This protein is responsible for transporting glucose (a simple sugar) from the blood
into the cells for energy.
Once released, insulin works to facilitate the movement of sugar
into cells for energy.
This is because insulin is responsible for actually taking sugar from the blood and transporting
it into the cells for energy.
Insulin is the hormone made by the pancreas that helps shuttle glucose
into cells for energy use and converts excess glucose into fat; it is essential for metabolizing carbohydrates.
GLUT are specialized protein structures and they transport glucose — blood sugar —
into cells for energy or for storage as fat.
As blood sugar levels rise, insulin is released from the pancreas to shove that sugar
into your cells for energy.
When blood sugar levels become too high, insulin levels rise in order to carry glucose
into the cells for energy production.
It helps regenerate beta cells in the pancreas, which secrete insulin in order to take up sugar
into the cells for energy.
It releases its own wave of insulin, charged with sweeping that sugar
into cells for energy production.
Not exact matches
Your body processes the nutrients found in apples
into adenosine triphosphate, or ATP, which is fuel
for your
cells, and they use it
for everything that requires
energy in your body.
The goal was to build what are known as high - efficiency solar panels that feature premium
cells that can convert sunlight
into energy at a materially higher percentage and at a cost on par with what SolarCity had been paying to Chinese manufacturers
for more standard - efficiency solar panels.
The medium - chain fatty acids are sent to your liver
for energy instead of
into your
cells for storage, which is perfect
for a detox when less food is being consumed.
Loosing weight is a very important
for diabetics, because fat
cells reduce your body's ability to move sugar
into cells and use it as
energy.
Without going
into a complicated biology lesson (which I probably would not be prepared to teach), let's simply think of what our digestive system does
for us: it breaks food down
into smaller pieces so that our body can use this nourishment to build new
cells and give us
energy.
Whenever a sweet substance touches the tongue, our brains senses that this is food and it is time
for our body to produce insulin to take that food and bring it
into our
cells for the use of
energy.
The popular brew is filled with compounds called catechins that blast belly flab by triggering the release of fat from fat
cells, then speeding the liver's capacity
for turning that fat
into energy.
Yeast extract gives us lots of health benefits to our healthy lifestyle such as: rich source of B vitamins, B vitamins are all involved in the metabolism of carbohydrates, fats and proteins
into usable
energy, but some are also important
for digestion, immunity and red blood
cell production within bone marrow.
Insulin is secreted by the pancreas, and is responsible
for carrying sugar
into the
cells of the body where it can be used
for energy.
Insulin instructs
cells to use the extra glucose
for energy or turn it
into fat.
Beth Levine at the University of Texas in Dallas discovered that, in mice, autophagy — the process by which a
cell recycles dispensable components
for extra
energy — increases 30 minutes
into exercise.
Now, Salk researchers have discovered how the molecule ERRγ gives this «healthier» brown fat its
energy - expending identity, making those
cells ready to warm you up when you step
into the cold, and potentially offering a new therapeutic target
for diseases related to obesity.
Insulin - like growth factor promotes
cell division and growth, while insulin shunts fuel consumed either
into immediate
energy use or
into storage
for a later time.
The stress this places on
cells leads to the overproduction of glucose, which when not used
for energy transforms
into lactic acid, which is difficult
for the body to flush out.
Clinical studies reveal that all that extra sugar gets stuffed
into the fat
cells our ancestors used to store
energy for times of hunger.
It's believed that in type 1 diabetes, the body's immune system destroys the pancreatic beta
cells responsible
for making insulin, a hormone the body needs to convert food
into energy.
In his search
for solar
cells, dubbed the Clean
Energy Project, Aspuru - Guzik is screening molecules for a host of properties involved in converting sunlight into electrical e
Energy Project, Aspuru - Guzik is screening molecules
for a host of properties involved in converting sunlight
into electrical
energyenergy.
Because the amount of ROS present in
cells is tightly regulated by iron - dependent processes in the mitochondria (the cellular compartments in which
energy is generated), the researchers had proposed iron import
into the mitochondria to be essential
for this process.
The goal is to provide the materials that will allow organic photovoltaic
cells to turn more than 10 % of the solar
energy that hits them
into electricity, compared with about 9 %
for the best materials today.
Plants are the world's best solar
cells, effortlessly converting sunlight
into the
energy needed
for growth.
Incorporated directly
into a
cell phone housing, the team's nanogenerator could harvest and convert vibration
energy from a surface, such as the passenger seat of a moving vehicle,
into power
for the phone.
Nitrogen - doped carbon nanotubes or modified graphene nanoribbons may be suitable replacements
for platinum
for fast oxygen reduction, the key reaction in fuel
cells that transform chemical
energy into electricity, according to Rice University researchers.
Both sexes had high levels of enzymes that suppress pyruvate dehydrogenase (PDH), an enzyme vital
for moving carbohydrates
into a
cell's mitochondria to generate
energy (Journal of Clinical Investigation, doi.org/bzmn).
Researchers have identified the protein that carries copper
into mitochondria, where copper is required
for the functioning of the
cell's
energy conversion machinery.
Without insulin, there is no way to shuttle sugar out of the blood and
into cells, where it is used
for energy.
«In type 2 diabetes, glucose does not enter the
cells and increased levels of insulin, resulting from an overburdened pancreas, do nothing to facilitate glucose entry
into cells for producing
energy,» Martins - Green said.
If Lsd1 is inhibited in mice, the animals»
cells take up more glucose, their capacities to convert glucose
into energy increases, and they use less fatty acid,
for example.
One of the most promising ideas
for storing renewable
energy is to use the excess electricity generated from renewables to split water
into oxygen and hydrogen; the hydrogen can then be fed
into fuel -
cell vehicles.
It will focus on catalyst development
for four applications: proton exchange membrane fuel
cells to convert stored
energy in non-fossil fuels
into electricity; electrolysers
for splitting water
into oxygen and hydrogen — a potential clean fuel
cell source; syngas, a mixture of CO and H2, which is generated from coal, gas and biomass, and widely used as a key intermediate in the chemical industry; and lithium - air batteries.
The Advanced Research Projects Agency -
Energy (ARPA - E) is funding research
into solid - state materials
for improved batteries and fuel
cells.
Researchers at the Fraunhofer Institute
for Solar
Energy Systems ISE together with the company EV Group (EVG) have developed a new silicon - based multi-junction solar
cell, which can convert exactly one - third of the incident sunlight
into useful electricity.
The pancreas makes a hormone called insulin that processes glucose, moving it from the bloodstream
into the body's
cells where it is used
for energy.
This work is part of a newly funded U.S. Department of
Energy / Department of Agriculture project led by the University of Missouri, Columbia to explore the biology of a single plant
cell type, while gaining novel insight
into the impacts of temperature and water availability on a crucial root
cell necessary
for nutrient uptake.
Mitochondria are the tiny compartments inside
cells that convert glucose in the
cell into molecules of adenosine triphosphate (ATP), which serve as units of
energy for fueling the various workings of the
cell.
Yes, nanotechnology is becoming ubiquitous in our daily lives and has found its way
into many commercial products,
for example, strong, lightweight materials
for better fuel economy; targeted drug delivery
for safer and more effective cancer treatments; clean, accessible drinking water around the world; superfast computers with vast amounts of storage; self - cleaning surfaces; wearable health monitors; more efficient solar panels; safer food through packaging and monitoring; regrowth of skin, bone, and nerve
cells for better medical outcomes; smart windows that lighten or darken to conserve
energy; and nanotechnology - enabled concrete that dries more quickly and has sensors to detect stress or corrosion at the nanoscale in roads, bridges, and buildings.
While cautioning that the new radiation delivery system is still far from ready
for use in people, Abraham notes that P32 gives off high
energy that can penetrate through 5 millimeters of human tissue, making it a good candidate to tackle colon cancer since colon cancer
cells can often form large, thick tumors
into which drugs may not penetrate very well.
It is responsible
for maintenance of good health and helping in the process of transforming food
into energy by transporting fatty acids
into the mitochondria — the
cell's power engine.
As we already know, starch is a complex carbohydrate in the form of many small molecules that are attached to each other in large chains, which get broken down
into smaller ones once they are digested
for the purpose of meeting the
energy needs of all
cells in our bodies.
Carnitine is responsible
for moving triglycerides
into the mitochondria of the
cells, where they get broken down to be used as
energy.
Important
for a healthy metabolism and
energy levels, helps with carbohydrate to
energy conversion, needed to transform nutrients
into ATP, which is used
for energy by every
cell.
The theory is that this diet, helped along the way with some intermittent fasting, can put the body
into a state of ketosis where it burns fat
for energy, while starving cancer
cells of their beloved glucose.