NAD+ is the first electron acceptor in cellular respiration (O2 is the final acceptor).
Glucose
co2
if it's in the Electron transport chain...then its the terminal electron acceptor
No, it is the other way round:The terminal electron acceptor in aerobic respiration is oxygen. Together with H+ ions water molecules are formed. O2 + 4 e- + 4 H+ ==> 2 H2O
Oxygen is necessary for the production of ATP, energy used by the cell in areas such as protein production and active transport. They are the final electron recipient in the ETC, using two H+ atoms to form H2O.
anaerobic cellular respiration has 3 different stages, and their final electron acceptors are: pyruvate oxidation- NAD+ Krebs cycle- NAD+, FAD+ electron transport chain- Oxygen
Aerobic respiration is the most efficient form of metabolic energy production because it uses oxygen as a terminal electron acceptor. By combining hydrogen from carbohydrates with oxygen the organism maximizes its ΔE0' meaning that the use of oxygen provides the most amount of energy in comparison with other terminal electron acceptors such as nitrate or iron.
In hunting, terminal energy is the force of impact by a projectile (bullet) with its target. In biology, a terminal electron acceptor is a compound that receives or accepts an electron during cellular respiration or photosynthesis.
Oxygen can be readily enters cells. They participate in a process called cellular respiration. It serves as the terminal electron acceptor in the electron transport system where the energy or ATP is produced.
if it's in the Electron transport chain...then its the terminal electron acceptor
No, it is the other way round:The terminal electron acceptor in aerobic respiration is oxygen. Together with H+ ions water molecules are formed. O2 + 4 e- + 4 H+ ==> 2 H2O
In aerobic respiration, the final electron acceptor is (usually) oxygen. Sometimes it can be sulfur or nitrogen in the absence of oxygen (as in extreme environments) in extremophiles.
Oxygen is necessary for the production of ATP, energy used by the cell in areas such as protein production and active transport. They are the final electron recipient in the ETC, using two H+ atoms to form H2O.
Yes. Aerobic respiration produces carbon dioxide and water. Also, oxygen is the terminal electron acceptor
anaerobic cellular respiration has 3 different stages, and their final electron acceptors are: pyruvate oxidation- NAD+ Krebs cycle- NAD+, FAD+ electron transport chain- Oxygen
At the completion of the glycolic process, pyruvic acid is produced. Some of the pyruvic acid ends up in the cell mitochondria where cellular respiration takes place. In the absence of oxygen, the pyruvic acid goes through a process of fermentation, which takes place in the cytoplasm of the cell.
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
Yes it is in aerobic environments
"Anaerobic respiration" doesn't require oxygen. True anaerobic respiration involves an electron acceptor other than oxygen. Bacteria are capable of using a wide variety of compounds as terminal electron acceptors in respiration: nitrogenous compounds (such as nitrates and nitrites), sulfur compounds (such as sulfates, sulfites, sulfur dioxide, and elemental sulfur), carbon dioxide, iron compounds, manganese compounds, cobalt compounds, and uranium compounds. "Anaerobic respiration" doesn't require oxygen. True anaerobic respiration involves an electron acceptor other than oxygen. Bacteria are capable of using a wide variety of compounds as terminal electron acceptors in respiration: nitrogenous compounds (such as nitrates and nitrites), sulfur compounds (such as sulfates, sulfites, sulfur dioxide, and elemental sulfur), carbon dioxide, iron compounds, manganese compounds, cobalt compounds, and uranium compounds.