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Theory & Procedure, Study of Plasmolysis | Additional Study Material for NEET PDF Download

Our Objective

To demonstrate plasmolysis in peels of Rhoeo plant in hypotonic and hypertonic solutions using salt solution.

The Theory

What is plasmolysis?

Plasmolysis is the process of shrinkage or contraction of the protoplasm of a plant cell as a result of loss of water from the cell. Plasmolysis is one of the results of osmosis and occurs very rarely in nature, but it happens in some extreme conditions. We can induce plasmolysis in the laboratory by immersing living cell in a strong salt solution or sugar solution to lose water from the cell. Normally people use Rheo or Tradescantia plant epidermal cell for experiment because they have coloured cell sap which can be clearly visible.

Let’s see how water passes through cell membranes

The cell membrane is a semipermeable membrane that separates the interior of all cells from the surrounding environment. The semipermeable membrane allows some particles, ions, or water molecules across the membrane, but blocks others. Water molecules constantly move inside and outside the cell across cell membranes. This free flow of water has the very important consequence of enabling cells to absorb water.

Plasmolysis and deplasmolysis

When a plant cell is immersed in concentrated salt solution (hypertonic solution), water from the cell sap moves out due to exosmosis. Exosmosis is the passage of water from higher water concentration to lower water concentration through a semipermeable membrane.

When a plant cell is placed in concentrated salt solution, water concentration inside the cell is greater than that which is outside the cell. Therefore, water moves through the cell membrane into the surrounding medium. Ultimately the protoplasm separate from the cell wall and assumes spherical shape. It is called plasmolysis.

When a plasmolysed cell is placed in a hypotonic solution, (i.e., the solution having solute concentration lower than the cell sap), the water moves into the cell because of the higher concentration of water outside the cell than in the cell.  The cell then swells to become turgid.  It is called deplasmolysis.

If we place living cells in isotonic solution (i.e., both solutions have the same amount of solute concentration), there is no net flow of water towards the inside or outside. Here, the water moves in and out of the cell and is in equilibrium, so the cells are said to be flaccid.

Theory & Procedure, Study of Plasmolysis | Additional Study Material for NEET

Demonstration of plasmolysis and deplasmolysis in peels of the Rheo plant.

Learning outcomes

  • Students understand the concepts of plasmolysis and deplasmolysis.
  • Students understand the cause for plasmolysis.
  • Students will be able to do the experiment more accurately in the real lab once they understand the steps through the animation and simulation.

Materials Required

Theory & Procedure, Study of Plasmolysis | Additional Study Material for NEET

Procedure

  • Take two glass slides and place them on the table.
  • Take a rhoeo leaf from the Petri dish.
  • Fold the leaf and tear it along the lower side of the leaf.
  • Using a forceps, pull out two small segments of thin transparent layer from the lower epidermis of the rhoeo leaf.
  • Place the epidermal peels on both glass slides.
  • Using a dropper, take some sodium chloride 0.1% solution from the beaker.
  • Put 1 to 2 drops of solution on one slide.
  • Using another dropper, take sodium chloride 5% solution from the beaker.
  • Put 1 to 2 drops of solution on the next slide.
  • Place a cover slip over the peel of both slides using a needle.
  • Place the slides one by one under the compound microscope.
  • Observe them under the microscope.

Simulator Procedure (as performed through the Online Labs)

  • You can select the concentration of NaCl solution using the drop down list, ‘Select the concentration of NaCl solution: ’
  • Drag and drop the slide onto the stage of the compound microscope.
  • Click on the eye piece of the compound microscope to view the cells.
  • We can observe a controlled normal cell and a user selected cell.
  • Click on the start button to start the experiment.
  • A timer is shown and you need to wait till the timer stops.
  • Based on your observation, you can indicate the type of solution used for selected sample by clicking on the corresponding check box.
  • Click on the information icon to see the inference.
  • You can redo the experiment anytime by clicking on the ‘Reset’ button.

Observation

After half an hour we can observe that cells in sodium chloride 0.1% solution appear turgid, while cells in the sodium chloride 5 % solution show plasmolysis.

Conclusion

When plant cells are immersed in sodium chloride 5 % solution or concentrated salt solution, water moves through the cell membrane into the surrounding medium because the water concentration inside the cell is greater than that which is outside the cell. Ultimately the protoplasm causes shrinkage and assumes spherical shape. This is called plasmolysis. When a plant cell is immersed in sodium chloride 0.1% solution or dilute salt solution, the water moves into the cell because of the higher concentration of water outside the cell than inside the cell.  The cell then swells and becomes turgid.

Precautions

  • Take the epidermal peel from the lower surface of rhoeo leaf.
  • Do not let the peel dry out.
The document Theory & Procedure, Study of Plasmolysis | Additional Study Material for NEET is a part of the NEET Course Additional Study Material for NEET.
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FAQs on Theory & Procedure, Study of Plasmolysis - Additional Study Material for NEET

1. What is plasmolysis?
Ans. Plasmolysis is a process in which a plant cell loses water due to the movement of water out of the cell, resulting in the shrinkage of the cell contents away from the cell wall.
2. How does plasmolysis occur?
Ans. Plasmolysis occurs when a plant cell is placed in a hypertonic solution, meaning the solution has a higher solute concentration than the cell. Water molecules move out of the cell through osmosis, causing the cell to shrink.
3. What is the significance of studying plasmolysis?
Ans. Studying plasmolysis helps in understanding the effects of osmosis on plant cells. It provides insights into the adaptability and survival mechanisms of plants in different environmental conditions. Additionally, it helps in comprehending the process of water movement in plants.
4. What are the visible changes that occur during plasmolysis?
Ans. During plasmolysis, the cytoplasm shrinks and pulls away from the cell wall, causing the cell to become flaccid. This can be observed under a microscope as the cell contents appear to collapse and move away from the cell wall.
5. How can plasmolysis be reversed?
Ans. Plasmolysis can be reversed by placing the plasmolyzed cell in a hypotonic solution, where the solute concentration is lower than the cell. Water molecules move back into the cell through osmosis, causing the cell to regain its turgidity and return to its original state.
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