Anaerobic Respiration (OCR A Level Biology): Revision Note
Anaerobic Respiration
Sometimes cells experience conditions with little or no oxygen
There are several consequences when there is not enough oxygen available for respiration:
There is no final acceptor of electrons from the electron transport chain
The electron transport chain stops functioning
No more ATP is produced via oxidative phosphorylation
Reduced NAD and FAD aren’t oxidised by an electron carrier
No oxidised NAD and FAD are available for dehydrogenation in the Krebs cycle
The Krebs cycle stops
However, there is still a way for cells to produce some ATP in low oxygen conditions through anaerobic respiration
Anaerobic pathways
Some cells are able to oxidise the reduced NAD produced during glycolysis so it can be used for further hydrogen transport
This means that glycolysis can continue and small amounts of ATP are still produced
Different cells use different pathways to achieve this
Yeast and microorganisms use ethanol fermentation
Other microorganisms and mammalian muscle cells use lactate fermentation
Ethanol fermentation
In this pathway reduced NAD transfers its hydrogens to ethanal to form ethanol
In the first step of the pathway pyruvate is decarboxylated to ethanal
Producing CO2
Then ethanal is reduced to ethanol by the enzyme alcohol dehydrogenase
Ethanal is the hydrogen acceptor
Ethanol cannot be further metabolised; it is a waste product
The pathway of ethanol fermentation
Lactate fermentation
In this pathway reduced NAD transfers its hydrogens to pyruvate to form lactate
Pyruvate is reduced to lactate by enzyme lactate dehydrogenase
Pyruvate is the hydrogen acceptor
The final product lactate can be further metabolised
The pathway of lactate fermentation
Metabolization of lactate
After lactate is produced two things can happen:
It can be oxidised back to pyruvate which is then channelled into the Krebs cycle for ATP production
It can be converted into glycogen for storage in the liver
The oxidation of lactate back to pyruvate needs extra oxygen
This extra oxygen is referred to as an oxygen debt
It explains why animals breathe deeper and faster after exercise
Examiner Tips and Tricks
Note that ethanol fermentation is a two-step process (lactate fermentation is a one-step process). Carbon dioxide is also produced alongside the waste ethanol. This waste ethanol is what makes yeast vital in making alcoholic drinks like beer!
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