ATP Synthesis and Chemiosmosis
Damage in mitochondrial DNA will have the most effect on cellular respiration. This is due to the fact that the surface area will be damaged.
Mitochondria
The electron transport chain uses energetic electrons to pump protons into the mitochondrial intermembrane space. The chemiosmotic process involving ATP synthase makes ATPs by taking advantage of the tendency of the protons to return to the mitochondrial matrix.
The inner mitochondrial membrane contains enzymes known as ATP synthases.
The Mitochondrial Matrix Contains The Enzymes Needed To Catalyze The Reactions Of Krebs Cycle.
mitochondrial matrix
aerobic and anaerobic or cytoplasmic and mitochondrial
cristeaThey are the inner foldings.They increase the surface area
Mitochondrial energy is harvested from fermentation and cellular respiration. This breaks down the nutrients and turns them into glucose molecules and then to energy.
Damage in mitochondrial DNA will have the most effect on cellular respiration. This is due to the fact that the surface area will be damaged.
Mitochondria
- allow exit of low energy waste material example CO2 which leaves as a low energy metabolic waste of the cellular respiration process. - has numerous proteins and enzymes that play roles in the respiration process - the mitochondrial matrix is a protein rich liquid that fills the innermost space which again plays an important role.
In the inner mitochondrial membrane- Cristae.
Pyruvate dehydrogenase complex . . . mitochondrial matrix
The electron transport chain uses energetic electrons to pump protons into the mitochondrial intermembrane space. The chemiosmotic process involving ATP synthase makes ATPs by taking advantage of the tendency of the protons to return to the mitochondrial matrix.
The inner mitochondrial membrane contains enzymes known as ATP synthases.
It has three steps.Glycolisis is in cytoplasm.Kreb cycle in mitochondrial cristae.Electron transport chain in inner membrane of mitochondria.