Respiration: Difference between revisions
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#[[Glycolysis|Glycolysis]]: Where one [[Glucose|glucose]] molecule, is transformed to two [[Pyruvate|pyruvate]] molecules, and four [[ATP|ATP]] molecules. | #[[Glycolysis|Glycolysis]]: Where one [[Glucose|glucose]] molecule, is transformed to two [[Pyruvate|pyruvate]] molecules, and four [[ATP|ATP]] molecules. | ||
#Link Reaction: One pyruvate molecule is changed to one [[Acetyl-CoA|acetyl-CoA]] molecule. | #Link Reaction: One [[pyruvate|pyruvate]] molecule is changed to one [[Acetyl-CoA|acetyl-CoA]] molecule. | ||
#[[Krebs cycle|Krebs Cycle]]: Also called the [[Krebs cycle|TCA]] ([[Tricarboxylic acid|tricarboxylic acid]]) Cycle, occurs twice for one glucose molecule (because each glucose molecule is split into two pyruvates which produce one Acetyl- CoA each) producing: 2 ATP molecules, six [[NADH|NADH]] molecules, two [[FADH2|FADH<sub>2</sub>]] Molecules and four [[Carbon dioxide|CO<sub>2</sub>]] molecules | #[[Krebs cycle|Krebs Cycle]]: Also called the [[Krebs cycle|TCA]] ([[Tricarboxylic acid|tricarboxylic acid]]) Cycle, occurs twice for one glucose molecule (because each glucose molecule is split into two pyruvates which produce one [[Acetyl-CoA|Acetyl-CoA]] each) producing: 2 ATP molecules, six [[NADH|NADH]] molecules, two [[FADH2|FADH<sub>2</sub>]] Molecules and four [[Carbon dioxide|CO<sub>2</sub>]] molecules | ||
#[[Electron transport chain|Electron transport chain]]: Where | #[[Electron transport chain|Electron transport chain]]: Where electrons pass from one carrier to the other, with [[Oxygen|O<sub>2</sub>]] as the las carrier, producing 32 [[ATP|ATP]] molecules, using [[ATP synthase|ATP_synthase]].<sub></sub> | ||
<br> | <br> | ||
Revision as of 13:37, 28 November 2012
Respiration is the essential metabolic process whereby energy is created in the form of ATP. There are two types of respiration, aerobic respiration and anaerobic respiration. In aerobic respiration, there is a reaction between oxygen and glucose, resulting in the generation of 38 ATP, with carbon dioxide and water being produced as waste products. There are a number of steps in this process, which involve a series of complex reactions. Anaerobic respiration is the process whereby ATP is generated in the absence of oxygen. Glucose is broken down into 2ATP and lactic acid as a waste product.
Aerobic respiration goes through complex stages (phases) in the next order:
- Glycolysis: Where one glucose molecule, is transformed to two pyruvate molecules, and four ATP molecules.
- Link Reaction: One pyruvate molecule is changed to one acetyl-CoA molecule.
- Krebs Cycle: Also called the TCA (tricarboxylic acid) Cycle, occurs twice for one glucose molecule (because each glucose molecule is split into two pyruvates which produce one Acetyl-CoA each) producing: 2 ATP molecules, six NADH molecules, two FADH2 Molecules and four CO2 molecules
- Electron transport chain: Where electrons pass from one carrier to the other, with O2 as the las carrier, producing 32 ATP molecules, using ATP_synthase.