Substances that make up the metabolic pool are transported to individual cells by the bloodstream. They pass through cell membranes and enter the cell interior. Once inside a cell, a compound undergoes further metabolism, usually in a series of chemical reactions. For example, a sugar molecule is broken down inside a cell into carbon dioxide and water, with the release of energy. But that process does not occur in a single step. Instead, it takes about two dozen separate chemical reactions to convert the sugar molecule to its final products.
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The sugar that is burned in the cell to produce energy is glucose. Glucose has energy stored in it's chemical bonds and is used in cellular respiration.
mitochondria
CO2, H2O and energy.
Chloroplasts in plant cells use the energy in light to produce sugar.
Yes, both are necessary for the cell to produce energy to function.
The sugar that is burned in the cell to produce energy is glucose. Glucose has energy stored in it's chemical bonds and is used in cellular respiration.
Mitochondria
mitochondria
CO2, H2O and energy.
mitochondria
Chloroplasts in plant cells use the energy in light to produce sugar.
Yes, both are necessary for the cell to produce energy to function.
sugar broken down in the mitochondria
The midochondiron produce energy for the cell
Cellular respiration is the process by which food is broken down by the body's cells to produce energy in the form of ATP molecules. Cells use ATP to supply their energy needs. In plants, some of this ATP energy is used during photosynthesis to produce sugar. These sugars are in turn broken down during cellular respiration, continuing the cycle.
A chemical reaction that happens in every cell to break down sugar
The midochondiron produce energy for the cell