Enzyme Kinetics - PowerPoint PPT Presentation

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Enzyme Kinetics

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V max/2 =Km (Michaelis Constant) [S] _at_ Vmax (units moles/L=M) Michaelis-Menton Equation ... Cleland Notation. Sequential Reactions. E EA (EAB) (EPQ) EQ E. A ... – PowerPoint PPT presentation

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Title: Enzyme Kinetics


1
  • Enzyme Kinetics

2
Rate constants and reaction order
Rate constant (k) measures how rapidly a rxn
occurs
Rate (v, velocity) (rate constant)
(concentration of reactants) v k1 A 1st
order rxn (rate dependent on concentration of 1
reactant) v k-1BC 2nd order rxn (rate
dependent on concentration of 2 reactants) Zero
order rxn (rate is independent of reactant
concentration)
3
Michaelis-Menton Kinetics
Sucrose H20 ? Glucose Fructose Held S
constant and varied the amount of enzyme added
E S lt-gt ES lt-gt E P
4
Michaelis-Menton Kinetics
Sucrose H20 ? Glucose Fructose Held E
constant and varied the amount of substrate
added V max/2 Km (Michaelis Constant) S _at_ ½
Vmax (units moles/LM)
5
Michaelis-Menton Equation
  • Vo Vmax S
  • Km S
  • M-M equation describes the equation of a
    rectangular hyperbolic curve.

6
Initial Velocity Assumption
  • Measurements made to measure initial velocity
    (vo). At vo very little product formed.
    Therefore, the rate at which E P react to form
    ES is negligible and k-2 is 0. Therefore
  • Also since S gtgtgtE, S can be assumed to be
    constant.

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8
Steady State Assumption
Steady state Assumption ES is constant. The
rate of ES formation equals the rate of ES
breakdown
Rate of ES formation k1ES Rate of ES break
down k-1ES kcatES ES(k-1 kcat)
9
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10
Therefore. 1) k1ES ES(k-1 kcat) 2)
(k-1 kcat) / k1 ES / ES 3) (k-1 kcat) /
k1 Km (Michaelis constant)
11
What does Km mean?
  1. Km S at ½ Vmax
  2. Km is a combination of rate constants describing
    the formation and breakdown of the ES complex
  3. Km is usually a little higher than the
    physiological S

12
What does Km mean?
  1. Km represents the amount of substrate required to
    bind ½ of the available enzyme (binding constant
    of the enzyme for substrate)
  2. Km can be used to evaluate the specificity of an
    enzyme for a substrate (if obeys M-M)
  3. Small Km means tight binding high Km means weak
    binding

Glucose Km 8 X 10-6 Allose Km 8 X
10-3 Mannose Km 5 X 10-6
Hexose Kinase Glucose ATP lt-gt Glucose-6-P ADP
13
What does kcat mean?
  1. kcat is the 1st order rate constant describing
    ES ? EP
  2. Also known as the turnover because it describes
    the number of rxns a molecule of enzyme can
    catalyze per second under optimal condition.
  3. Most enzyme have kcat values between 102 and 103
    s-1
  4. For simple reactions k2 kcat , for multistep
    rxns kcat rate limiting step

14
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15
What does kcat/Km mean?
  • It measures how the enzyme performs when S is low
  • kcat/Km describes an enzymes preference for
    different substrates specificity constant
  • The upper limit for kcat/Km is the diffusion
    limit - the rate at which E and S diffuse
    together (108 to 109 m-1 s-1)
  • Catalytic perfection when kcat/Km diffusion
    rate
  • More physiological than kcat

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17
Limitations of M-M
  • Some enzyme catalyzed rxns show more complex
    behavior E Slt-gtESlt-gtEZlt-gtEPlt-gt E P
    With M-M can look only at rate limiting
    step
  • Often more than one substrate
    ES1lt-gtES1S2lt-gtES1S2lt-gtEP1P2lt-gt EP2P1lt-gt EP2
    Must optimize one substrate then calculate
    kinetic parameters for the other
  • Assumes k-2 0
  • Assume steady state conditions

18
Michaelis-Menton
  • Vo Vmax S
  • Km S
  • Vmax
  • Km
  • kcat
  • kcat/Km
  • Vmax
  • Km
  • Kcat
  • Kcat/Km

19
How do you get values for Vmax, Km and kcat?
  • Can determine Km and Vmax experimentally
  • Km can be determined without an absolutely pure
    enzyme
  • Kcat values can be determined if Vmax is known
    and the absolute concentration of enzyme is known
    (Vmax kcatEtotal

20
Lineweaver-Burke Plots(double reciprocal plots)
  • Plot 1/S vs 1/Vo
  • L-B equation for straight line
  • X-intercept -1/Km
  • Y-intercept 1/Vmax
  • Easier to extrapolate values w/ straight line vs
    hyperbolic curve

21
V max
Km
Km 1.3 mM Vmax 0.25
22
-1/Km -0.8 Km 1.23 mM 1/Vmax 4.0 Vmax
0.25
23
Kinetics of Multisubstrate Reactions
E A B lt-gt E P Q
  • Sequential Reactions
  • ordered
  • random
  • Ping-pong Reactions
  • Cleland Notation

24
Sequential Reactions
Ordered
Random
P
Q
A
B
25
Ping-Pong Reactions
  • In Ping-Pong rxns first product released before
    second substrate binds
  • When E binds A, E changes to F
  • When F binds B, F changes back to E

26
Lineweaver-Burke Plot of Multisubstrate Reactions
Sequential
Ping-Pong
Increasing B
1/Vo
1/Vo
1/S
1/S
Vmax doesnt change Km changes
Both Vmax Km change
27
Enzyme Inhibition
  • Inhibitor substance that binds to an enzyme and
    interferes with its activity
  • Can prevent formation of ES complex or prevent ES
    breakdown to E P.
  • Irreversible and Reversible Inhibitors
  • Irreversible inhibitor binds to enzyme through
    covalent bonds (binds irreversibly)
  • Reversible Inhibitors bind through non-covalent
    interactions (disassociates from enzyme)
  • Why important?

28
Reversible Inhibitors
  • E S lt-gt ES -gt E P
  • E I lt-gt EI
  • Ki EI/EI
  • Competitive
  • Uncompetitive
  • Non-competitive

29
Types of Reversible Enzyme Inhibitors
30
Competitive Inhibitor (CI)
  • CI binds free enzyme
  • Competes with substrate for enzyme binding.
  • Raises Km without effecting Vmax
  • Can relieve inhibition with more S

31
Competitive Inhibitors look like substrate
PABA
Sulfanilamide
PABA precursor to folic acid in bacteria
O2C-CH2-CH2-CO2 -------gt O2C-CHCH-CO2 succinate
fumarate Succinate
dehydrogenase O2C-CH2-CO2 Malonate
32
Uncompetitive Inhibitor (UI)
  • UI binds ES complex
  • Prevents ES from proceeding to E P or back to E
    S.
  • Lowers Km Vmax, but ratio of Km/Vmax remains
    the same
  • Occurs with multisubstrate enzymes

33
Non-competitive Inhibitor (NI)
  • NI can bind free E or ES complex
  • Lowers Vmax, but Km remains the same
  • NIs dont bind to S binding site therefore dont
    effect Km
  • Alters conformation of enzyme to effect catalysis
    but not substrate binding

34
Irreversible Inhibitors
malathion
Diisopropyl fluorophosphate (nerve gas)
  • Organophosphates
  • Inhibit serine hydrolases
  • Acetylcholinesterase inhibitors

parathion
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