UPDATED BMS100_BCH1.09_W23_Kinetics 2 STUDENTS (2).pdf

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Enzymes Part 2: Reposted
Objectives slides were added to beginning
Updates were made to the following original slide
#’s:
#3: Missing “+” and “H” were added to “NAD+” and
“NADH”
#24: enzyme is “hexokinase”

Enzymes Part 2
Kinetics

Dr. Heisel

BMS100

Kinetics Objectives
Define Km, Vmax
Define what is meant by a first order, pseudo-first
order, and zero order reaction, and state whether
or not each conforms to Michaelis-Menten kinetics
Compare and contrast glucokinase and hexokinase
Define Kcat and provide the ratio that determines
enzyme efficiency
Provide examples of physiologically efficient
enzymes and their roles

Kinetics Objectives
Use Michaelis-Menten kinetics and LineweaverBurk plots to:
Determine the Km and Vmax of an enzyme
Distinguish different types of enzyme inhibition

Define and provide examples of reversible,
irreversible, and allosteric inhibition
Use Km and Vmax to different competitive,
uncompetitive and non-competitive inhibition
Recognize the graph of an allosteric enzyme in the
presence and absence of an inhibitor

Prereading Review
What is meant by a first order reaction?
What is happening in a zero order reaction?
What can we use a Lineweaver-Burk plot for?

?
?

?

?

Application of Km: Assignment Review
NAD+
Ethanol

NAD+
NADH
+ H+
Acetaldehyde

NADH
+ H+

Acetate

E = aldehyde
dehydrogenase

Alcohol consumption
https://freesvg.org/1455185701

Flushing

Back to normal

https://commons.wikimedia.org/wiki/File:Smiley_Face.JPG

Application of Km and Vmax:
Glucokinase
Hexokinase (most tissues) contrasts to glucokinase
(liver) in the following ways:
Lower Vmax
Lower Km
It is turned off by high concentrations of glucose-6-P

Take a moment to discuss the next 3 slides with
your classmates

Glucokinase and Hexokinase
What same reaction (substrate and product) do
both hexokinase and glucokinase catalyze?
The product can be used for one of two glucose
metabolism pathways:
One that breaks down glucose = ?
One that stores glucose = ?

?

?

Product

Glucokinase and Hexokinase
Which line in the graph
represents:
Glucokinase
Hexokinase

A

Which intercepts (A-D)
represent:
Vmax
½ Vmax
Km

C

B
Abali, Emine E; Cline, Susan D; Franklin, David S; Viselli, Susan
M. Lippincott Illustrated Reviews: Biochemistry (Lippincott
Illustrated Reviews Series) (p. 108). Wolters Kluwer Health.

D

Glucokinase and Hexokinase
What does the higher Km tell you about the
affinity of glucokinase for glucose, as compared
to the affinity of hexokinase for glucose?
Which enzyme is therefore active even during fasting?
Hint: It is the one that can convert even small amounts
of glucose into energy

Which enzyme doesn’t become active until after a
high-carbohydrate meal?
Hint: It is the one that needs lots of glucose to be
activated
What do you think is the main role of this enzyme:
glycolysis, or glycogenesis?

Glucokinase and Hexokinase
Time to regroup for a class discussion…if you have
finished these slides before we are ready, please look
ahead to the following class discussion slides.

Glucokinase and Hexokinase
Let’s review
Reaction? Pathways?
Graph?
Fasting vs Feeding?

A

C

B

D

Glucokinase and Hexokinase
How does the liver fit into all this?
Glucokinase is found here
Nutrients absorbed from the intestine go here first
Allows glucokinase to convert excess glucose from a
meal to glycogen
Why can’t other tissues convert excess glucose to
glycogen? (Hint: What role does glucose-6-P play?)

https://commons.wikimedia.org/wiki/File:Depiction_of_a_man_suffering_from_fatty_liver.png

Glucokinase and Hexokinase
So if hexokinase can’t do glycogenesis, what
pathway does it feed into?
How does this explain its low Km?
Does it make sense that glucokinase has a higher Km?

Why do you think hexokinase is inhibited by
glucose-6-P, but glucokinase is not?

Glucokinase and Hexokinase
Let’s talk about Vmax
High Vmax = high capacity to convert substrate to
product
Allows glucokinase to phosphorylate lots of glucose to
glucose-6-P after a meal, so it can be stored as
glycogen
Review: What is significant about adding a P to glucose?

High Glucose
HK pathway
used for
energy
- Runs until
what
happens?

Glucose
Glucose
GK
HK

(-)

Glucose-6-P

Glycolysis

Glycogenesis

Glucose-6-P
GK pathway used for
storage
- High Vmax: lots of
glucose to G-6-P
- Continues as long as
glucose is high. Turns
off when glucose is
low again due to its
…?

Km: What else is it good for?
Km also helps determine enzyme efficiency
Kcat
Km

measures speed of P formation
once ES has been made
measures binding affinity of E and S
to make ES

E+S

ES

E+P

Enzyme Efficiency
Which is a more efficient enzyme: one with a
larger or smaller value for Kcat/Km?

Kcat
Km

measures speed of P formation
once ES has been made
measures binding affinity of E
and S to make ES

Enzyme Efficiency
Not surprisingly, enzymes with very important
physiological functions tend be very efficient.
What is the general purpose of each of the following
very efficient enzymes?
Carbonic anhydrase
Triose phosphate isomerase
Fumarase
Acetylcholinesterase

Enzyme Inhibition
M & M kinetics also aids in the study of enzyme
inhibition
What are some applications of enzyme inhibition?
Physiological feedback mechanisms
What example of this did we just see?

Clinical therapies
Ex: Use of pharmaceuticals to inhibit viral enzymes from
replicating in HIV

Enzyme Inhibition
Types
Reversible inhibition
Competitive, uncompetitive, noncompetitive
Follow M & M kinetics

Irreversible inhibition
Inhibition of allosteric enzymes (multisubunit)

Reversible Enzyme Inhibition:
Competitive
Competitive inhibition
Reversible binding of the inhibitor to the active site of
the enzyme

I

No product

S

Product

https://commons.wikimedia.org/wiki/File:Enzyme_inhibition_schemes.pn

Reversible Enzyme Inhibition:
Competitive
Example
Methotrexate
Used for chemotherapy
Competitively inhibits the enzyme that helps convert
folate (B9) into its coenzyme form
FYI: E = dihydrofolate reductase
Folate coenzymes normally feed into purine and
pyrimidine production – what are these used for?

How does methotrexate help prevent the spread of
cancer cells?

Reversible Enzyme Inhibition:
Competitive
Competitive inhibition
Why doesn’t Vmax change?
Does the affinity of the enzyme
appear to go up or down in the
presence of the inhibitor? Why?
Kmapp or Ki

https://commons.wikimedia.org/wiki/File:Enzyme_Inhibition_lineweaver-burk_plots.gif

Reversible Enzyme Inhibition:
Uncompetitive
Uncompetitive
Reversible binding of I to ES
Rare
Substrate
Product
formation

Inhibitor
No product
formation

https://commons.wikimedia.org/wiki/File:Enzyme_inhibition_schemes.pn

Reversible Enzyme Inhibition:
Uncompetitive
Uncompetitive inhibition
Is Vmax lower or higher with I?
Why?
Does the affinity of the enzyme
appear to go up or down in the
presence of the inhibitor? Why?

https://commons.wikimedia.org/wiki/File:Enzyme_Inhibition_lineweaver-burk_plots.gif

Reversible Enzyme Inhibition:
Noncompetitive
Noncompetitive
Reversible binding of I to E or ES
Example: Product inhibition
G-6-P inhibition of hexokinase
Substrate

Product
formation
Inhibitor
No product
formation
https://commons.wikimedia.org/wiki/File:Enzyme_inhibition_schemes.pn

Reversible Enzyme Inhibition:
Noncompetitive
Noncompetitive inhibition
Is Vmax lower or higher with I? Why?
Ki does not change
Binding to E appears to lower affinity,
binding to ES appears to increase
affinity: cancel out!

https://commons.wikimedia.org/wiki/File:Enzyme_Inhibition_lineweaver-burk_plots.gif

Practice At Home
Which are competitive, uncompetitive,
noncompetitive? How do you know?

https://commons.wikimedia.org/wiki/File:Enzyme_Inhibition_lineweaver-burk_plots.gif

Irreversible Enzyme Inhibition
Irreversible
Occurs when an inhibitor forms a covalent bond with
the active site of the enzyme
Compare and contrast to competitive inhibition

Examples
Penicillin
Blocks the enzyme required for synthesis of bacterial cell
walls

Lead poisoning
Review: Pb+2 binds to sulfhydryl groups in an enzyme
involved in heme synthesis
Changes its shape so it no longer functions
• How can this lead to anemia?

Inhibition of Multi-subunit Allosteric
Enzymes
Multi-subunit allosteric enzymes
Review: What happens when an activator, which could
be the substrate, binds?
What is the resulting shape of the binding graph?
What effect would an inhibitor have on the graph?
Enzyme

Substrate

Slow

Faster

Fastest

Inhibition of Multi-subunit Allosteric
Enzymes
Sigmoidal graph
Inhibitor produces a right shift
Enzyme

A
Enzyme plus
B inhibitor

C

Inhibition of Multi-subunit Allosteric
Enzymes
Example: phosphofructokinase 1 (PFK1)
Review: What does this enzyme do?
Binding of F-6-P to one subunit enhances binding of F-6P to other subunits
Creates a sigmoidal graph

Allosterically inhibited by ATP
What does the term “allosteric inhibition” tell us about
where ATP binds when it is acting as an inhibitor vs a
substrate?
How do you think the Km for these different sites
compare?

End of Enzyme Kinetics