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
It is to carry out electron transport chain. The last step of respiration
The space on the very inside of the mitochondria past the cristae (folds in the inner membrane) is called the mitochondrial matrix.
mitochondria have an inner and outer membrane.theinne membranehas many twists and folds(called cristae),which increase the surface area available to proteins.
it is the internal compound formed by the inner membrane of a mitochondria. It is studded with protiens including ATP synthesis and a variety of cytochrome's
The inner membrane in the mitochondria has many folds called cristae. The advantage of the cristae is that they increase the surface area of the membrane on which oxygen and carbohydrates combine to form ATP.
It is to carry out electron transport chain. The last step of respiration
Folds increase surface area.So respiration take place efficiently.
The inner membrane folds in a mitochondrion are called cristae.
The space on the very inside of the mitochondria past the cristae (folds in the inner membrane) is called the mitochondrial matrix.
The space on the very inside of the mitochondria past the cristae (folds in the inner membrane) is called the mitochondrial matrix.
The inner membrane folds in a mitochondrion are called cristae.
mitochondria have an inner and outer membrane.theinne membranehas many twists and folds(called cristae),which increase the surface area available to proteins.
it is the internal compound formed by the inner membrane of a mitochondria. It is studded with protiens including ATP synthesis and a variety of cytochrome's
Such organelles are called mitochondria.
The inner membrane in the mitochondria has many folds called cristae. The advantage of the cristae is that they increase the surface area of the membrane on which oxygen and carbohydrates combine to form ATP.
The inner surface of mitochondria is thrown into folds called cristae which increase the surface area to a great extent.
The inner membrane of the mitochondria has numerous folds called cristae. These folds are where ATP is synthesized, and the folds provide a relatively large surface area where ATP synthesis occurs. The cristaee does enclose a liquid-filled region known as the inner compartment, or matrix, containing many enzymes that are used in the process of aerobic respiration.