Energized electrons are carried by NADH and FADH2 from glycolysis and the citric acid cycle to electron acceptors embedded in the cristae of the mitochondrion.
As electrons are shuttled along a chain of electron-accepting molecules in the cristae, their energy is used to pump accompanying protons (H+) into the space between mitochondrial membranes. This produces energy stored in ATP.
The inner mitochondrial membrane contains enzymes known as ATP synthases.
This depends on whether you are a eukaryote, bacteria or archaea. In eukaryotes, the electron transport chain components are on the mitochondrial membrane.In bacteria and archaea, since there are no membrane-enclosed compartments, they are on the cellular membrane.
The primary role of oxygen in aerobic respiration is to be the last electron acceptor in the electron transport chain. This occurs at the mitochondrial inner membrane.
Respiration occurs in mitochondria (singular: mitochondrion)
First step is glycolisis.Takes place in cytoplasm.Kreb cycle in mitochondrial stroma.Electron transport chain in inner membrane.
The inner mitochondrial membrane contains enzymes known as ATP synthases.
In the inner mitochondrial membrane- Cristae.
It has three steps.Glycolisis is in cytoplasm.Kreb cycle in mitochondrial cristae.Electron transport chain in inner membrane of mitochondria.
mithochondrial matrix and thylakoid or... (apex answer---->)mitochondrial matrix and cristae :) <3 kymmie.. apex all the way :)
This depends on whether you are a eukaryote, bacteria or archaea. In eukaryotes, the electron transport chain components are on the mitochondrial membrane.In bacteria and archaea, since there are no membrane-enclosed compartments, they are on the cellular membrane.
The primary role of oxygen in aerobic respiration is to be the last electron acceptor in the electron transport chain. This occurs at the mitochondrial inner membrane.
First step is glycolisis.Takes place in cytoplasm.Kreb cycle in mitochondrial stroma.Electron transport chain in inner membrane.
Cytoplasm = GlycolysisMitochondrial Matrix = Citric Acid Cycle/ Krebs cycleInner Mitochondrial Membrane = Electron transport
Respiration occurs in mitochondria (singular: mitochondrion)
First step is glycolisis.Takes place in cytoplasm.Kreb cycle in mitochondrial stroma.Electron transport chain in inner membrane.
order of cellular respiration is 1st Glycolysis in cytoplasm, next either anaerobic or aerobic pathway. In anaerobic, its either Ethanol or Lactic acid fermentation. in aerobic next is kreb's cycle in mitochondrial matrix and finally electron transport chain on surface of inner mitochondrial membrane.
Aerobic respiration is the difference in H+ concentrations on opposite sides of the inner mitochondrial membrane. This is taught in science.