In this aerobic respiration equation in plants post we have briefly explained about aerobic respiration reaction in plants, cycles, and summary.
Aerobic Respiration Reaction
Aerobic respiration reaction refers to the aerobic catabolism that converts nutrients into the water, carbon dioxide and energy. It is an electron transport system in which molecular oxygen is the last electron acceptor. Most prokaryotes and eukaryotes employ aerobic respiration reaction for energy production from glucose. The primary aerobic respiration reaction follows:
Notice it is vital to note that the glucose (C6H12O6) is converted into carbon dioxide (CO2), and oxygen (O2) is reduced to create the water (H2O). This reaction is a highly driven reaction which “releases” energy through ATP molecules. This kind of ATP production can be seen in both aerobes and facultative anaerobes.
Obligate aerobes require molecular oxygen since they create ATP solely through aerobic respiration reaction. Facultative anaerobes, on the contrary, are able of aerobic respiration reaction but can shift to fermentation, which is an anaerobic ATP-producing procedure when oxygen isn’t available.
Aerobic respiration reaction involves four stages:
- A transition reaction that forms acetyl coenzyme A,
- The citric acid (Krebs) cycle, and an electron transport chain and
Aerobic respiration reaction is the aerobic catabolism of nutrients to carbon dioxide, water, and energy, and involves an electron transport system in which molecular oxygen is the final electron acceptor.
The overall reaction is: C6H12O6 + 6O2 yields 6CO2 + 6H2O + energy (as ATP). Glucose (C6H12O6) is oxidized to produce carbon dioxide (CO2) and oxygen (O2) is reduced to produce water (H2O).
This type of ATP production is seen in aerobes and facultative anaerobes. Aerobic respiration reaction involves four stages: glycolysis, a transition reaction that forms acetyl coenzyme A, the citric acid (Krebs) cycle, and an electron transport chain and chemiosmosis.