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NAD can accept 2 protons from NADH, forming the reduced state: NADH2
NAD (neutral compound) added to H(+), a positively changed proton, gives you NADH(+)
NAD+ isn't oxidised, it can be reduced by H to form NADH
Electron transport chain
Because extra proton left over is not bonded to the NADH molecule. Only NADH goes on to the Electron Transfer Chain. Plue, NAD+ can only bond to one hydrogen.
NAD+ is reduced. It becomes NADH.
NAD+ is the oxidized and NADH is the reduced form.
No it cannot. NADH inhibits glycolysis, the Krebs Cycle and the electron transport chain. HIGH levels of NAD however does stimulate glycolysis but High levels of NADH and low levels of NAD does not stimulate glycolysis but rather inhibits it.
pyruvate because it results in NADH while lactate results in NAD+ (NADH > hydrogen atoms than NAD+ because NAD+ has been oxidized)
It will be NADH. An electron quarrier in the photosynthesis process.
NAD can accept 2 protons from NADH, forming the reduced state: NADH2
NAD (neutral compound) added to H(+), a positively changed proton, gives you NADH(+)
Nadh is the reduced form of Nad+. Nad+ acts as a oxidizing agent and can accept electrons in various chemical reactions in the cell.
How do you recycle NADH into NAD?
NAD+ isn't oxidised, it can be reduced by H to form NADH
NADH and ATP
NADH