it lose a hydrogen ion and one electron
NAD gains energy during cellular respiration by accepting high-energy electrons released during the breakdown of glucose. These electrons are transferred to NAD+ and converted into NADH, which can then participate in the electron transport chain to generate ATP, the cell's primary energy source.
NAD is reduced during cellular respiration.
NAD is reduced to NADH during cellular respiration.
Yes, NAD is reduced to NADH during cellular respiration.
Yes, NADH is oxidized to NAD during cellular respiration.
Nicotinamide adenine dinucleotide or NAD+.
NAD+, (or nicotinamide adenine dinucleotide)
NAD+
NADH is a reduced form of NAD and carries electrons during cellular respiration to produce energy. NAD acts as an electron carrier in metabolic reactions, accepting electrons to become NADH.
NAD plus
NADH is a reduced form of NAD, meaning it has gained electrons and is used in energy production during cellular respiration. NAD, on the other hand, acts as a coenzyme in various metabolic reactions, accepting and donating electrons to facilitate energy transfer.
NAD+ is a substrate in redox reactions because it serves as a coenzyme that accepts and donates electrons during cellular respiration to facilitate energy production.