The delta G value in the hydrolysis of ATP indicates the amount of energy released or required during the reaction. This value is important because it determines whether the hydrolysis of ATP is energetically favorable or not. If the delta G value is negative, it means that the reaction releases energy and is spontaneous, which is crucial for cellular processes that require energy.
The folds in the inner membrane of the mitochondria are called cristae. They serve to provide a greater surface area for the proton-pump through which protons pass down their concentration gradient through ATP synthase to produce ATP in cellular respiration.
Yes, ATP synthase is an enzyme that plays a key role in the production of ATP in cells.
ADP is made by ATP when one of three peptide bonds of ATP are broken down.
The net gain of ATP molecules at the end of glycolysis is 2 ATP molecules. While 2 ATP molecules are consumed in the initial steps, a total of 4 ATP molecules are produced, resulting in a net gain of 2 ATP molecules.
The delta G value in the hydrolysis of ATP indicates the amount of energy released or required during the reaction. This value is important because it determines whether the hydrolysis of ATP is energetically favorable or not. If the delta G value is negative, it means that the reaction releases energy and is spontaneous, which is crucial for cellular processes that require energy.
During fermentation, pyruvate is converted to lactate as a way to regenerate NAD+ from NADH, which is necessary to sustain glycolysis. This conversion allows glycolysis to continue in the absence of oxygen, providing cells with a way to generate ATP for energy production.
The old ATP tally differs from the new ATP tally by about 2 ATP.
ATP is known as Adenosine TriPhosphate. Hence the abbreviation ATP. ATP is produced by the ribosome in a cell. ATP is energy for the cell.
The folds in the inner membrane of the mitochondria are called cristae. They serve to provide a greater surface area for the proton-pump through which protons pass down their concentration gradient through ATP synthase to produce ATP in cellular respiration.
NADH is important in cellular respiration because it carries high-energy electrons that are used to generate ATP, the cell's main energy source. During the process of cellular respiration, NADH donates these electrons to the electron transport chain, which then uses them to create a proton gradient that drives the production of ATP through a process called oxidative phosphorylation. In essence, NADH helps convert the energy stored in food molecules into ATP, which is essential for various cellular functions.
ATP is a product.Respiration is a process.Respiration produces ATP.
No, ATP is hydrophilic
ATP
ATP or adenosine triphosphate, is involved in energy transfer.
ATPase is an enzyme that hydrolyzes ATP to ADP and inorganic phosphate, releasing energy in the process. ATP synthase is an enzyme that uses the energy released from a proton gradient to catalyze the formation of ATP from ADP and inorganic phosphate. In essence, ATPase breaks down ATP, while ATP synthase synthesizes ATP.
total 38 atp but 2 atp used in glycolysis net profit is 36 atp