Want this question answered?
Muscle cells do not directly use maltose as an energy source. Maltose is a disaccharide composed of two glucose molecules linked together. Muscle cells break down maltose into its constituent glucose molecules with the help of the enzyme maltase. These glucose molecules are then used by muscle cells for energy production through processes like glycolysis and cellular respiration.
The ending product of anaerobic respiration in muscle cells is lactic acid.
The cardiovascular system delivers nutrients such as glucose from the digestive system to muscle cells providing them with a source of energy for respiration in the muscle cells.
no
Respiration
They use glucose to release energy using respiration.
Muscle cells do not directly use maltose as an energy source. Maltose is a disaccharide composed of two glucose molecules linked together. Muscle cells break down maltose into its constituent glucose molecules with the help of the enzyme maltase. These glucose molecules are then used by muscle cells for energy production through processes like glycolysis and cellular respiration.
through these bunchy things that come out of the lungs. they are then carried around the body to the muscles.
fermentation occurs in the absence of oxygen (anaerobic respiration). in muscle cells, when the blood supply is inadequate, anaerobic respiration takes place and the glucose is converted into lactic acid in the absence of oxygen :)
During gentle or moderate exercise, the products of cellular respiration of glucose are carbon dioxide and water (CO2 + H2O), just as in other cells.But if the exercise is vigorous, the muscle cells can switch to anaerobic cellular respiration (fermentation), in which case they convert each molecule of glucose into two of lactic acid.Later, most of the lactic acid is converted back to glucose.
The ending product of anaerobic respiration in muscle cells is lactic acid.
glucose
The cardiovascular system delivers nutrients such as glucose from the digestive system to muscle cells providing them with a source of energy for respiration in the muscle cells.
cellular respiration is preformed when the cells need to obtain energy from glucose.
Respiration They use stomata.
The mitochondria allows cells to perform cellular respiration.
Glucose is also converted to energy in muscle cells. When it comes to producing energy from glucose, muscle cells are, well, double-jointed