The Calvin Cycle (CIE A Level Biology)

• Energy from ATP and hydrogen from reduced NADP are passed from the light-dependent stage to the light-independent stage of photosynthesis
• The energy and hydrogen are used during the light-independent reactions (known collectively as the Calvin cycle) to produce complex organic molecules, including (but not limited to) carbohydrates, such as:
  • Starch (for storage)
  • Sucrose (for translocation around the plant)
  • Cellulose (for making cell walls)

• This stage of photosynthesis does not, in itself, require energy from light (hence light-independent) and can therefore take place in light or darkness
• However, as it requires inputs of ATP and reduced NADP from the light-dependent stage, the Calvin cycle cannot continue indefinitely in darkness, as these inputs will run out
• There are three main steps within the Calvin cycle:
  • Rubisco catalyses the fixation of carbon dioxide by combination with a molecule of ribulose bisphosphate (RuBP), a 5-carbon compound, to yield two molecules of glycerate 3-phosphate (GP), a 3-carbon compound
  • GP is reduced to triose phosphate (TP) in a reaction involving reduced NADP and ATP
  • RuBP is regenerated from TP in reactions that use ATP

Carbon fixation

• Carbon dioxide combines with a five-carbon (5C) sugar known as ribulose bisphosphate (RuBP)
• An enzyme called rubisco (ribulose bisphosphate carboxylase) catalyses this reaction
• The resulting six-carbon (6C) compound is unstable and splits in two
• This gives two molecules of a three-carbon (3C) compound known as glycerate 3-phosphate (GP)
• The carbon dioxide has been ‘fixed’ (it has been removed from the external environment and has become part of the organic matter of the plant cell)
• Glycerate 3-phosphate (GP) is not a carbohydrate but the next step in the Calvin cycle converts it into one

Reduction of glycerate 3-phosphate

• Energy from ATP and hydrogen from reduced NADP – both produced during the light-dependent stage of photosynthesis – are used to reduce glycerate 3-phosphate (GP) to a phosphorylated three-carbon (3C) sugar known as triose phosphate (TP)
• One-sixth of the triose phosphate (TP) molecules are used to produce useful organic molecules needed by the plant:
  • Triose phosphates can condense to become hexose phosphates (6C), which can be used to produce starch, sucrose or cellulose
  • Triose phosphates can be converted to glycerol and glycerate 3-phosphates to fatty acids, which join to form lipids for cell membranes
  • Triose phosphates can be used in the production of amino acids for protein synthesis

Regeneration of ribulose bisphosphate

• Five-sixths of the triose phosphate (TP) molecules are used to regenerate ribulose bisphosphate (RuBP)
• This process requires ATP

The Calvin Cycle Diagram

The Calvin cycle

• Intermediate molecules of the Calvin cycle (such as glycerate 3-phosphate and triose phosphate) are used to produce other molecules
• Glycerate 3-phosphate (GP) is used to produce some amino acids
• Triose phosphate (TP) is used to produce:
  • Hexose phosphates (6C), which can be used to produce starch, sucrose or cellulose
  • Lipids for cell membranes
  • Amino acids for protein synthesis