In the inner membranes of mitochondria, an organelle with thousands of electron transport chains.
The mitochondria makes the energy in the cells. ~Jessica.Songbird
Provide a large surface area for the electron transport chain and the ATP synthase which are all located in these folds of the inner membrane.
The P site if memory serves me.
Thylakoids are the site of light-dependent reactions of photosynthesis. They're electron carriers.
osseous tissue
The electron transport chain in the mitochondrion is the site of oxidative phosphorylation in eukaryotes. Easy huh?
Plants, fungi, and animals are all eukaryotes and possess mitochondria, which is the site of the electron transport chain. Prokaryotes have no mitochondria and perform the electron transport chain across their cell membranes. Electron transport chain also occurs in thylakoid membrane of chloroplasts.
The cytoplasm, where glycolsis takes places then to the mitochondria where both the Krebs Cycle and the Electron Transport Chain occur!
In aerobic respiration, electron transport occurs inside the mitochondria. In photosynthesis, electron transport occurs inside the chloroplasts.
Electron Transport The point of the kreb's cycle is to create energy. The energy made is in the form of ATP (Adenosinetriphosphate) which the body uses immediatley or is in the form of electrons carried by NADH or FADH2. These then go on to the electron transport chain where more molecules of ATP are created.
According to another answer to a similar question here on this site, "The intermembrane space has the lowest pH, highest concentration of H+, due to the gradient created by the electron transport chain."
mitochondrial inner membrane (cristae)
The site of aerobic respiration is in the mitochondria of the cell. The three stages of aerobic respiration are glycolysis, kerb Cycle, and electron transport chain.
substrate level phosphorylation does not involve (electron transport chain), oxidative phosphorylation does. Substrate level phosphorylation involves the direct transfer of phosphate from a phosphate bearing molecule to ADP, thus yielding ATP. In cellular respiration, oxidative phosphorylation requires a protein, ATP synthase, to channel energy provided by a concentration of H ions; this energy results in the combining of phosphate with ADP.
During the electron transport chain, which is the site of oxidative phosphorylation. This involves the transfer of electrons from donors to acceptors (such as oxygen). This is a very efficient process for the production of ATP (the form of energy used by cells).
It is used to transport hydrogen to the electron transport chain.
The mitochondria makes the energy in the cells. ~Jessica.Songbird