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Input: Glucose, 2 ATP, 2 Acetyl CoA, NAD+ Output: 2 NADPH, 4 ATP, 2 Pyruvate
Glycolysis requires glucose, adenosine diphosphate, phosphate, and NAD+.
G: Glucose + 2 NAD+ + 2 ADP + 2 Pi → 2 NADH + 2 pyruvate + 2 ATP + 2 H2O + 2 H+ input = Glucose, NAD+, ATP => also (+) coenzyme A? output = Pyruvate, NADH, net ATP => Acetyl CoA + CO2 + more NADH Kreb's Cycle: Input = Acetyl CoA, NADH, ATP Output = CO2, ATP, NADH, FADH2 ETC: Input = H+, O2, NADH, FADH2 Output = H2O and ATP, NAD+
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Net inputs: glucose, ADP, NAD+ Net outputs: Pyruvate, NADH, ATP
The citric acid cycle does not directly utilize oxygen, however it is still necessary in order for it to proceed. The reason for this is that in order for NADH to be reduced back into NAD+, oxygen must be present. If NAD+ is not regenerated, the cycle can't proceed, thus fermentation evolved. This is correct except for that NADH must be oxidized to NAD+, not reduced. Reduction of NAD+ results in NAHD + H+
NADH ( Google that to get full name )
NAD+ is an important example of an electron acceptor that functions in glycolysis.
A mountain is any natural elevation of the earth surface nad is bigger than a hill.
How do you recycle NADH into NAD?
NAD+ is a CO-enzyme.
NAD+ is reduced. It becomes NADH.