Enzymes and Kinetics MCQs

Welcome to our comprehensive collection of Multiple Choice Questions (MCQs) on Enzymes and Kinetics, a fundamental topic in the field of Biochemical Engineering. Whether you're preparing for competitive exams, honing your problem-solving skills, or simply looking to enhance your abilities in this field, our Enzymes and Kinetics MCQs are designed to help you grasp the core concepts and excel in solving problems.

In this section, you'll find a wide range of Enzymes and Kinetics mcq questions that explore various aspects of Enzymes and Kinetics problems. Each MCQ is crafted to challenge your understanding of Enzymes and Kinetics principles, enabling you to refine your problem-solving techniques. Whether you're a student aiming to ace Biochemical Engineering tests, a job seeker preparing for interviews, or someone simply interested in sharpening their skills, our Enzymes and Kinetics MCQs are your pathway to success in mastering this essential Biochemical Engineering topic.

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Enzymes and Kinetics MCQs | Page 4 of 11

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Q31.
When substrate [S] = KM (Michaelis-Menten constant), the velocity of an enzyme catalyzed reaction is about

a.

0.1 * Vmax

b.

0.2 * Vmax

c.

0.5 * Vmax

d.

0.9 * Vmax

Discuss
Answer: (c).0.5 * Vmax
Q32.
A classical noncompetitive inhibitor has

a.

no effect on substrate binding

b.

no effect on substrate binding and vice versa

c.

significant effect on substrate binding

d.

significant effect on substrate binding and vice versa

Discuss
Answer: (b).no effect on substrate binding and vice versa
Q33.
The active site of an enzyme differs from an antibody-antigen binding site in that the enzyme active site

a.

contains modified amino acids

b.

catalyzes a chemical reaction

c.

is complementary to a specific ligand

d.

contains amino acids without side chains

Discuss
Answer: (b).catalyzes a chemical reaction
Q34.
Enzymes are basically

a.

proteins

b.

vitamins

c.

fat

d.

carbohydrates

Discuss
Answer: (a).proteins
Q35.
Which of the following refers to pseudo steady state ?

a.

d(CE)/dt = 0

b.

d(Cp)/dt = 0

c.

d(CES)/dt = 0

d.

d(Cs)/dt = d(CES)/dt

Discuss
Answer: (c).d(CES)/dt = 0
Q36.
The slope of Lineweaver Burk plot for Michaelis Menten equation is

a.

Vmax/Km

b.

Km/Vmax

c.

1/Km

d.

Km.Vmax

Discuss
Answer: (b).Km/Vmax
Q37.
The initial velocity, V0, of an enzyme catalyzed reaction reaches Vmax as

a.

[S] = KM

b.

[S] = 10 * KM

c.

1/[S] = 1/KM

d.

1/[S] โ†’ 0

Discuss
Answer: (d).1/[S] โ†’ 0
Q38.
The usual method(s) to solve rate equation of simple enzyme kinetics is/are

a.

Michaelis Menten approach

b.

Briggs-Haldane approach

c.

Numerical solution approach

d.

all of these

Discuss
Answer: (d).all of these
Q39.
Michaelis Menten equation can also be written as

a.

(-Cs)/r = (Cs/rmax)+(Km/rmax)

b.

1/r = (1/rmax)+(Km/(rmax.Cs))

c.

r = rmax-(Km.r/Cs)

d.

All of these

Discuss
Answer: (d).All of these
Q40.
Which of the following step is assumed to be the slowest step in the Michaelis Menten equation?

a.

The substrate consuming step

b.

The product releasing step

c.

Formation of enzyme substrate complex

d.

None of these

Discuss
Answer: (b).The product releasing step
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