The mitochondria (pyruvate oxidation, Krebs cycle, electron transport chain) and the cytosol (glycolysis).
mitochondria
In eukaryotic cells respiration occurs in the mitochondria. The reactions of the Krebs cycle occur within the liquid matrix of a mitochondrion. The carrier molecules of the electron transport chain lie on the inside of the inner membrane of a mitochondrion. Cristae increase the surface area of this membrane, increasing the rate of oxidation-reduction reactions. Hope this answers your question.
The rate of aerobic respiration in the mitochondria is dependent on the surface area of the cristae because energy potential is built up through the pumping of hydrogen ions across the membrane. With more membrane surface area, there is more energy production and storage capacity so the rate of aerobic respiration may increase.
The inner folds of a mitochondria are called the cristae. The cristae is folded in order to maximize the space within the mitochondria in order to increase surface area. By doing so, aerobic respiration requires less ATP to function, and thus, makes the process more efficient
The organelle that produces ATP, the energy currency of the cell, is the mitochondrion. It carries out cellular respiration, a process that converts glucose and oxygen into ATP through a series of chemical reactions. Mitochondria are found in eukaryotic cells and have an inner membrane with folded structures called cristae, which provide a large surface area for ATP production through oxidative phosphorylation.
A mitochondria is an organelle found in eukaryotic cells. It is shaped similar to a curved bean. The inside membrane is extremly folded. These folds are called cristea and give the mitochonria a large surface area allowing for efficient cellular respiration to occur. The mitochonria's purpose is to carry out cellular respiration. Cellular respiration uses glucose made during photosynthesis to create glycogen. The glycogen will release energy when it is broken down. The energy is in the form of ATP.
In eukaryotic cells respiration occurs in the mitochondria. The reactions of the Krebs cycle occur within the liquid matrix of a mitochondrion. The carrier molecules of the electron transport chain lie on the inside of the inner membrane of a mitochondrion. Cristae increase the surface area of this membrane, increasing the rate of oxidation-reduction reactions. Hope this answers your question.
The rate of aerobic respiration in the mitochondria is dependent on the surface area of the cristae because energy potential is built up through the pumping of hydrogen ions across the membrane. With more membrane surface area, there is more energy production and storage capacity so the rate of aerobic respiration may increase.
The aerobic phase of cellular respiration.
Mitochondria are composed of two membranes. the inner membrane forms many folds called cristae, which provide a large surface area where chemical reactions take place. the number of mitochondria present in different cells is related to the rate of energy usage by the cell.
The inner folds of a mitochondria are called the cristae. The cristae is folded in order to maximize the space within the mitochondria in order to increase surface area. By doing so, aerobic respiration requires less ATP to function, and thus, makes the process more efficient
The function of the mitochondria in a plant cell is to support the function of the cell and the structure. The mitochondria usually has a membrane which has folds that are stretched to provide a wider surface area for cellular activities.
The organelle that produces ATP, the energy currency of the cell, is the mitochondrion. It carries out cellular respiration, a process that converts glucose and oxygen into ATP through a series of chemical reactions. Mitochondria are found in eukaryotic cells and have an inner membrane with folded structures called cristae, which provide a large surface area for ATP production through oxidative phosphorylation.
A mitochondria is an organelle found in eukaryotic cells. It is shaped similar to a curved bean. The inside membrane is extremly folded. These folds are called cristea and give the mitochonria a large surface area allowing for efficient cellular respiration to occur. The mitochonria's purpose is to carry out cellular respiration. Cellular respiration uses glucose made during photosynthesis to create glycogen. The glycogen will release energy when it is broken down. The energy is in the form of ATP.
The cytoplasm or the nucleus in eukaryotic cells
It produces a lot more energy than simple fermentation. On the down side it requires oxygen which isn't always there. There is a complete breakdown of glucose during this process.
The inner membrane is highly folded to provide a large surface area for aerobic respiration to take place, The inner membrane is fooled inwards to form cristae The fluid inside the inner membrane is the ,atria Also it a double membrane bound organelle
The mitochondrion.