Whether that glucose comes from carbohydrates, from protein via gluconeogenesis, or from glycerol (a byproduct of fatty acid metabolism), excess amounts in the blood stream that aren't immediately used are
transported by insulin to muscle and liver cells and get converted to glycogen.
Not exact matches
In the pancreas, pancreatic beta cells produce
insulin, the hormone that provides fuel to the body's cells
by transporting glucose.
The chemicals may contribute to diabetes
by altering
insulin production, disrupting related genes or changing glucose
transport or fat metabolism, according to scientists.
By sopping up other amino acids from the blood, however,
insulin reduces the tryptophan's competition; the
transport system is no longer tied up and more tryptophan can cross the blood — brain barrier.
Both glucose
transport and glycogen synthesis are stimulated
by insulin, and defects in both processes have been postulated to take part in the development of
insulin resistance in type 2 diabetic subjects in vivo.
Acute
insulin stimulation increased glucose
transport by 21 % in control cultures precultured at 1 pmol / l
insulin, but at higher
insulin concentrations we could not detect an effect of
insulin on glucose uptake.
On the other hand, increased levels of
insulin after your workout will help the anabolic process
by transporting glycogen to your muscle cells.
Insulin comes to the rescue
by transporting this sugar (blood glucose) into the cells to be used as energy.
Your body uses
insulin to
transport blood sugar (glucose) out of the bloodstream to be either utilized
by muscle as energy or stored as fat.
This signifies other mechanism
by which hGH can be released,
insulin pathway, that is maintenance of low glucose levels, and effective glucose transfer and
transport throughout the body, and if possible tying fasting, or intermittent fasting.
This also means that a detox diet can help reduce email the risk of diabetes
by directly lowering the amount of
insulin needed to
transport sugar into your cells.
Insulin works
by transporting sugar into your cells.
Insulin facilitates the
transport of glucose from the blood to the cell
by binding to receptors on the cell membrane.
Insulin increases net muscle protein
by increasing amino acid
transport into the muscle cell,
by increasing protein synthesis and
by reducing protein breakdown.
Required to
transport glucose from the blood into the cells, chromium helps maintain glucose levels
by enhancing
insulin activity.
Stimulating
insulin release
by consuming high amounts of sugar has been shown to enhance the
transport and uptake of of creatine into the muscle tissue.
Engagement of the
Insulin - sensitive Pathway in the Stimulation of Glucose
Transport by Alpha - lipoic Acid in 3T3 - L1 Adipocytes Diabetologia 2000 (Mar); 43 (3): 294 — 303 These results indicate that R (+) alpha - lipoic acid directly activates lipid, tyrosine and serine / threonine kinases in target cells, which could lead to the stimulation of glucose uptake induced
by this natural cofactor.
Insulin is a hormone that is released
by the pancreas to clear and
transport sugars (carbohydrates) from the blood and into cells.
Insulin promotes the efficient storage and use of glucose molecules
by controlling their
transport across cell membranes, permitting cellular uptake and metabolism of glucose.