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What is glycolysis?
Glycolysis: the breakdown of glucose into two pyruvates in the cytosol.
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Describe stage 1 of respiration
- Glycolysis: the breakdown of glucose onto two pyruvates in the cytosol.
- Glucose is a 6 carbon sugar and is converted to two 3 carbon sugars called pyruvic acid.
- No oxygen is required for this stage.
- 4 ATPs are formed in the process, but allowing for the 2 ATPs used initially there is a net gain of 2 ATPs (out of potential 69).
- Glucose (C6H12O6) —> 2 pyruvates+4H+2ATP
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In stage one of aerobic respiration, what is glucose converted to?
Glucose is a 6 carbon sugar and is converted to two 3 carbon sugars called pyruvic acid.
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How many ATPs are formed the process of glycolysis?
4 ATPs are formed in the process, but allowing for the 2 ATPs used initially there is a net gain of 2 ATPs. (Potential 69)
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What’s the equation of glycolysis?
- Glucose — 2 pyruvates +4H + 2ATP
- C6H12O6. (3c)
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Describe stage 2 of aerobic respiration? (6p+4p)
- Krebs Cycle:
- The pyruvates now enters the matrix of the mitochondrion where it loses CO2 and 2H to form a 2carbon molecule called Acetyl Group.
- This Acetyl group is attached to a carrier molecule- coenzyme A to form Acetyl Coenzyme A.
- The Acetyl group is passed by coenzyme A to a series of reactions called the Krebs Cycle.
- Here it’s dismantled step by step with the release of CO2 molecules, hydrogen and electrons.
- The CO2 is released as waste gas.
- The coenzyme A is detached and recycled.
- Electron transport Chain: (formation of ATP in cristae using oxygen)
- The hydrogens and electrons are picked up by NAD and passed down an electron-carrying chain- Electron Transport System
- The energy released by the transport of electrons is used to make ATP (from ADP+P). (The carrier molecules are embedded in the inner foldings-cristae of the mitochondrion)
- Finally the hydrogen , electrons and oxygen are combined to form water.
- Water may be used by the cell.
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Explain what occurs at Krebs Cycle. (6p)
- The pyruvate now enters the matrix of the mitochondrion where it loses CO2 and 2H to form a 2carbon molecule called Acetyl group.
- This Acetyl group is attached to a carrier molecule - coenzyme A to form Acetyl coenzyme A.
- This Acetyl group is passed on by coenzyme A to a series of reactions called the Krebs Cycle.
- Here it is dismantled step by step with the release of CO2 molecules, hydrogen and electrons.
- The CO2 is released as a waste gas.
- The coenzyme A is detached and recycled.
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What first enters the Krebs Cycle?
The Acetyl group is passed on by coenzyme A to a series of reactions called the Krebs Cycle.
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What happens the pyruvate once entering the mitochondrion?
The pyruvate now enters the matrix of the mitochondrion where it loses CO2 and 2H to form a 2carbon molecule called an Acetyl group.
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How is Acetyl Coenzyme A formed?
This Acetyl group is attached to a carrier molecule, coenzyme A, to form Acetyl Coenzyme A.
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What is released in the Krebs Cycle?
Here it is dismantled with the release of CO2 molecules, hydrogen and electrons.
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Explain what occurs in the electron transport chain. (4p)
- Electron Transport Chain: (formation of ATP in cristae using oxygen)
- The hydrogens and electrons are picked up by NAD and passed down an electron-carrying chain- Electron Transport System.
- The energy released by the transport of electrons is used to make ATP of ADP+P. (Carrier molecules are embedded in the foldings, cristae, of the mitochondrion)
- Finally the hydrogen, electrons and oxygen are combined to form water.
- Water may be used by the cell.
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What carries hydrogens and electrons in the Electron Transport Chain?
The hydrogens and electrons are picked up by NAD and passed down an electron carrying chain- Electron Transport System.
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What happens the energy released by the transport of electrons?
The energy released by the transport of electrons is used to make ATP from ADP+P.
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Where are the carrier molecules embedded in the mitochondrion (for ETC)?
The carrier molecules are embedded in the inner foldings, cristae, of the mitochondrion.
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How is water formed?
- After the Electron Transport System, the hydrogen, electrons and oxygen are combined to form water.
- Water may be used by the cell.
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What is the yield and % efficiency of aerobic respiration?
- Yield = 38/69
- = 55% efficiency
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