All energy for muscle contraction comes from
molecules of adenosine triphosphate (ATP), in other words, adenosine triphosphate (ATP) must be present for a muscle fiber contraction.
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.
But, since it's similar to
the molecule of adenosine, caffeine can also get inside the adenosine receptors.
In order for this activation to take place, the enzyme methionine adenosyltransferase (MAT, also known as S - adenosyl methionine synthetase) breaks apart ATP to harvest from
it a molecule of adenosine and then activates methionine by sticking adenosine onto it.
Not exact matches
Morrison explains Kaivac's SystemSure Plus measures
adenosine triphosphate (ATP), which is an energy
molecule found in all animal, plant, bacterial, yeast and mold cells, all
of which should be significantly reduced after cleaning.
Mitochondria, specialized organelles found in nearly every cell
of the body, use cellular respiration to generate one
of the most important sources
of chemical energy —
adenosine triphosphate (ATP), a versatile nucleotide that powers everything from cell division to cell signaling to transportation
of large
molecules across the cell membrane.
Bound to the cell membrane, Na ± K+ATP ase uses the energy
of adenosine triphosphate (ATP)
molecules to pump sodium out
of the cell and potassium into the cell, maintaining a charge gradient that allows ions to flow through open channels.
Varghese and her team showed that they could control the differentiation
of human pluripotent stem cells into functional osteoblasts — bone - building cells — simply by adding the
molecule adenosine to their growth medium.
Researchers at the University
of California San Diego have discovered an easy and efficient way to coax human pluripotent stem cells to regenerate bone tissue — by feeding them
adenosine, a naturally occurring
molecule in the body.
Other researchers have shown that the ability
of microglia to engulf dead neurons depends on
adenosine triphosphate (ATP), a ubiquitous energy source and signalling
molecule that is released from damaged cells.
The difference in the concentration
of protons across these two environments enabled protons to flow into the cell, driving the production
of a
molecule called
adenosine triphosphate (ATP) which powered the growth
of cells, just as it does today.
The difference is that Keeling's parasites steal energy, in the form
of a
molecule called
adenosine triphosphate or ATP, from their hosts, but they possess the necessary genes to replicate DNA.
Previous research has described at least some
of the fundamental processes involved in healthy, on - going peripheral nerve growth regeneration, including the critical role
of mitochondria — cellular organelles that produce
adenosine triphosphate (ATP), the energy - carrying
molecule found in all cells that is vital to driving nerve recovery after injury.
I didn't groan at this idea unlike most other Star Wars fans — many
of whom were outraged by the perceived reduction
of the Force from a grand, almost magical power to a function
of biology — because I'm a biologist who studies bioenergetics: How organisms convert various
molecules (food) into chemical energy (
adenosine triphosphate or ATP, a compound that enables energy transfer between cells) that can be used to power life.
Extracellular
adenosine is a signaling
molecule known as an inhibitor
of immune functions.
Extracellular
adenosine is a signalling
molecule known as an inhibitor
of immune functions.
These bacteria are able to oxidize (remove electrons) compounds such as hydrogen sulfide and store energy in the form
of ATP (
adenosine triphosphate), which is the universal «energy»
molecule in all organisms, including humans.
Coenzyme Q10 is a potent antioxidant crucial in the production
of the
adenosine triphosphate (ATP)
molecule, which plays a pivotal role in energy transport within the cell.
Their main function is to transform the nutrients we consume into energy, and they do that through the production
of the ATP
molecule (
adenosine triphosphate).
The cells in our muscle tissue, like that
of the heart, get their energy from
adenosine triphosphate, a
molecule known as ATP.
* It's also involved in the production
of several key enzymes that are used to create
adenosine triphosphate, or ATP, a key energy storage
molecule.
Now
adenosine is a neurotransmitter and it's an inhibitory neurotransmitter and what that means is that it suppresses the level
of the activity
of the neurons that it interacts with so if we take the caffeine
molecule and we block the ability
of the
adenosine molecule to bind to the receptor, to the
adenosine receptor, we keep ourselves more alert, we keep
adenosine from binding.
When I think
of biochemicals and the cycles run in the body that are necessary to produce energy I think
of these four basic things: 1) ATP (
adenosine triphosphate)-- one main «energy»
molecule; 2) the citric acid (or Kreb's cycle); 3) the electron - transport chain; and 4) a process known as glycolysis.
In order for this required ATP energy to continue the Creatine phosphate is able to give up one
of its phosphate
molecules to form ADP (
adenosine - diphosphate).
Whenever the body uses energy, a
molecule called ATP (an
adenosine with a tail of three phosphate groups, hence its name Adenosine Tri Phosphate) is used as an energy source - as a fundamental ener
adenosine with a tail
of three phosphate groups, hence its name
Adenosine Tri Phosphate) is used as an energy source - as a fundamental ener
Adenosine Tri Phosphate) is used as an energy source - as a fundamental energy donor.
VO2 (or oxygen consumption) is a measure
of the volume
of oxygen that is used by your body to convert the energy from the food you eat into the energy
molecules, called
adenosine triphosphate (ATP), that your body uses at the cellular level.
It is found in all human cells where it is required to bind to and activate
adenosine triphosphate (ATP), the chief energy
molecule of cells.
Healthy Heart — «One - quarter cup
of pumpkin seeds contains nearly half
of the recommended daily amount
of magnesium, which participates in a wide range
of vitally important physiological functions, including the creation
of ATP (
adenosine triphosphate, the energy
molecules of your body), the synthesis
of RNA and DNA, the pumping
of your heart, proper bone and tooth formation, relaxation
of your blood vessels, and proper bowel function.
Eukaryotic cells use energy in the form
of a chemical
molecule called ATP (
adenosine triphosphate).
In a normal cell,
molecules called ATP (
adenosine triphosphate) provide the energy
of the cell.
For a cell to use ATP, it must first break it down into several smaller
molecules, and this process produces byproducts that are then «recycled» back into ATP to be used again, including one
of particular interest here:
adenosine diphosphate (ADP).
Magnesium even funnels more energy to your bodily cells, through enhancing the creation
of the
molecule adenosine triphosphate.
In particular, different stages
of food breakdown are designed to result in the production
of a special energy carrying
molecule called ATP (
adenosine triphosphate).
In the muscles, creatine appears as phosphocreatine, which is not incorporated into proteins, but it is involved in the synthesis
of the energy - storing
molecules adenosine triphosphate (ATP) and thus for providing energy to muscles [1].
In addition to its role in forming the mineral matrix
of bone, phosphorus is an essential component
of numerous other life - critical compounds including
adenosine triphosphate or ATP, the
molecule that is the energy currency
of the body.
This mechanism compresses the spring at the end
of the ATP
molecule when it puts a
molecule of inorganic, free phosphate on the end
of ADP (
adenosine diphosphate).