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Enzymes

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Returns to ready-form and is not 'used-up' by the reaction ... Like a thermostat. Overview of Cells. Prokaryotic. All bacteria. Most have cell wall ... – PowerPoint PPT presentation

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Title: Enzymes


1
Enzymes
  • Proteins that catalyze specific reactions
  • Contain active site or pocket which modifies a
    molecule called the substrate into a product
  • Returns to ready-form and is not used-up by the
    reaction
  • Tend to perform only a single, specific reaction
    and not multiple reactions

2
Active Sites and Inhibition
  • The active site possesses a 3D structure which
    allows it to bind substrate
  • Molecules that have a similar structure to the
    substrate may also bind the active site and
    prevent reaction-competitive inhibitor
  • Other molecules may bind elsewhere on the enzyme
    and change the conformation of the active
    site-noncompetitive inhibitor

3
Enzyme interactions
  • Enzymes often have active state and inactive
    state and require an interaction with another
    molecule to become active-activator
  • Cooperative interactions-the interaction of a
    enzyme with one substrate increases the rate of
    binding to additional substrate molecules

4
Regulation
  • Feedback inhibition is very common
  • The presence of high levels of a molecule will
    inhibit the pathway that synthesizes that
    molecule
  • Like a thermostat

5
Overview of Cells
  • Eukaryotic
  • Protist, fungi, plant and animal cells
  • Some have cell walls
  • Possess membrane-bound organelles
  • Biochemical reactions take place in specialized
    compartments
  • Much larger than bacteria
  • Prokaryotic
  • All bacteria
  • Most have cell wall
  • No membrane-bound organelles
  • Biochemical reactions take place in cytoplasm or
    cell membrane
  • Typically very small

6
Prokaryotic Cell
7
Animal Cells
  • Surrounded by plasma membrane
  • Allows certain molecules in or out of the cell
  • Does not have a cell wall

8
Plant Cells
  • Have plasma membrane and cell wall
  • Cell wall gives support
  • Has chloroplasts (contain chlorophyll) sand large
    vacuole

9
Why Small Cells?
  • Cells obtain nutrients (gases, water other
    molecules) from the environment through the cell
    membrane
  • High surface areavolume ratios maximizes the
    amount of cell/environment interaction
  • Large cells would starve

10
Cell Membrane
  • Lipid bilayer
  • Integral proteins float in fluid
  • Hydrophobic region of proteins reside in fatty
    acid layer of membrane
  • Hydrophilic regions are on cytoplasmic and
    extracellular surfaces
  • Membrane fluidity may be altered by adjusting
    fatty acid chains

11
Membranes are complex
12
Roles of Membranes
  • Gatekeeper of cell
  • Determines what goes in or out of cell
  • Compartmentalization
  • Every membrane-bound organelle is isolated
  • Transport
  • Actively move molecules into cell
  • Signal transduction
  • Environmental conditions trigger genetic and
    biochemical changes in cell via receptors
  • Cell-cell communication and interaction

13
Diffusion
  • Starts with a gradient
  • System will eventually reach equilibrium (even
    distribution)
  • Happens passively without selective barriers
  • Many small molecules diffuse through cell membrane

14
Osmosis
  • Requires a gradient and a selectively permeable
    membrane
  • Water will move to area of greater solvent
    concentration

15
Facilitated diffusion
  • Some structure helps molecules across the
    membrane
  • Often act as a revolving door or tunnel

16
Active Transport
  • Cell expends energy to move molecule or atom
    inside
  • Often forms gradients to accomplish this

17
Entry into Cell Summarized
  • Diffusion and Facilitated diffusion are passive
    transport because no energy is required
  • Facilitated diffusion and active transport can be
    very selective processes

18
Membrane Pumps
  • Can be used to remove unwanted molecule from
    cytoplasm (like sump pump)
  • Can also be used to form a gradient across the
    membrane which can drive other transports
    (protomotor force)
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