ATP is considered as the energy currency of cell or life. It store high energy needed to carry out bodily process such as metabolism of biomolecules, synthesis of proteins, lipids, carbohydrates., muscle contraction, transport of molecules across the cell membrane and so on. ATP is presenting in nucleus and cytoplasm of every single cell.
The energy in glucose (Cellular respiration) is used to produce ATP
By the process of respiration. In this process, glucose is oxidised to carbon dioxide and water (aerobic) and ATP is produced. (ATP is the energy currency of cells)
The first stage in cellular respiration (releasing the energy from glucose) is known as glycolysis. This is a 10 step process. In many bacteria this is the only step that is down to release energy from glucose. The products of this step are two pyruvate and 4 ATP although 2 ATP are also used in this step, so in terms of net production 2 ATP are the result.
glucose. it is broken in the cytoplasm
Glucose is broken down in the first stage of respiration- glycolysis where it is phosphorylated by a molecule of ATP to form 1-6 glucose phosphate. It is then isomerised ti
ATP
Glucose is the energy source for the body. But it cannot use it in that form, so it converts it to ATP for use in metabolism.
ATP (energy) is generated in your cells through cellular metabolism. Specifically the conversion of Glucose into ATP.
During glucose metabolism, the energy from glucose is stored in the form of ATP (adenosine triphosphate). ATP is a molecule that acts as an energy currency in cells. When energy is needed, ATP is broken down, releasing energy that can be used for various cellular processes such as muscle contraction or active transport.
Butterflies, in most cases, get their glucose for ATP formation from flowers.
glycolosis in cells produces ATP
Yes, but it is not available as easily as fructose. Glucose is present in all living cells as the source of energy to produce ATP for metabolism.
Oxidative metabolism, in the words of my Biology professor, is the use of oxygen, release of carbon dioxide, and most ATP formation in the metabolic pathway.
In aerobic metabolism, a molecule of glucose is broken down in a series of enzymatic reactions within the mitochondria to produce ATP (energy), carbon dioxide, and water. This process is more efficient and produces a higher yield of ATP compared to anaerobic metabolism.
Glucose metabolism: Glucose + Oxygen → Carbon dioxide + Water + Energy C6H12O6 + 6 O2 → 6 CO2 + 6 H2O + Energy (34-38 ATP + heat)So, the answer is mostly likely CO2 because ATP is useful, and therefore not a waste product, even though it is a product.
The aerobic cellular respiration pathway generates 36 ATP from a single glucose molecule. This process involves glycolysis, the citric acid cycle, and oxidative phosphorylation in the mitochondria to produce ATP through the electron transport chain.
When oxygen supplies cannot be kept up and the oxidative metabolism cannot produce all the ATP required, there is a switch to processes that break down glucose and glycogen to lactic acid which diffuses into the blood stream. Creatine phosphate is a substance that aids in the formation of ATP rapidly. Creatine phosphate + ADP <>ATP + creatine