Question

The pH at which the net charge on the enzyme molecule is zero is called __________

a.

pKₐ

b.

Half-life

c.

Isoelectric point

d.

Kₘ

Posted under Enzyme Technology

Answer: (c).Isoelectric point

Interact with the Community - Share Your Thoughts

Uncertain About the Answer? Seek Clarification Here.

Understand the Explanation? Include it Here.

Q. The pH at which the net charge on the enzyme molecule is zero is called __________

Similar Questions

Explore Relevant Multiple Choice Questions (MCQs)

Q. Calculate the ionic strength of 0.2 M solution of Calcium chloride?

Q. The rate of enzyme catalyzed reaction decreases with an increase in ionic strength if the charges are identical.

Q. What does the equation, k = \(Ae^{\frac{-∆G}{RT}}\) represent?

Q. For every, 1000 fold increase in pressure, the Kₘ is _____________

Q. The equation \(t_{1/2}=\frac{0.693}{k_d}\) represents ___________

Q. If the rate of denaturation of enzyme Y is 1.5*10⁻⁴/min, then the half-life of enzyme Y is ______ mins.

Q. What is the rate of denaturation kd, if the half-life of an enzyme catalyzed reaction is 15.6 mins?

Q. The pH at which half the groups of a compound are ionized is referred to as _________

Q. If Kₐ for acetic acid is 1.78*10⁻⁵, the pKₐ of acetic acid is _________

Q. Substances which reduce the rate of enzyme catalyzed reactions are known as ____________

Q. The following rate equation represents _____________ inhibition.

\(V=\frac{V_{max} [S]}{K_m (1+\frac{I}{K_i})+[S]}\)

Q. Uncompetitive inhibition is most noticeable at low substrate concentration and can be overcome at high substrate concentration.

Q. Inhibition of invertase by sucrose falls into which category of inhibition?

Q. ______________ inhibition represent the following rate equation.

\(V=\frac{\left (\frac{V_{max}}{1+\frac{[I]}{K_i}}\right )[S]}{K_m+[S]}\)

Q. The __________ inhibition gives the following rate equation.

\(V=\frac{V_{max} [S]}{K_m+[S](1+\frac{[S]}{K_s})}\)

Q. In competitive inhibition, what happens to Vₘₐₓ and Kₘ if [I] = Kᵢ?

Q. Which of these is correct for mixed inhibition?

Q. What happens to Vₘₐₓ and Kₘ in case of uncompetitive inhibition when I = Kᵢ‘?

Q. If I = Kᵢ = Kᵢ‘, then what will happen to Vₘₐₓ and Kₘ when inhibitor acts non-competitively?

Q. Mercury causes irreversible inhibition.

Recommended Subjects

Are you eager to expand your knowledge beyond Enzyme Technology? We've handpicked a range of related categories that you might find intriguing.

Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!