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Membranes

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Osmosis. Facilitated Diffusion. Active Transport. Primary active transport ... Osmosis. Movement of water either across the lipid bilayer or through aquaporins. ... – PowerPoint PPT presentation

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Title: Membranes


1
Membranes
2
Membranes
  • Phospholipids
  • Fluid Mosaic Model
  • Passage and Transport

3
Phospholipids
4
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5
Fluid-Mosaic Model
  • Membrane molecules are in continuous motion (
    fluidity).
  • Type of phospholipid determines fluidity.
  • Cholesterol and proteins are embedded in
    bilayer.
  • Carbohydrates are attached to some of the
    lipids and proteins

6
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7
Transmembrane Proteins
8
Membrane Proteins
  • Anchor cells together (cell adhesion molecules)
  • Bind chemical messengers (receptors)
  • Catalyze reactions (enzymes)
  • Transport hydrophilic molecules (channels and
    pumps)
  • Identify type of cell (self identification in
    immunity)

9
Membrane Transport
  • Diffusion
  • Osmosis
  • Facilitated Diffusion
  • Active Transport
  • Primary active transport
  • Secondary active transport
  • Endocytosis
  • Phagocytosis
  • Exocytosis

10
Diffusion
  • Solutes dissolved in a solvent will move down
    their concentration gradient.
  • Rate influenced by
  • Steepness of gradient
  • Temperature
  • Mass of solute
  • Surface area
  • Diffusion distance

11
Osmosis
  • Movement of water either across the lipid bilayer
    or through aquaporins.
  • Water also moves from high to low concentration.
  • Governed by hydrostatic pressure (due to water)
    and osmotic pressure (due to impassible solutes).

12
Osmosis
13
Tonicity
  • Isotonic
  • Hypotonic
  • Hypertonic

14
Facilitated Diffusion
  • Passive transport
  • Solute binds to a transporter on one side and
    released on the other
  • What regulates the rate of facilitated diffusion?

15
Active Transport
  • Primary active transport
  • Energy derived from ATP hydrolysis
  • Typical of pumps that maintain concentrations
    against the gradient
  • Secondary active transport
  • Energy formed from either a Na or H gradient.
  • By allowing primary gradient to leak, the
    energy of that movement can move another solute
    against its own gradient.

16
Active Transport
17
Endocytosis
  • Use of vesicles to take up substances
  • Receptor-mediated endocytosis happens by
  • Binding
  • Vesicle formation
  • Uncoating
  • Fusion with endosome
  • Recycling of receptors to plasma membrane
  • Degradation in lysosomes

18
Phagocytosis
  • Type of endocytosis were cell englufs large
    solids.
  • A variant of this is bulk-phase endocytosis, or
    pinocytosis (taking in droplets of water)

19
Exocytosis
  • Release or secretion of material from the cell
  • Form secretory vesicle inside cell.
  • Fuse with plasma membrane
  • Release contents into extracellular fluid.

20
Summary of Membrane Transport
Table 3.1 in text
21
Transport by Proteins
22
  • Proteins change shape to move molecules across
    membranes.
  • Proteins can cooperate to move molecules across
    membranes.
  • (e.g., facilitated transport linked to active
    transport.

23
Model of a Cell Membrane
24
Summary
  • Membranes are formed by the amphiphilic nature of
    phospholipids.
  • Membrane molecules are in constant flux,
    creating a fluid and dynamic layer.
  • Membrane proteins serve a number of functions,
    including regulating the passage of molecules
    into and out of the cell.
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