Free Science Lessons

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Created by
Imogen Stevens

Cards (81)

  • Phospholipids
    Molecules with two fatty acid molecules bonded to a glycerol molecule, and a phosphate group
  • Phospholipids
    • Have a hydrophobic region (fatty acids) and a hydrophilic region (phosphate group)
    • Arrange themselves in a bilayer in water, with the hydrophobic regions in the centre and the hydrophilic regions interacting with water
  • Phospholipid bilayer
    The basis of all cell membranes, including the cell surface membrane and organelle membranes
  • Cell membranes
    • Act as barriers
    • Locations for chemical reactions
    • Involved in cell signaling
  • Cell surface membrane
    Contains a hydrophobic centre that allows hydrophobic molecules to pass through, but prevents hydrophilic water-soluble molecules from easily passing through
  • Cell surface membrane
    • Contains protein molecules, some spanning the membrane and others only on one side
    • Contains cholesterol, which increases the strength and stability of the membrane, and controls its fluidity
  • Fluid mosaic model
    The structure of the cell surface membrane, where the phospholipids are fluid and the proteins are arranged in a mosaic-like pattern
  • Water molecules can pass through the cell membrane, even though they are polar, because they are extremely small
  • Intrinsic or integral proteins
    Fully embedded in the membrane from one side to the other, passing right through the lipid bilayer
  • Intrinsic proteins
    • Have hydrophobic amino acids on the outside surface that can interact with the hydrophobic fatty acid tails in the phospholipid bilayer
  • Types of intrinsic proteins
    • Protein channels
    • Carrier proteins
  • Protein channels
    Intrinsic proteins that contain a channel running through the center, lined with hydrophilic amino acids and filled with water molecules, allowing water-soluble molecules and ions to diffuse through
  • Carrier proteins
    Intrinsic proteins that can change their shape or position to transfer molecules or ions from one side of the membrane to the other
  • Extrinsic or peripheral proteins
    Do not span the membrane, instead found on one side of the membrane or the other, sometimes attached to intrinsic proteins
  • Extrinsic proteins
    • Have a range of functions, including structural roles, acting as enzymes, and serving as receptors for other molecules such as hormones
  • Glycoproteins
    Membrane proteins that contain a carbohydrate molecule attached
  • Functions of glycoproteins
    • Allow cells to attach to each other to form tissues
    • Play a role in the immune system, presenting antigens to T cells
    • Act as receptors for hormones
  • Glycolipids
    Carbohydrates attached to phospholipid molecules in the cell membrane
  • Functions of glycolipids
    • Used when cells come into contact with each other, the glycolipids on the surface of one cell can be recognized by another cell
    • Can act as antigens, for example in determining blood group
  • Diffusion
    The net or overall movement of particles from a region of higher concentration to a region of lower concentration
  • Diffusion process
    1. Particles move randomly in all directions
    2. More particles move from higher to lower concentration
    3. Concentration becomes equal (equilibrium)
    4. No net movement of particles
  • Diffusion
    • Passive process (does not require metabolic energy)
    • Cell membrane is partially permeable
  • Concentration gradient
  • Diffusion is a passive process that does not require metabolic energy
  • Cell membranes are partially permeable, allowing some chemicals to diffuse through while blocking others
  • Facilitated diffusion
    The process by which hydrophilic substances diffuse across the cell membrane via protein molecules
  • Diffusion is the net or overall movement of particles from a region of higher concentration to a region of lower concentration, down the concentration gradient
  • Diffusion is a passive process that does not require any metabolic energy
  • Cell membrane
    • The center of the cell membrane is hydrophobic due to the fatty acid tails of the phospholipid molecules
    • Hydrophobic substances can diffuse rapidly across the membrane
    • Hydrophilic substances cannot diffuse across the membrane
  • Water molecules can diffuse across membranes even though they are polar, because they are very small
  • Facilitated diffusion
    1. Hydrophilic substances diffuse across the cell membrane via protein molecules
    2. Protein molecules allow the hydrophilic substances to cross the membrane without interacting with the hydrophobic center of the phospholipid bilayer
  • Carrier proteins
    • Have a binding site for a specific chemical
    • When the chemical binds, it causes a change in the tertiary structure of the carrier protein, bringing the chemical across the membrane where it is released
  • Protein channels

    • Have a central pore lined with hydrophilic amino acids and containing water
    • Allow hydrophilic substances to pass through from one side of the membrane to the other
    • Are selective for the chemicals that can pass through
    • Can be always open or only open in response to a certain trigger (e.g. chemical binding or voltage change)
  • Facilitated diffusion is still a type of diffusion, where chemicals move from a region of higher concentration to a region of lower concentration
  • Metabolic energy is not required for facilitated diffusion
  • Active transport
    Process where carrier proteins in the membrane transport a chemical from a region of lower concentration to a region of higher concentration, against the concentration gradient
  • ATP
    Metabolic energy required for active transport
  • Types of active transport
    • Direct active transport
    • Co-transport
  • This video focuses on direct active transport</b>
  • Diffusion is the net or overall movement of particles from a region of higher concentration to a region of lower concentration, down the concentration gradient