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The role of organic compounds in cellular respiration is to start cellular respiration. Cellular Respiration is a process that creates ATP. So, in order to create ATP you'll need organic compounds. Organic Compounds are converted into ATP during Cellular Respiration. This is the role of organic compound in cellular respiration.
I think Acetyl alcohol refers to Acetic acid(CH3COOH), which is a type of Carboxylic acid formed by oxidation of Acetaldehyde.
oxidation pyruvate to actyle COA AND CITRIC ACID
Glycolysis
The sequence of events in aerobic respiration is: glycolysis, formation of acetyl CoA, the Krebs cycle, the electron transport chain.
mitochondrial matrix
Krebs cycle
Acetyl acetic acid is CH3-CO-CH2-COOH
Fats can be used in cellular respiration. Fatty acids can produce Acetyl-CoA (through beta-oxidation), which is an important reactant in cellular respiration. This Acetyl-CoA then enters the Citric Acid Cycle. The main source of Acetyl-CoA for cellular respiration is glucose, however fatty acids can also be used.
Nothing, carbon dioxide isn't used in cellular respiration. Its a product of the Krebs cycle and when pyruvate is oxidized into Acetyl CoA.
oxidation of pyruvate to acetyl CoA and the citric acid cycle
The role of organic compounds in cellular respiration is to start cellular respiration. Cellular Respiration is a process that creates ATP. So, in order to create ATP you'll need organic compounds. Organic Compounds are converted into ATP during Cellular Respiration. This is the role of organic compound in cellular respiration.
Acetyl-CoA is produced during the second step of aerobic cellular respiration. In the matrix of the mitochondria pyruvate decarboxylation occurs.
To get acetyl chloride, you need to react ethanoyl ethanoate and acetic acid anhydride.
in the cystol of the cytoplasm after converting to acetyl coenzyme A it can pass through the outer membrane of a mitochondrion
1. Glycolysis 2. Acetyl-CoA formation 3. Citric Acid Cycle 4. Electron Transport Chain
Because it can not form the acetyl group easily but above 1000 Celsius acetic acid may form acetic anhydride which may be used to produce acetyl ion. Acetylation by acetic acid using is possible by using cobalt chloride as catalyst with good yield