much more rapidly and almost completely from stem
cells.
genes, the team has shown that B. theta helps guide the normal
development and functioning of the intestines — including the growth of blood vessels, the proper turnover of epithelial
cells, and the marshaling of components of the immune
system needed to keep less well behaved bacteria at bay.
To investigate this further, the research team led by Dr. Ali Önder Yildirim, Dr. Gerrit John - Schuster and Prof. Dr. Oliver Eickelberg at the CPC studied the influence of
cells of the immune
system on the
development of COPD.
The mouse model could also contribute to the further
development of immunotherapies — a method in which the body's immune
system is stimulated, so that it intensifies its fight against tumor
cells.
Prof. Mandelboim and his research collaborators found that the NKp46 receptor present on Natural Killer or NK
cells (an essential part of the immune
system) play a critical role in the
development of the disease in mice.
The study included 124 newly diagnosed patients at 25 clinical trial sites in the U.S. Two - thirds of the patients were treated with ICT - 107, an experimental vaccine based on immune
system cells called dendritic
cells that were exposed to six synthetic proteins, or antigens, known to be involved in GBM
development.
And a new analysis of the stopped STEP trial, published online Monday in Proceedings in the National Academy of Sciences, provides a warning that the very vectors (adenoviruses, which are also employed in other vaccine
development) used to distribute the inactive HIV strains can actually prime the immune
system to be infected by recruiting susceptible T
cells to mucous membranes, where they are more likely to be infected during sexual activity.
Today the brain's serotonin
system is already a known target for the treatment of depression, and according to researchers it should be possible to use time signals in pharmaceutical
development based on stem
cells.
«Scientists discover stem
cells that build a fly's nervous
system: Study in fruit flies sheds light on key aspect of
development; findings could build understanding of comparable
system in people.»
This is a video of rotating view of neural precursor
cell tracks obtained from the
cell lineage reconstruction of early Drosophila embryonic nervous
system development.
Dr. Batrakova's group investigates the
development of personalized drug delivery
systems, including using living
cells or exosomes released from these
cells that are loaded with therapeutics.
He and his colleagues, including Janelia postdoc Fernando Amat, Janelia group leader Kristin Branson and former Janelia lab head Eugene Myers, who is now at the Max Plank Institute of Molecular
Cell Biology and Genetics, have used the methodto reconstruct cell lineage during development of the early nervous system in a fruit
Cell Biology and Genetics, have used the methodto reconstruct
cell lineage during development of the early nervous system in a fruit
cell lineage during
development of the early nervous
system in a fruit fly.
Since then, Ohsumi and others have shown that autophagy plays a crucial role in embryo
development,
cell differentiation, and the immune
system.
Areas covered range from basic studies into the biology of innate and adaptive immunity (immune
cell development and differentiation, immunogenomics,
systems immunology, structural immunology, antigen presentation, immunometabolism, and mucosal immunology) to immune contributions to health and disease (host defense, inflammation, cancer immunology, autoimmunity, allergy, transplantation, and immunodeficiency).
This discovery lays the groundwork for a better understanding of the role progenitor
cells can play in immune
system response and could lead to the
development of more effective therapies for a wide range of diseases.
On the contrary, short - chain fatty acids, first and foremost propionic acid (or its salt propionate), lead to the
development and propagation of regulatory
cells of the immune
system in the intestinal wall.
Today, Cold Spring Harbor Laboratory (CSHL) and The Lustgarten Foundation jointly announce the
development of a new model
system to grow both normal and cancerous pancreatic
cells in the laboratory.
On the contrary, short - chain fatty acids promote the
development and propagation of regulatory
cells in the immune
system.
Manuel Eguren has analysed the biological consequences of Cdh1 elimination in rapidly dividing
cells, as part of his doctoral research project in Malumbres's group; he focused on progenitors from the nervous
system during embryonic
development in mice.
«We studied how the Sox2 gene is turned on in mice, and found the region of the genome that is needed to turn the gene on in embryonic stem
cells,» said Professor Jennifer Mitchell of U of T's Department of
Cell and
Systems Biology, lead invesigator of a study published in the December 15 issue of Genes &
Development.
The researchers hope their new paper encourages others to pursue TPV improvements — including fabrication of TPV
cells on reusable substrates — that could lead to
development of real - world
systems at costs competitive with fossil fuels.
During fetal
development, the nervous
system is segregated into several regions of
cells.
Now a $ 60 billion market for the biotechnology and pharmaceutical sectors, growth of the market has been hampered by high
development costs of producing these in animal
cell systems, which when factoring in a long period for manufacturing, R&D and clinical trials, may reach around $ 1 billion per each therapeutic candidate.
To peel away at the intricate layers that govern the
development of neurons, a research team led by Chaolin Zhang, PhD, Assistant Professor in
Systems Biology and Biochemistry and Molecular Biophysics and Hynek Wichterle, PhD, Associate Professor in Pathology &
Cell Biology, Neuroscience, and Neurology, at the Center for Motor Neuron Biology and Disease, Columbia University Medical Center, focuses on a level of molecular regulation called alternative splicing.
The nerve
cells of the central nervous
system (CNS), which is composed of the spinal cord, the brain, and the retina, must be supplied with sufficient oxygen and nutrients through the blood vessel
system during
development and their subsequent function.
The scientists at Leiden University Medical Center (LUMC) have shown that immune
system cells, which react to gluten, produce chemicals called cytokines that can contribute to the
development of a rare form of lymphoma (cancer of the white blood
cells).
«Synthetic biology is a new area that's really exciting to young scientists — to have things begin to work in this way is a sort of validation of the field,» says Pamela Silver, a professor of
systems biology at Harvard University Medical School and co-author of a study demonstrating one of the first synthetic restructurings of a eukaryotic
cell that is described in the journal Genes &
Development.
These experimental
systems allow scientists to dissect key molecular pathways that specify
cell fate decisions in embryonic
development,» said team leader Lin He, a UC Berkeley associate professor of molecular and
cell biology.
As DNA damage is often one of the early steps in the
development of cancer, the detection of micronuclei by cGAS could therefore be an important early alarm
system allowing the human body to detect and remove potentially cancerous
cells.
«Studies on embryonic
development greatly benefit from the culture
system of embryonic stem
cells and, more recently, induced pluripotent stem
cells.
The authors illustrate the power of their approach using 20 distinct biological
systems ranging from single - molecule binding kinetics to
cell migration and division, immunology, and embryonic
development.
Researchers at the University of California, Berkeley, in collaboration with scientists at the Gladstone Institutes, have developed a template for growing beating cardiac tissue from stem
cells, creating a
system that could serve as a model for early heart
development and a drug - screening tool to make pregnancies safer.
Professor Robert Sinclair illustrates one of his examples of a biological
system (the fruit fly eye) which exhibits tendencies towards both deterministic and stochastic
development, where the number of
cells is uniform, but the way in which they determine which type of light they are sensitive to appears to be random.
This
cell death bore the hallmarks of apoptosis, a controlled
cell suicide that is needed for the normal
development of an embryo, and to ensure that our immune
system contains the correct array of
cells.