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The citric acid cycle turns 3 NAD+ to NADH, one FAD to FADH2 one ADP + P to ATP, and it also creates two CO2 molecules.
Krebs cycle (aka citric acid cycle, aka tricarboxylic acid cycle)
Because it goes around and around as in a unicycle wheel.
The conguate base of citric acid - citrate - is an important intermediate in the cycle. This is where the name "Citric Acid Cycle" comes from. It is also known as the Tricarboxylic Acid Cycle - as it involves 3 carbon acids, or the Krebs Cycle after Hans Adolf Krebs - who developed the complexities of the cycle.
The Krebs cycle is also referred to as the citric acid cycle. Its reactants are pyruvate, NAD+, FAD, acetyl CoA and ADP.
In the Krebs Cycle also known as the Citric Acid Cycle\ FDH2, Reduced form of Flavin adenosine dinucleotide, is an electron donor-acceptor molecules that can transfer the energy (bond) from one molecule to the next, and you are most likely to find it in oxidative phosphorylation process (these are the process where oxygen is the final electron acceptor to form ATP). in the metabolism of fat and glucose FADH2 is produce during Beta oxidation and in the citric acid cycle general mechanism: Fatty acid C16 + FAD^+ ====> Fatty acid C14 + acetyl-Coa +FADH2 Succinate + FAD^+ ====> Fumarate + FADH2
The net inputs for citric acid cycle are Acetyl CoA, NADH, and ADP. The Net outputs for the citric acid cycle are ATP, NAD, and carbon dioxide.
The net inputs for citric acid cycle are Acetyl CoA, NADH, and ADP. The Net outputs for the citric acid cycle are ATP, NAD, and carbon dioxide.
C6 cycle, Citric/Citric Acid cycle
they run out of NAD and FAD;NAD+ and FAD, which are recycled by electron transport, are limited)
Citric acid cycle occurs in the inner matrix of the mitochondria.
There are 4: oxaloacetate, malate, fumarate, and succinate.