Reaction Kinetics and Inhibition

Question 1

What is the order of a reaction?

Answer 1

It tells you how much the concentration of a reactant affects the rate

Order corresponds to the molecularity of the reaction = the number of molecules that must simultaneously collide to generate a product

Question 2

What is the individual order? Overall order? Rate equation?

Answer 2

Individual order - the power to which a concentration is raised in the rate equation
Overall order - the sum of the individual orders in the rate equation
Rate equation - rate = k[A][B]
k = rate constant

Question 3

What is first order? Second order?

Answer 3

First - the rate is proportional to the concentration

Second - the rate is proportional to the square of the concentration

Question 4

What was the first proposed equation?

Answer 4

E + S ⇌ ES ⇌ P + E

K1 - rate over first arrow
K2 - rate over second arrow
K-1 - rate coming back over first arrow

K2 is the rate determining step (slowest)

Question 5

How was the Michaelis-Meuten equation derived?

Answer 5

To derive the equation you have to make an assumption and the equation will differ slightly based on which assumption you assume
There were 2 possible assumptions:

1. Equilibrium assumption - E + S and ES are in equilibrium
2. Steady state assumption - ES maintains a steady state, as [S] > [E], until [S] is exhausted

Steady State was used

Question 6

What is the Michaelis-Menten equation?

Answer 6

Vo = Vmax[S] / Km + [S]

Question 7

What is the Mechaelis constant?

Answer 7

Km = K-1 + K2 / K1

Question 8

What is Vmax?

Answer 8

The maximal velocity/rate of a reaction, when the enzyme is completely saturated with its substrate in the ES form

Question 9

What is Km?

Answer 9

Substrate concentration that gives you 1/2 Vmax

Question 10

What does Km tells us?

Answer 10

Km tells us something about the affinity of the enzyme for the substrate:
Low Km = high affinity
High Km = low affinity

Question 11

What kind of graph is produced when plotting [S] against Vo?

Answer 11

Rectangular Hyperbola

It has an asymptote

Question 12

What is a measure of catalytic efficiency?

Answer 12

kcat/Km = specificity constant
Which is a useful indicator of relative catalytic efficiency

This ratio can’t be bigger than K1, most values are near the diffusion controlled limit of 10^8 to 10^9 M-1 s-1

Question 13

What is kcat?

Answer 13

The turnover number - the number of reaction processes that each active site catalyses per unit of time

kcat = Vmax/[E]T

[E]T = total enzyme conc

Question 14

What can be used to measure Km and Vmax?

Answer 14

A Lineweaver-Burke Plot
y = mx + c

1/Vo = Km/Vmax * 1/[S] + 1/Vmax

Question 15

How to draw a lineweaver-burke plot?

Answer 15

Plot 1/V on the y axis

Plot 1/[S] on the x axis

Question 16

What can we determine from a lineweaver-burke plot?

Answer 16

Y-intercept = 1/Vmax
X-intercept = 1/Km

Slope = Km/Vmax

Question 17

What is used to provide the information for a lineweaver-burke plot?

Answer 17

Assays - used to measure how much an enzyme there is

Continuous - e.g. measuring absorbance in a spectrophotometer
Discontinuous - stopping the reaction and measuring
Coupled - measuring another reaction coupled to the reaction we want to measure

Quantified by taking the initial rate of reaction (tangent to a curve)

Question 18

What is the problem with steady state kinetics?

Answer 18

It doesn’t reveal the number of intermediates in the enzyme cataylsed reaction
Therefore intermediates have to be identified through the use of spectroscopic techniques

Knowledge of intermediates is essential to confirm/eliminate proposed mechanisms

Question 19

What are bisubstrate reactions?

Answer 19

Reactions with multiple substrates yeilding multiple products
e.g.
Sequential reactions occur via single displacements
AND
Ping pong reactions occur via double displacements

Question 20

What are some types of sequential reactions?

Answer 20

Ordered mechanism - complusary order of the substrate addition to the enzyme

Random mechanism - both binding sites are present on the free enzyme (any order)

Question 21

What are ping pong reactions?

Answer 21

Group-transfer reactions in which one or more products are released before all substrates have been added

The substrates don’t encounter each other on the surface of the enzyme

Question 22

What are some factors affecting enzymes?

Answer 22

Temperature
pH
Substrate concentration
Enzyme concentration

Inhibitor presence/concentration

Question 23

Describe the effect of temperature on enzymes?

Answer 23

Non-covalent interactions can break and the protein can denature - disrupting the active site

Thermophilic enzymes can survive above 100 degree
Our enzymes are mesophilic
Psychrophilic enzymes - exist in freezing temperatures

Question 24

What do inhibitors do? Types?

Answer 24

They decrease enzyme activity

Irreversible - covalently binds so tightly to the enzyme it permenantly blocks enzyme activity

Reversible - diminishes activity but can be removed

Question 25

Types of reversible inhibitors?

Answer 25

Competitive - competes with the substrate for the binding site on the enzyme

Uncompetitive - Inhibitor binds to the ES complex

Non-competitive (mixed) - Can bind to both the E or the ES complex

Question 26

Describe competitive inhibition? Examples?

Answer 26

The inhibitor binds to the enzyme forming an EI complex
E.g. malonate is a competitive inhibitor for succinate going to fumarate
AND
using transition state analogs to inhibit the affects of HIV/AIDs

Question 27

What equations can work out Ki for competitive inhibition?

Answer 27

Vo = Vmax[S]/ aKm + [S]

a = 1 + [I]/Ki

a = apparent

Question 28

How does competitive inhibition affect Vmax and Km?

Answer 28

Vmax - unchanged

Km - increases

Question 29

Describe uncompetitive inhibition?

Answer 29

Inhibitor binds to the ES complex forming an ESI complex

Question 30

What equations can work out Ki for uncompetitive inhibition?

Answer 30

Vo = Vmax[S]/ Km + a’[S]

a’ = 1 + [I]/K’i

Question 31

How does uncompetitive inhibition affect Vmax and Km?

Answer 31

Vmax - Decreases

Km - Decreases

Question 32

Describe noncompetitive inhibition?

Answer 32

Can bind to both the E or the ES complex, forming either EI complex or a ESI complex

Question 33

What equations can work out Ki for noncompetitive inhibition?

Answer 33

Vo = Vmax[S]/ aKm + a’[S]

a = 1 + [I]/Ki 
a' = 1 + [I]/K'i

Question 34

How does noncompetitive inhibition affect Vmax and Km?

Answer 34

Vmax - Decreases

Km - Increase or decrease

Question 35

What is pure noncompetitive inhibition?

Answer 35

Only Vmax is affected and aKm remains unchanged

Said to be similar to irreversible inhibition