Cellular Transport PDF

Summary

These notes cover various aspects of cellular transport, including diffusion, osmosis, active transport, and the movement of large particles across the cell membrane. The notes explain the concepts using examples and diagrams to illustrate the processes. The topic is suitable for high school biology.

Full Transcript

# Cellular Transport

## Focus Question

What processes enable substances to move into or out of a cell?

## Diffusion

- **Particles are moving and colliding with each other in the air.** This happens because the particles in gases, liquids, and solids are in random motion.
- **Substances dissolved in water move constantly in random motion called Brownian motion.** This random motion causes **diffusion**, which is the net movement of particles from an area where there are many particles of a substance to an area where there are fewer particles of the substance.
- **The amount of a substance in a particular area is called concentration.**
- **Substances diffuse from areas of high concentration to low concentration.**
- **Diffusion does not require additional energy input** because the particles are already in motion.

## Diffusion across the Plasma Membrane

- **In addition to water, cells need certain ions and small molecules.** Such as chloride ions and sugars to perform cellular functions.
- **Water can diffuse across the plasma membrane.**
- **Most other substances cannot.**
- **Facilitated diffusion uses transport proteins to move other ions and small molecules across the plasma membrane.**

## Osmosis: Diffusion of Water

- **The diffusion of water across a selectively permeable membrane is called osmosis.**
- **Water molecules pass freely into and out of a cell through aquaporins.**
- **Aquaporins are channel proteins embedded in the plasma membrane composed of tiny holes** that selectively allow small uncharged molecules, such as water to pass through.
- **Regulating the movement of water across the plasma membrane is an important factor in maintaining homeostasis within the cell.**

### How osmosis works
- **The concentration of a solution** decreases when the amount of solvent increases. A more concentrated solution has more solute than a less concentrated solution.

## Cells in an Isotonic Solution

- **When a cell is in a solution that has the same Concentration of water and solutes**, it is said to be in an **isotonic solution.**
- **Water still moves through,** but water enters and leaves the cell at the same rate.
- **The cell is at Equilibrium** with the solution and there is no net movement of water.
- **Most cells in organisms are in isotonic solutions, such as blood.**

## Cells in a Hypotonic Solution
- **If a cell is in a solution that has a lower Concentration of solute**, the cell is said to be in a **hypotonic solution.**
- **There is more water outside of the cell than inside.**
- **As a result of osmosis, the net movement of water through the plasma membrane is into the cell.**
- **Pressure generated as water flows through the plasma membrane is called osmotic pressure.**

- **In an animal cell, as water moves into the cell, the pressure increases, and the plasma membrane swells.**
- **If the solution is extremely hypotonic**, plant cells do not burst because they have a rigid cell wall that supports them.
- **As the pressure inside a cell increases, the plant's central vacuole fills with water,** pushing the plasma membrane against the cell wall.

## Cells in a Hypertonic Solution

- **When a cell is placed in a hypertonic solution, the concentration of the solute outside of the cell is higher than it is inside.**
- **During osmosis, the net movement of water is out of the cell.**
- **Animal cells in a hypertonic solution shrivel because of decreased pressure in the cells.**
- **Plant cells in a hypertonic solution lose water, mainly from the central vacuole.**
- **The plasma membrane shrinks away from the cell wall. Loss of water in a plant cell causes wilting.**

## Active Transport

- **Sometimes substances must move from a region of lower Concentration to a region of higher concentration.** This movement of Substances across the plasma membrane against a concentration gradient requires energy, therefore it is called **active transport.**
- **Carrier proteins** are commonly called pumps.

## Na+/K+ ATPase Pump

- **This is an Active transport pump found in the plasma membrane of animal cells.**

## Transport of Large Particles

- **Some substances are too large to move through the plasma membrane by diffusion or transport proteins** and must get inside the cell by a different process.
- **Endocytosis** is the process by which a cell surrounds a substance in the outside environment, enclosing the substance in a portion of the plasma membrane. The membrane then pinches off and leaves the substance inside the cell.
- **Exocytosis** is the secretion of materials at the plasma membrane.

## Check Your Progress

**Cells maintain homeostasis using passive and active transport.**
- List and describe the types of cellular transport.

**Concentration, temperature, and pressure affect the rate of diffusion.**
- Explain the role of the cell membrane during passive transport and active transport.

**Cells must maintain homeostasis in all types of solutions, including isotonic, hypotonic, and hypertonic.**
- Sketch a before and an after diagram of an animal cell placed in a hypotonic solution.
- Contrast how facilitated diffusion is different from active transport.

**Some large molecules are moved into and out of the cell using endocytosis and exocytosis.**
- Describe some organisms that normally live in pond water contain water pumps.
- Describe a scenario that might reverse the action of the pump.
- Summarize the role of the phospholipid bilayer in cellular transport in living cells.