The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
The folds of the inner mitochondrial membrane are called cristae, which increase the surface area for the electron transport chain and ATP production. Mitochondria ruffles are not a commonly recognized term in mitochondrial biology.
The inner membrane folds of the mitochondria, called cristae, increase the surface area available for oxidative phosphorylation, the process that produces ATP. This allows for more efficient production of ATP by providing more space for electron transport chain proteins and ATP synthase enzymes.
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
Cristae
The space on the very inside of the mitochondria past the cristae (folds in the inner membrane) is called the mitochondrial matrix.
The outer membrane is smooth, while the inner membrane is convoluted into folds called cristae in order to increase the surface area
The inner folds of the mitochondria membrane are called cristae. These structures increase the surface area of the inner membrane, allowing for more space for the electron transport chain and ATP synthesis to occur.
The folds of the inner mitochondrial membrane are called cristae, which increase the surface area for the electron transport chain and ATP production. Mitochondria ruffles are not a commonly recognized term in mitochondrial biology.
The inner membrane folds of the mitochondria, called cristae, increase the surface area available for oxidative phosphorylation, the process that produces ATP. This allows for more efficient production of ATP by providing more space for electron transport chain proteins and ATP synthase enzymes.
The area enclosed by the highly folded inner mitochondrial membrane is known as the cristae. These folds increase the surface area of the inner membrane, allowing for more space for proteins and enzymes involved in energy production through oxidative phosphorylation. The highly folded structure of the cristae enhances the efficiency of ATP production within the mitochondria.
The outer membrane is smooth, while the inner membrane is convoluted into folds called cristae in order to increase the surface area
The mitochondrial structure affects its function because in its inner membrane, the cristae (folds) allow for more surface area which increases the amount of ATP that can be produced by the mitochondria.