NAD+
The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps. The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps.
NADP+
Molecular Oxygen, otherwise known as O2.
FADS and NADS Pick up, temporarily store and safely eat out while the mitochondria energy does electronsconnect to onlit the electron transport chain.I didn't want to change someone's answer, but according to biology-online.org,Both are enzymes; NAD acts as an electron and hydrogen carriers in some oxidation-reduction reactions. FAD is a hydrogen acceptor molecule in the Krebs Cycle.See below:Nicotinamide adenine dinucleotide --> nad(Science: enzyme) coenzymes that act as electron and hydrogen carriers in some oxidation-reduction reactions.Fad(Science: biochemistry) a riboflavin-containing hydrogen Acceptor molecule in the Krebs Cycle of plant respiration and a coenzyme of some oxidation-reduction enzymes.
NAD is a coenzyme.Its role is as a hydrogen acceptor when it is involved in the oxidation of glucose (cell respiration). Is is written as NAD+, and after accepting hydrogen it becomes the reduced form, NADH.NADH in turn acts as a hydrogen donor when it becomes oxidized to reform NAD+.
No, oxygen is the final electron acceptor of the electron transport chain.
The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps. The final hydrogen acceptor in the electron transport chain is Oxygen. It comes from the ionization of water. Hope this helps.
Oxygen is the final electron acceptor of the electron transfer chain. Hydrogen ( protons ) come down their concentration gradient and through the ATP sythase making ATP. Then they, with the electrons oxygen accepts, become H2O.
Hydrogen ions are pumped across the mitochondria's inner membrane producing a concentration gradient
NAD+ carries hydrogen and, more importantly, an electron during glycolysis.
False. Oxygen serves as the final electron acceptor of the electron transport chain.
ATP
No. Hydrogen's electronegativity is too weak. At 2.5 hydrogen does not have the electronegativity to pull electrons down the electron transport chain.
oxygen
False
NAD+
NADP+