[Biology Class Notes] on Calvin Cycle Pdf

The Calvin cycle is a series of reactions that takes place in the stroma of chloroplasts in a plant cell. The carbon dioxide taken up by the plant cell is reduced to glucose with the help of ATP and NADPH which is formed in the dark reaction of photosynthesis. The relatively stable compound that is formed in this cycle is a 3-carbon sugar.

 

The pathway was first elucidated by American biochemist Melvin Calvin and his co-workers and the cycle involves the fixation of carbon dioxide and its carbohydrate reduction.

 

Plants cell produce organic molecules using the products of light reactions such as ATP and NADPH.

 

ATP is used as the source of energy driving the endergonic reactions whilst the reducing power of NADPH is used as a source of hydrogen and electrons required to bind them to carbon atoms.

 

The light energy captured during photosynthesis is used in the C-H bonds of sugar.

 

A major component of the Calvin cycle is the enzyme ribulose-1, 5- biphosphate carboxylase also known as RUBISCO. It generates a trio of products in the C3 cycle which are 3-Phosphoglycerate (3-PGA), glyceraldehyde 3-P (GAP) and dihydroxyacetone phosphate or DHAP. All these products are used to synthesise fructose-1, 6 biphosphate and fructose-6 phosphate.

 

The Calvin Cycle Model

Three complex events take place during the Calvin cycle and these events are carried out in the dark reaction phase of photosynthesis. The Calvin cycle steps include 

1. Carbon fixation

2. Reduction

3. Regeneration

We will discuss these steps in the following.

 

Carbon Fixation: This is the first key step of the Calvin cycle where carbon dioxide is reduced and attached to an organic molecule. The molecule is formed by reassembling the bonds of two intermediate glycolysis products: fructose 6-phosphate, and glyceraldehyde 3-phosphate to produce an energy-rich 5-C compound ribulose 1, 5-bisphosphate (RuBP) and a 4-C sugar.

 

Carbon dioxide binds to RuBP in a process known as carbon fixation and forms two molecules of 3-PGA. The enzymes which are used to catalyse this reaction is ribulose bisphosphate carboxylase/oxygenase. This is a large 4-subunit enzyme found in the stroma and it works slowly, processing only molecules of RuBP per second.  The process is called carbon fixation because CO2 is fixed from an inorganic form into organic molecules.

 

Reduction: After the two molecules of 3-PGA are formed, they are converted to a simple sugar- glyceraldehyde-3 phosphate (G3P). ATP and NADPH are utilised as energy sources in this step and the energy is transferred to the sugar molecules to be reserved as long-term storage. This step is known as reduction because electrons are transferred to 3-PGA to form G3P. 

 

Regeneration: The regeneration of RuBP takes place in this step. It starts with one of the G3P molecules leaving the Calvin cycle and is transported to the cytoplasm to contribute to the formation of products needed by a plant body. This leaves the chloroplast with 3 carbon atoms and it takes three turns of the Calvin cycle to fix net carbon to export one molecule of G3P.

 

However, each turn forms 2 molecules of G3Ps so in total 6 molecules of the compound are formed. Whilst one is exported the other remaining G3P molecules are used to regenerate RuBP. Three extra molecules of ATP are used in the regeneration reactions and it enables the system to fix more CO2.

 

Calvin Cycle Equation:

6 NADPH + 9 ATP + 3CO2 + + 5 H2O → G3P + 2H+ + 6NADP+ + 9ADP + 8Pi (Pi = inorganic phosphate)

 

Glyceraldehyde-3-Phosphate= G3P

 

Pi= Inorganic phosphate

 

What are the Products of the Calvin Cycle?

The products of the Calvin cycle are as follows:

• One molecule of carbon is fixed at every turn of the cycle

• One molecule of G3P is formed in 3 turns of the cycle

• 2 molecules of G3P combine to form one molecule of glucose

• 3 molecules of ATP and 2 molecules of NADPH are used in the reduction phase to convert 3-PGA to G3P and the regeneration of RuBP.

• 18 molecules of ATP and 12 molecules of NADPH are used to form one molecule of glucose.

 

Calvin Cycle Facts

• The Calvin or the C3 cycle is also known as the Calvin–Benson–Bassham (CBB) cycle and the Reductive pentose phosphate cycle.

• The C3 cycle is partially dependent on light and utilises ATP and NADPH produced in the light reactions to operate the cycle.

• Regenerated RuBP in the last stage assists in more carbon fixation.

• The produced sugars are used as energy storage units.

Summary

Students must remember the following important points related to the Calvin cycle:

• Calvin cycle is the dark phase of photosynthesis.

• It does not mean that it does not need light. It is indirectly dependent on light.

• In the first step, the reaction takes place without the help of light and there is the fixation of carbon dioxide.

• In the second step, there is the reduction of ATP and NADPH to 3PGA to G3P. then, ATP and NADPH are converted to ATP and NADP+.

• In the last step, RuBP is produced that helps in further fixation of carbon dioxide.

Why is Carbon Fixation Important?

Living organisms need carbon for making other nutrients in the body. Carbon forms the building blocks for other nutrients. The main source of getting ca
rbon is carbon dioxide. Heterotrophs, carnivores, and omnivores cannot take in carbon dioxide directly in the body. They have to depend on other organisms to get carbon in the organic form. Only plants or other autotrophs can make low energy inorganic carbon dioxide into high energy organic molecules such as glucose, cellulose, and starch. Therefore, fixation of carbon is important which forms the first step in the calvin cycle. 

Purpose of Calvin Cycle

The main purpose of the Calvin Cycle is to produce three carbon sugars that can be used to make other sugar molecules such as starch, glucose, and cellulose. These sugars are used by plants for making other structures. In the calvin cycle, carbon is directly taken from the air and is converted to the plant matter. 

This is the reason calvin cycle is important for the existence of other organisms in the ecosystem. The plants are the base of the energy pyramid.  Plants can store energy in the usable form by herbivores with the help of calvin cycle. Ultimately, the energy stored in herbivores is used by carnivores for their survival.

The carbon formed in the calvin cycle is also used by plants and animals for making other nutrients such as nucleic acids, proteins, lipids, and other necessary nutrients needed for life. 

The Calvin cycle also helps in regulating the level of carbon dioxide in the atmosphere. Scientists are concerned with the increasing level of carbon dioxide due to excessive burning of fossil fuels and cutting down of trees by humans that help in reducing carbon diaoxide from the atmosphere.