Where does oxidative phosphorylation happen in the eukaryotic cell?
atp is synthesized in the cytoplasm during oxidative phosphorylation. It is a reaction that involves transferring the high-energy electrons from NADH or NADPH to oxygen, which is why it is called oxidative phosphorylation. During oxidative phosphorylation, the chemical energy is stored in the high-energy bonds of ADP. Thus, oxidative phosphorylation is a method of storing chemical energy in the form of ATP, which is the primary source of energy for most living things.
Where does oxidative phosphorylation happen in eukaryotic cell?
The oxidative phosphorylation (OXPHOS) process takes place in the inner mitochondrial membrane, where the energy generated by nutrients is used to produce adenosine triphosphate (ATP). This process generates a proton gradient (or membrane potential), which is then used to create an electrical current.
Where does oxidative phosphorylation occur in eukaryotic cells?
In the respiratory cells of the human body, oxidative phosphorylation occurs in two organelles: the mitochondria and the chloroplasts. The mitochondrial organelles are the primary sites of this process in animal cells, while chloroplasts are the primary sites in plants. In both cases, oxidative phosphorylation is an essential and complex process. It produces adenosine triphosphate (ATP), a chemical that is the primary source of energy for all cell functions. The process
Where does oxidative phosphorylation occur in cells?
The mitochondrion is the powerhouse of the cell. It is responsible for generating the energy that our cells need to live. In order to produce energy, the mitochondrion uses oxidative phosphorylation. This is a reaction that converts the chemical energy stored in food into a form of energy that a cell can use. Water, oxygen, and the chemical ATP are the products of this reaction.
Where do oxidative phosphorylation happen in eukary
In the eukaryotic cell, oxidative phosphorylation happens in the mitochondria, the cell’s power plants. These organelles contain the inner membrane, which surrounds the other structures of the mitochondrion. In addition to the inner membrane, the mitochondrial matrix has a number of enzymes that make up the respiratory chain, which is responsible for the transfer of electrons down a chemical gradient. The gradient is created by pumping protons through the inner membrane, creating an electrochemical potential.