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First exams 2025

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Membrane Transport (HL IB Biology)

Revision Note

Cara Head

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Cara Head

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Simple Diffusion

  • Simple diffusion is a type of membrane transport that involves particles passing directly between the phospholipids in the plasma membrane
  • It can be defined as:

The net movement, as a result of the random motion of molecules or ions, of a substance from a region of higher concentration to a region of lower concentration

  • The random movement is caused by the kinetic energy of the molecules or ions
  • The molecules or ions are said to move down a concentration gradient
  • If diffusion takes place for a long enough time period, molecules eventually reach equilibrium, where they are evenly distributed on either side of a membrane

  • Examples of molecules that move by simple diffusion include
    • Oxygen
      • Oxygen diffuses into cells from the surrounding capillaries
      • Respiration uses up oxygen, resulting in a low concentration inside cells and so generating a concentration gradient
    • Carbon dioxide
      • Carbon dioxide diffuses out of cells and into the surrounding capillaries
      • Respiration produces carbon dioxide as a product, resulting in a high concentration inside cells and so generating a concentration gradient

Simple diffusion diagram

Diffusion across the cell membrane, IGCSE & GCSE Biology revision notes

Simple diffusion involves the movement of molecules directly between the phospholipids of a cell membrane

  • The rate at which a substance diffuses across a membrane depends on several factors:
    • 'Steepness' of the concentration gradient
      • The greater the difference in concentration across a membrane, the higher the rate of diffusion
    • Temperature
      • The higher the temperature the higher the rate of diffusion
      • The molecules have more kinetic energy at high temperatures, so random movement of molecules is faster
    • Surface area
      • The greater the surface area the higher the rate of diffusion
    • Properties of the molecules or ions 
      • Large molecules diffuse more slowly as they require more energy to move
      • Uncharged molecules, e.g. oxygen, diffuse faster as they move directly across the phospholipid bilayer
      • Non-polar molecules diffuse more quickly as they are soluble in the non-polar phospholipid bilayer
      • Although polar molecules cannot easily pass through the hydrophobic part of the membrane, smaller polar molecules (e.g. urea) can diffuse at low rates

Osmosis

  • Osmosis can be defined as:

The diffusion of water molecules, from a dilute solution to a solution with a higher solute concentration, across a partially permeable membrane

  • In doing this, water is moving down its concentration gradient, and so osmosis can be said to be a type of diffusion
    • A dilute solution has a high concentration of water molecules and a concentrated solution has a low concentration of water molecules
  • As with facilitated diffusion, osmosis occurs as the result of the random movement of molecules, so is technically the net movement of water
  • While water can move directly in between the phospholipids, channel proteins called aquaporins allow water to pass through membranes more freely
    • Water is unusual for a polar molecule in its ability to pass directly across cell membranes

Movement of water molecules diagram

osmosis-and-the-partially-permeable-membrane

Water molecules can cross partially permeable membranes

  • Osmosis can also be described as the net movement of water molecules from a region of higher water potential to a region of lower water potential, through a partially permeable membrane
    • Water potential describes the tendency of water to move; this term is used to avoid confusion between water concentration and solute concentration of a solution

Osmosis diagram

how-osmosis-works-igcse-and-gcse-chemistry-revision-notes

Osmosis is the movement of water molecules from a dilute to a concentrated solution across a partially permeable membrane

Facilitated Diffusion

  • Some substances cannot diffuse through the phospholipid bilayer of cell membranes, e.g.:
    • Large molecules
    • Polar molecules
    • Ions
  • These substances can only cross the phospholipid bilayer with the help of transport proteins
  • This form of diffusion is known as facilitated diffusion
  • There are two types of proteins that enable facilitated diffusion:
    • Channel proteins
    • Carrier proteins
  • Transport proteins are highly specific, meaning that they only allow one type of molecule or ion to pass through
  • During facilitated diffusion the net diffusion of molecules or ions into or out of a cell will occur down a concentration gradient
    • Facilitated diffusion is a passive form of transport; it does not require energy
    • The direction of movement of molecules through a transport protein depends on their relative concentration on each side of the membrane

Channel proteins

  • Channel proteins are pores that allow the passage of specific substances across a membrane
  • They allow charged substances (eg. ions) to diffuse through the cell membrane
  • Some channel proteins are gated, meaning that part of the channel protein on the inside surface of the membrane can move in order to close or open the pore
    • This allows the channel protein to control the exchange of ions

Channel protein diagram

Channel protein

Channel proteins are membrane pores; some channel proteins can open and close

Carrier proteins

  • Unlike channel proteins, which have a fixed shape, carrier proteins can switch between two shapes
    • The substance to be transported attaches to a binding site, causing a shape change in the carrier protein
    • Initially the binding site of the carrier protein is open to one side of the membrane
    • When the carrier protein switches shape it opens to the other side of the membrane

Carrier protein diagram

_Carrier protein in facilitated diffusion

Carrier proteins change shape to carry substances across cell membranes

Examiner Tip

Remember that the movement of molecules from high concentration to low concentration is diffusion; this movement is passive and requires no energy

  • If this movement requires the aid of a protein then it is facilitated diffusion
  • If it involves the movement of water across a partially permeable membrane it is osmosis.

Active Transport

  • Active transport can be defined as:

The movement of molecules and ions across a cell membrane, from a region of lower concentration to a region of higher concentration, using energy from respiration

  • Active transport occurs against, or up, a concentration gradient
  • Active transport requires carrier proteins
    • Carrier proteins in active transport are sometimes known as pumps
    • Although facilitated diffusion also uses carrier proteins, active transport is different as it requires energy
  • Energy is required to allow the carrier protein to change shape, allowing it to transfer the molecules or ions across the cell membrane
    • The energy required is provided by ATP (adenosine triphosphate), produced during respiration.
    • The ATP is hydrolysed to release energy

Active transport diagram

Active transport across the cell membrane, IGCSE & GCSE Biology revision notes

Active transport is the transport of substances across cell membranes from low to high concentration

Selective Permeability

  • Facilitated diffusion and active transport are mechanisms that allow cell membranes to be selectively permeable
    • Selective permeability is the ability of the membrane to differentiate between different types of molecules, only allowing some molecules through while blocking others
  • Simple diffusion provides less control for cell membranes, as it is dependent only on the size and hydrophobic or hydrophilic nature of the molecules diffusing
    • Simple diffusion provides no ability for membranes to be selective with regard to small, polar molecules 
      • Small, non-polar molecules can diffuse across the membrane with ease so this is not selective
    • Simple diffusion does allow for selective permeability with regard to large or polar molecules
      • Large or polar molecules cannot cross the phospholipid bilayer without transport proteins

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Cara Head

Author: Cara Head

Expertise: Biology

Cara graduated from the University of Exeter in 2005 with a degree in Biological Sciences. She has fifteen years of experience teaching the Sciences at KS3 to KS5, and Psychology at A-Level. Cara has taught in a range of secondary schools across the South West of England before joining the team at SME. Cara is passionate about Biology and creating resources that bring the subject alive and deepen students' understanding