0
What else can I help you with?
What are the ribbonlike folds on the inner lining of the mitochondrial membrane call?
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
What are the ribbonlike folds on the inner lining of the mitochondrial membrane called?
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
What is the advantage of having a folder inner membrane in the 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.
What is the ribbonlike folds on the inner lining of the mitchondrial membrane called?
The ribbonlike folds on the inner lining of the mitochondrial membrane are called cristae. These folds increase the surface area of the inner membrane, which is crucial for the electron transport chain and ATP production during cellular respiration. The cristae play a vital role in the efficiency of energy production within the mitochondria.
What are the parts of a mitochondrion?
A mitochondrion consists of an outer membrane, an inner membrane, cristae (folds in the inner membrane), a matrix (fluid-filled space inside the inner membrane), and ribosomes and DNA for protein synthesis within the matrix.
What are the ribbonlike folds on the inner lining of the mitochondrial membrane call?
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
What are the ribbonlike folds on the inner lining of the mitochondrial membrane called?
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
What are the folded inner membranes inside mitochondria?
The inner membrane folds in a mitochondrion are called cristae.
What is the advantage of having a folder inner membrane in the 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.
Why is inner mitochondrial membrane folded?
The outer membrane is smooth, while the inner membrane is convoluted into folds called cristae in order to increase the surface area
What is the space inside the folds of the inner mitochondrial membranes?
The space on the very inside of the mitochondria past the cristae (folds in the inner membrane) is called the mitochondrial matrix.
What are the inner folds of the mitochondria membrane called?
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.
What are the parts of a mitochondrion?
A mitochondrion consists of an outer membrane, an inner membrane, cristae (folds in the inner membrane), a matrix (fluid-filled space inside the inner membrane), and ribosomes and DNA for protein synthesis within the matrix.
What are the ribbonlike folds on the inner lining of the mitochondrial called?
The ribbon-like folds on the inner lining of the mitochondrial membrane are called cristae.
What is the structure of a mitochondrion?
The mitochondria is the powerhouse of the cell. It has two membranes. The outer membrane covers the organelle and contains it. The inner membrane folds over many times. This folding increases the surface are inside the organelle.
The folds of the inner membrane of the mitrochondria where cellular respiration occurs are called?
The folds of the inner membrane of the mitochondria where cellular respiration occurs are called cristae. These cristae provide a larger surface area for the electron transport chain and ATP synthase, which are essential for the production of energy in the form of ATP.
Are within the inner membrane of the mitochondria and increase its ability to create ATP. Nuclei?
No. The inner membrane contains many folds called cristae, which increase the surface area inside the organelle. The cristae increase the efficiency of the chemical reactions, allowing the mitochondria to create more ATP.
