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Cell Membranes

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Title: Cell Membranes Author: psidelsky Last modified by: psidelsky Created Date: 1/31/2005 1:06:55 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Cell Membranes


1
Cell Membranes
  • Chapter 5 Purves
  • Reading and Vocabulary
  • Diagrams Study
  • Laboratory Osmosis and Diffusion
  • Laboratory Purple Onion

2
Membrane Functions
  • Cell membranes are bilayered, dynamic structures
    that
  • Perform vital physiological roles
  • Form boundaries between cells and their
    environments
  • Regulate movement of molecules into and out of
    cells
  • Lipids, proteins, and carbohydrates in various
    combinations make these tasks possible.

3
Membrane Structure and Character
  • The lipid portion of a cellular membrane provides
    a barrier for water-soluble molecules.
  • Lipids are like the water of a lake in which
    proteins float. This general design is called
    the fluid mosaic model.
  • Membrane proteins are embedded in the lipid
    bilayer.
  • Carbohydrates attach to lipid or protein
    molecules on the membrane, generally on the outer
    surface.

4
Membrane Structure
  • All biological membranes contain proteins.
  • The ratio of protein to phospholipid molecules
    varies depending on membrane function.
  • Many membrane proteins have hydrophilic and
    hydrophobic regions.
  • The association of protein molecules with lipid
    molecules is not covalent both are free to move
    around laterally, according to the fluid mosaic
    model.

5
Figure 5.1 The Fluid Mosaic Model
Outside of cell
Inside of cell
6
Proteins and Lipid Bilayer
7
Fluid Mosaic
  • Although all biological membranes are
    structurally similar, some have quite different
    compositions of lipids and proteins.
  • Cholesterol may increase or decrease fluidity
    depending on other factors, such as the fatty
    acid composition of the other lipids found in the
    membrane.
  • For any given membrane, fluidity also decreases
    with declining temperature. The membranes of
    cells that live at low temperatures tend to be
    high in unsaturated and short-chain fatty acids.

8
Fluid Mosaic
  • Although all biological membranes are
    structurally similar, some have quite different
    compositions of lipids and proteins.
  • Cholesterol may increase or decrease fluidity
    depending on other factors, such as the fatty
    acid composition of the other lipids found in the
    membrane.
  • For any given membrane, fluidity also decreases
    with declining temperature. The membranes of
    cells that live at low temperatures tend to be
    high in unsaturated and short-chain fatty acids.

9
Cell recognition
  • Molecules are located on the exterior cells.
    These are primarily proteins
  • Cell are identified as self vs. non self
  • They are referred to as antigens
  • HLA antigens are on all of human tissues
  • Blood antigens are on Red blood cells

10
Channels
  • Channels are formed by proteins.
  • They may be gated or non gated
  • Non gated channels allow ions and small molecules
    to enter
  • Gated are highly selective
  • Pumps are one type of channel

11
Cell Junctions
  • Specialized cell junctions form between cells in
    a tissue.
  • Animals have three types of cell junctions tight
    junctions, desmosomes, and gap junctions.

12
Receptors
  • Receptors are located on the exterior of cell
    membranes for interactions with other cells
  • Hormones
  • Neurotransmitters
  • Messengers

13
Types of Junctions
14
Tight Junctions
15
Tight Junctions
  • Tight junctions are specialized structures at the
    plasma membrane that link adjacent epithelial
    cells.
  • They have two primary functions
  • To restrict the migration of membrane proteins
    and phospholipids from one region of the cell to
    another
  • To prevent substances from moving through the
    intercellular space

16
Gap Junctions
17
Gap Junctions
  • Gap junctions are connections that facilitate
    communication between cells.
  • Gap junctions are made up of specialized protein
    channels called connexons.
  • Connexons span the plasma membranes of two
    adjacent cells and protrude from them slightly.
  • Connexons are made of proteins called connexins,
    which snap together to generate a pore

18
Desmosomes
  • Link adjacent cells
  • Permit materials to move through the
    intercellular space
  • They are anchored in dense plaques
  • Cell adhesion molecules cross the space and bind
    cells together
  • Keratin is an importan molecule in this process

19
Passive transport
  • Biological membranes are selectively permeable.
    They allow some substances to pass, while others
    are restricted.
  • Some substances can move by simple diffusion
    through the phospholipid bilayer.
  • Some must travel through proteins to get in, but
    the driving force is still diffusion. This
    process is called facilitated diffusion.

20
Diffusion
  • Diffusion is the process of random movement
    toward the state of equilibrium.
  • Although individual particles move randomly, in
    diffusion the net movement is directional, from
    regions of greater concentrations to regions of
    lesser concentrations, until equilibrium is
    reached.

21
Diffusion
22
  • Isotonic solutions have equal solute
    concentrations.
  • A hypertonic solution has a greater total solute
    concentration than the solution to which it is
    being compared.
  • A hypotonic solution has a lower total solute
    concentration than the solution to which it is
    compared.

23
Osmosis
24
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