This question refers to anaerobic respiration. It is specifically known as the Cori, or lactic acid cycle which produces ATP between the muscle and liver.
By anaerobic process. Will convert pyruvate to lactate as a side product by lactate dehydrogenase enzyme.
By glycolysis and substrate level phosphorylation .
anaerobic respiration
Anaerobic Respiration
Glycolysis
Glycolysis does not require oxygen to produce ATP, making it an anaerobic process. It can supply energy to cells in the absence of oxygen by converting glucose into pyruvate and then further metabolizing it into ATP through fermentation. This allows cells to continue generating energy when oxygen is limited or unavailable.
Glycolysis does not depend on oxygen. It is the anaerobic part of cellular respiration and can produce 2 molecules of ATP without oxygen.
Yes, all the cells in our body have to produce its own ATP energy. ATP cannot be stored in the cell. ATP can also not be transported from one cell to another.
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This process is called cellular respiration. During cellular respiration, organisms break down glucose with the help of oxygen to produce ATP, the energy currency of cells. This process occurs in the mitochondria of cells.
Oxygen. Cells can produce much more ATP from glucose in the presence of Oxygen (aerobic respiration) than without oxygen (anaerobic respiration) in a process called oxidative phosphorylation that occurs in the mitochondria of cells. In the presence of oxygen one glucose can be broken down to produce 36 ATP Without oxygen, only 4 ATP can be made
your body needs oxygen to produce ATP (energy) and without your cells cannot function and then you would die
Cells require oxygen for the process of cellular respiration, which generates energy in the form of ATP. Without oxygen, cells are unable to produce ATP efficiently, leading to cell death. Oxygen is also essential for maintaining the balance of reactive oxygen species in cells, and their absence can lead to oxidative stress and cell damage.
Breathing supplies oxygen to our cells, which is needed for the process of cellular respiration where energy (in the form of ATP) is produced. This process involves breaking down glucose with oxygen to generate ATP, the energy currency of the cell. Without oxygen, our cells cannot efficiently produce ATP, and energy production would be limited.
Produce ATP
Carbohydrates can produce ATP without oxygen through a process called glycolysis. In this process, glucose is broken down into pyruvate, generating a small amount of ATP.
Oxygen is not necessary for the production of all ATP in cells. ATP can be produced through anaerobic processes like glycolysis which do not require oxygen. However, aerobic respiration, which does require oxygen, is a more efficient way to produce ATP.
More ATP is produced during cellular respiration using oxygen than without oxygen.
Organs need oxygen to produce energy through the process of cellular respiration. Oxygen is used to convert glucose into ATP, the energy currency of cells. Without oxygen, cells cannot efficiently generate enough energy to carry out their functions.
Humans require a constant supply of oxygen for cellular respiration, a process where cells break down glucose to produce energy. Oxygen is needed to help convert glucose into usable energy molecules called ATP. Without oxygen, cells would not be able to generate enough ATP to sustain life.
Cells use oxygen to release energy during cellular respiration, specifically in the final stage called the electron transport chain. Oxygen is the final electron acceptor in this process, allowing for the production of ATP, which is the cell's main source of energy. Without oxygen, cells cannot efficiently produce ATP through aerobic respiration.
Animals need a continuous supply of oxygen because it obtains energy from their food. To acquire such energy from food, cells in animals require a steady supply of ATP in order to function. To produce this ATP, cellular respiration requires oxygen. Without ATP, cells and the organism will die so therefore, animals need a continuous supply of oxygen to survive.