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Why must NADH be regenerated back to NAD+ at the end of fermentation?

Why must NADH be regenerated back to NAD+ at the end of fermentation?

In the process of fermentation the NADH + H+ from glycolysis will be recycled back to NAD+ so that glycolysis can continue. In the process of glycolysis, NAD+ is reduced to form NADH + H+. If NAD+ is not present, glycolysis will not be able to continue. Fermentation does not require oxygen and is therefore anaerobic.

Why do cells need to regenerate NAD+?

The oxidation of glucose via glycolysis is one such pathway. Put differently, during glycolysis, cells can generate large amounts of NADH and slowly exhaust their supplies of NAD+. If glycolysis is to continue, the cell must find a way to regenerate NAD+, either by synthesis or by some form of recycling.

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How is NAD+ regenerated in anaerobic respiration why does it need to be regenerated?

In both aerobic and anaerobic metabolism, NADH must be converted back to its oxidized state, NAD, or the cell will eventually run out of this coenzyme. Under aerobic conditions, NAD is regenerated when the electrons from NADH molecules are shuttled into the mitochondria and the electron transport chain.

How is NAD regenerated in anaerobic respiration?

During glycolysis, one glucose molecule is converted to two pyruvate molecules, producing two net ATP and two NADH. During NADH regeneration, the two NADH donate electrons and hydrogen atoms to the two pyruvate molecules, producing two lactate molecules and regenerating NAD+.

Why must the NADH produced in glycolysis be oxidized to NAD+ and thus be recycled?

Why is it important to recycle NADH produced during glycolysis to NAD+? Cells contain a limited supply of NAD+ and NADH. Unless this NADH is recycled to NAD+, oxidative metabolism in this cell will cease for lack of an electron acceptor.

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What is the fate of the NAD+ newly regenerated by fermentation?

What is the fate of the NAD+ newly regenerated by fermentation? It is oxidized into carbon dioxide.

Why is NAD+ needed in glycolysis?

NAD+ is an oxidizing coenzyme that accepts electrons and protons from other molecules, creating the reduced form NADH. Glycolysis requires two molecules of NAD+ per glucose molecule, producing two NADHs as well as two hydrogen ions and two molecules of water.

What is the role of NAD in anaerobic respiration?

Nicotinamide adenine dinucleotide (NAD) is a coenzyme which functions as an electron carrier in oxidation-reduction (redox) reactions of cells. NADH can donate two electrons and a H+ to yet another molecule, thereby becoming oxidized again.

Why do NAD+ and FAD not appear in the overall equation?

Why do NAD+ and FAD NOT appear in the overall equation? The NAD+ and FAD are initially reduced then oxidized to their original state, so they do not appear in the net equation. Glucose and CO2 are the electron carriers in this pathway.