Sentences with phrase «cellular systems from»
One of these challenges is exposures to electromagnetic field and radiation exposures which may keep our cellular systems from functioning at their best.
http://www.geoengineeringwatch.org/ Not exact matches
Fat must be released from our body fat, transported through your system, to a cellular engine where it will be burned as a fuel.
To help make ideas about energy more concrete, for example, the new unit will use a variety of analogies from more familiar physical systems (e.g., combustion and charging a cellphone battery) to help students understand those same energy - releasing and energy - requiring chemical reactions and energy transfer when they occur in living organisms (e.g., cellular respiration, creating a charge across a membrane in mitochondria and nerve cells) where the reactions are more complex and difficult to observe.
Derived from Greek terms meaning «self - eating,» the autophagy system sends protein aggregates and malfunctioning cellular components into acidic compartments called lysosomes, where enzymes chew them up.
That's when University of Virginia neuroscientist Jonathan Kipnis and his team discovered a hidden core of vessels — a previously unknown sewage system for draining cellular waste from the brain into the lymph system at large.
The CRISPR system relies on cellular machinery that bacteria use to defend themselves from viral infection.
In an attempt to protect the body from the spreading virus, these immune cells then commit «cellular suicide,» leading to the collapse of the immune system — and AIDS.
The team's findings suggest that the egg's special cellular vesicles represent a new type of system that is a unique combination of three separate biological processes whose pathways may have diverged from their classic functions.
Rattan says that the cellular insults from exercise prompt the defense system to work more efficiently.
One of the jewels of Europe's electronics industry, the new all - digital cellular phone system GSM, may be blocked from export to other countries around the world by Britain's Department of Trade and Industry.
The researchers from the UC Davis Center for Mind and Brain, which studies cognitive brain mechanisms, and Center for Neuroscience, which studies molecular, cellular and system - level brain mechanisms, each brought specific expertise to the collaborative study.
From cellular telephony (HLRs, fraud detection, real time processing of CDRs), banking and finance (detecting fraudulent card payments and money laundering), business intelligence (real time data warehousing and scalable targeted advertising), safety (mitigation of denial - of - service attacks, processing systems security events), sensor networks (processing output of massive sensor networks) to domotics (smart buildings), to name but a few.
Neuroscience can range from studying psychology or behavior to investigating how the nervous system functions at a cellular or molecular level.
HFSP supports fields from «molecular and cellular approaches to biological functions to systems and cognitive neuroscience.»
By administering Zika virus directly into the reproductive tract of pregnant mice that have an intact immune system, the researchers found that the Zika virus appears to create disorganization in the cellular layers of the placenta that keep toxins, bacteria and viruses from crossing.
It disrupts a cellular process that cancer cells use to hide from the immune system and allows the immune system to recognize and attack the cancer.
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.
Together with her colleagues Margaret MacGibeny, an M.D. / Ph.D. student, then - postdoctoral researcher Ian Hogue, and Lynn Enquist, the lab's principal investigator and the Henry L. Hillman Professor in Molecular Biology, Koyuncu has used this unique latency model system to reveal specific cellular and viral components that can prevent the infection from going to sleep.
Dr. Sonntag studies this concept on the molecular and cellular level using a translational research approach that integrates the analysis of human material, such as postmortem brains, primary cell systems, and neural cell populations generated from patients» - or healthy individuals» - derived induced pluripotent stem cells (iPSC), or induced neurons (iNs), in combination with molecular, biochemistry, and lentivirus - mediated gene - engineering technologies.
The HFSP supports novel, innovative and interdisciplinary basic research focused on the complex mechanisms of living organisms; topics range from molecular and cellular approaches to systems and cognitive neuroscience and the interactions between organisms.
French scientists have learned how Listeria monocytogenes, which causes a major food - borne illness, commandeers cellular transport machinery to invade cells and hide from the body's immune system...
This small set of dynamic protein polymer systems underpins the establishment and remodelling of long range cellular order, cell polarity, shape and division, and plays a critical role in control of the dynamic organisation of the internal membrane - bound compartments that distinguish eukaryotes from their prokaryotic ancestors.
Understanding the underlying mechanisms allows identifying putative sites for pharmacological intervention and opens the prospect of engineering artificial molecular switches derived from the highly efficient systems that have evolved for cellular signal transduction.
In animal systems, pluripotency can be verified through direct means: pluripotent stem cells can be introduced into an developing embryo and thus the cellular developmental potential of any given in vitro preparation can be directly determined by observing the amount of chimaerism or viability of organisms partially or fully derived from in vitro stem cells.
The Keap1 - Nrf2 system has evolved to respond to intracellular oxidative stress; in particular the generation of reactive electrophiles produced from oxidation of endogenous cellular constituents as well as xenobiotics [2]--[4].
According to a release from Dr. Hassan Dihazi, editor in chief, the journal covers all areas of proteomics including basic proteomic research; structural, functional, property, and interaction analysis of cellular systems, organelles, and protein complexes; and protein expression profiling for the discovery and validation of diagnostic and prognostic disease biomarkers.
Established more than 50 years ago, BSRI, a research division of Blood Systems, has become a world - renowned institute engaged in research ranging from blood donor epidemiology to cellular therapy to virus discovery.
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.
One hypothesis is that complement factor H, part of the immune system, may help clear cellular debris from the back of the eye.
Our strong expertise allows us study lipid - protein interaction based phenomena at different scales, from the organ and cellular systems down to minimal synthetic systems in which we can control the proteins as well as the lipid, for instance to monitor the allosteric effects of specific lipids on fundamental receptors such as the EGF receptor (Coskun et al (2011) PNAS) and the insulin receptor.
Specifically, Dangl and his team investigate how the plant immune system discriminates between microbial friend and foe in a complex environment, using tools and techniques from genomic, structural, cellular, and molecular biology.
My research is framed within the Wellcome Trust consortium on the archaeal origins of eukaryotic cell organization (http://evocyt.com/), which includes a diverse group of researchers studying the evolution of eukaryotic machinery from different points of view — e.g. how do specific cellular systems work in different lineages, and how did that affect the origin of the eukaryotic cell plan?
The cellular basis of locomotion, steering, and posture is now understood in this biological model system, and the basic design appears conserved from cyclostomes to primates.
Certain particle compounds may directly generate ROS in vivo because of their surface chemistry (eg, metals, organic compounds, and semiquinones) or after bioactivation by cytochrome P450 systems (eg, polycyclic aromatic hydrocarbon conversion to quinones).6, 290 a, 290 b A particle surface or anions present on otherwise more inert particles may disrupt iron homeostasis in the lung and thereby also generate ROS via Fenton reactions.291 Other PM constituents may do so indirectly by the upregulation of endogenous cellular sources (eg, nicotinamide adenine dinucleotide phosphate [NADPH]-RRB- oxidase) 292,293 or by perturbing organelle function (eg, mitochondria) by taken - up PM components.261 Particle stimulation of irritant and afferent ANS fibers may also play a role in local and systemic oxidative stress formation.294 Given the rich antioxidant defenses in the lung fluid, secondarily generated oxidization products of endogenous molecules (eg, oxidized phospholipids, proteins) or a reduction in endogenous antioxidants per se may be responsible at least in part for the state of oxidative stress in the lungs (along with instigating the subsequent cellular responses) rather than ROS derived directly from PM and its constituents.
Lymph is a highly underrated circulatory system within the body and it is responsible for detoxifying waste from the skin on a cellular level, in addition to its many, many other functions.
Eliminates toxins and other unusable substances from the body - Organs of the digestive system that are particularly important to detoxification are the liver and gallbladder (cleanses and purifies blood) and intestines (provides a barrier from the rest of the body and has good bacteria which aid in detoxification) D. Urinary System - kidneys filter the blood to remove cellular waste (some water and bile pigments) E. Skin - sweat glands act like a second kidney; sweating is a very effective way to help remove toxins from thesystem that are particularly important to detoxification are the liver and gallbladder (cleanses and purifies blood) and intestines (provides a barrier from the rest of the body and has good bacteria which aid in detoxification) D. Urinary System - kidneys filter the blood to remove cellular waste (some water and bile pigments) E. Skin - sweat glands act like a second kidney; sweating is a very effective way to help remove toxins from theSystem - kidneys filter the blood to remove cellular waste (some water and bile pigments) E. Skin - sweat glands act like a second kidney; sweating is a very effective way to help remove toxins from the body.
It is the most powerful antioxidant in the body and helps protect cells from free radical damage and oxidative stress, thereby improving cellular health and strengthening the immune system.
Consisting of vessels, spleen, thymus, and fluid - filled lymph nodes, the lymphatic system plays an integral role in absorbing excess fats and fluids, fighting infection by addressing toxins that are introduced to the body from both external means (food, air, personal care products, environmental pollution, and water) as well as internal ones (damaged proteins and cellular / metabolic waste), making it a crucial detoxification pathway.
The complex lymphatic system acts as the body's drainage system, a sewage system for cellular metabolic toxins, filtering and removing waste by products from the body.
In contrast to the alactic anaerobic energy system, which uses ATP stored from previous cellular respiration in combination with a PCr phosphate buffer, the lactic anaerobic energy system must directly recruit the active cellular respiration process to provide ATP energy.
DHA is responsible for keeping the system from degenerating by giving it the raw materials to continue its dynamic process of cellular turnover.
The pre-eminent curiosity that I retain regarding health practitioners is that specialists in nutrition on occasion appear to not possess the adequate level of biochemical grounding to explain the vital processes happening at the cellular level during fasting and through manipulation of eicosanoids (fatty acids), conversely from my personal experiences, experts in biochemistry don't apply their vast knowledge of these complex physiological systems to basic fundamentals of nutrition in a sensible, practical sense.
Aside from directly impacting your immune function, another explanation for why poor sleep can have such varied detrimental effects on your health is that your circadian system «drives» the rhythms of biological activity at the cellular level.
Natural vital energy comes primarily from a healthy kidney / adrenal system, as well as from cellular mitochondria — the tiny «engines» within cells that power up numerous vital functions in the body.
Over time, it removes harmful toxins and energies from the system on a deep cellular level, and helps release emotional triggers that perpetuate the behavior.
«A «deficiency» of polyunsaturated fatty acids leads to altered rates of cellular regeneration and differentiation, a larger brain at birth, improved function of the immune system, decreased inflammation, decreased mortality from endotoxin poisoining, lower susceptibility to lipid peroxidation, increased basal metabolic rate and respiration, increased thyroid function, later puberty and decreases other signs of estrogen dominance.
Vitamin B Blend in Super HD is made from Vitamin B12 for supporting blood formation and cellular metabolism, Pyridoxal -5-Phosphate for supporting bodily functions like muscle repair and metabolism, and Niacinamide for supporting the nervous system and joint health.
CCII's properties can suppress pro-inflammatory activity to reduce joint discomfort and restore cartilage health.1 CCII from chicken sternal cartilage was shown to reduce chronic joint inflammation by helping to regulate humoral and cellular immune systems.
Vitamin C protects the immune system, lungs and other systems throughout the body from cellular damage that leads to illnesses such as cancer or cardiovascular disease.
One of my favorite tools to support the mind and body is essential oils, as I discussed in this blog, they can benefit physical and emotional balance in many ways, from cellular health to nervous and immune system support.