Question 61:

In a substrate-enzyme reaction, the term K_d denotes which one of the following?

(A) Equilibrium constant
(B) Dissociation constant
(C) Association constant
(D) Turnover rate

The correct answer is (B) Dissociation constant.

In substrate-enzyme reactions, Kd denotes the dissociation constant, measuring the equilibrium tendency of the enzyme-substrate (ES) complex to dissociate into free enzyme (E) and substrate (S), where Kd = [E][S]/[ES].

Option Breakdown

(A) Equilibrium constant

An equilibrium constant (Keq) describes overall reaction equilibrium (products/reactants), not specifically ES binding dissociation like Kd.​

(B) Dissociation constant

Correct; Kd quantifies binding affinity via Kd = k_off/k_on, where lower Kd indicates tighter binding. In rapid equilibrium kinetics, Km ≈ Kd.

(C) Association constant

Association constant (Ka = 1/Kd) measures binding strength, the inverse of dissociation; higher Ka means stronger affinity.​

(D) Turnover rate

Turnover rate (kcat) measures catalytic events per enzyme per second after ES formation, unrelated to binding equilibrium.​

Introduction to Substrate Enzyme Reaction Kd

Substrate enzyme reaction Kd represents the dissociation constant measuring ES complex stability, crucial for enzyme kinetics in GATE Life Sciences. Lower Kd signals higher substrate affinity.

Kd in Michaelis-Menten Kinetics

Kd = [E][S]/[ES] = k_{-1}/k_1; when kcat ≪ k_{-1}, Km ≈ Kd (rapid equilibrium). Steady-state Km = (k_{-1} + kcat)/k_1 ≥ Kd, reflecting both binding and catalysis.
Typical values: nanomolar for tight binders, micromolar for weaker.

Enzyme Kinetics Constants Table

Clarifies substrate enzyme reaction Kd for exams.​

GATE Exam Context

Links prior lipids (membrane fluidity affects enzyme activity) and liver function (enzyme synthesis); master Kd vs Km distinction for biochemistry kinetics PYQs.​