The flax seed then becomes water - soluble and is able to be absorbed directly
into cell membranes when consumed.
Not exact matches
When calcium was administered directly
into the cytoplasm, however, the IgG - treated
cells exhibited normal exocytotic secretion, as assayed by
membrane capacitance measurement.
And as the
cell grows, the enzymes expand the
membrane as well;
when the
cell divides, enzymes push apart the
membrane and its contents
into two new
cells.
When tungsten carbide is incorporated
into the fuel
cell membrane, it humidifies the
membrane at a level that optimizes performance.
But
when cells undergo stress — anything from heat to starvation or infection — proteins and ribonucleic acid (RNA) molecules can clump
into stress granules, which are free of enclosing
membranes and often form small globs akin to hair gel suspended in a tub of water.
Previously, researchers have loaded red blood
cells with drugs by pushing the molecules through the
cell's
membrane into its interior, but the process weakens the
cell, and the molecules are released only
when the
cell reaches its final destination.
The pools swelled
when rain fell, but
when they evaporated, the organic molecules in them became more concentrated, forming films like
cell membranes, or joining
into longer chains like strands of RNA.
Even if they show comparable and even superior properties as
membrane, their performance can often not compete with PFSA ionomers
when incorporated
into fuel
cells.
This wasn't as fast as the researchers would have liked, but during these studies, they discovered that
when a
cell is squeezed through a narrow tube, small holes open in the
cell membrane, allowing nearby molecules to diffuse
into the
cell.
When fluid is pumped slowly across both sides of the
membrane, replicating the flow of liquid along the inside and outside of intestinal tissue in the body, the seeded
cells not only differentiate
into the four types found in the small intestine, but form tissue that spontaneously folds, develops villi, secretes mucus and even supports microbes commonly found in the small intestine.
When trans fats are incorporated
into cell membranes, they inhibit a wide range of biochemical reactions, such as enzymes and receptors.36
GABA receptors are spread out throughout the brain and they are ligand - activated chloride channels that
when activated, allow the negatively charged chloride ions across the
cell membrane and
into the
cell where they reduce cellular activity.
When incorporated
into the
cell membranes of the body, these omega - 3 and omega - 6 fatty acids function as precursors for eicosanoids that control a host of cellular functions and responses.
Free radicals are highly reactive molecules and
when they come
into contact with healthy
cell membranes, they cause damage to the
membrane and may ultimately cause the
cell to die.
When free radicals come
into contact with healthy
cell membranes, they cause damage to the
membrane and may ultimately cause the
cell to die.
«We now know that the melting points of these fats determine one of their important properties, that is their stickiness and flexibility
when they are incorporated
into the
cell membranes of bodily
cells.
What this means is that
when the
membrane is inflamed, the hormone can not communicate with the receptor and get its message
into the
cell where it needs to go for normal function.
When the inflammatory cascade is active,
cells use their cyclooxygenase enzymes to begin to convert fats from their
cell membranes into prostaglandins.
When an IgE antibody (even IgG can be involved) with an attached allergen encounters a mast
cell under the skin, it alters the
membrane of the
cell, and histamine leaks
into the surrounding tissue.