Enzymes, Kinetics & Carbohydrates | Latest Q&A Verified |
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Q1: In the Michaelis-Menten equation, what does the Michaelis constant (Km)
represent?
A. The maximum velocity of the enzyme-catalyzed reaction
B. The substrate concentration at which the reaction velocity is half of Vmax [CORRECT]
C. The turnover number of the enzyme
D. The catalytic efficiency of the enzyme
Correct Answer: B
Rationale: Km is defined as the substrate concentration [S] at which the reaction
velocity (v) equals half the maximum velocity (Vmax/2). It is a measure of the enzyme's
affinity for its substrate—a lower Km indicates higher affinity (less substrate needed to
reach half-saturation). Option A describes Vmax, not Km. Option C describes kcat, the
turnover number (molecules of substrate converted to product per enzyme active site
per unit time). Option D describes kcat/Km, the specificity constant measuring catalytic
efficiency. Km has units of concentration (mM or μM) and is characteristic for each
enzyme-substrate pair under specific conditions.
Q2: Which type of enzyme inhibition results in an increased apparent Km but unchanged
Vmax?
A. Noncompetitive inhibition
B. Uncompetitive inhibition
C. Competitive inhibition [CORRECT]
,D. Mixed inhibition
Correct Answer: C
Rationale: Competitive inhibition occurs when the inhibitor (I) structurally resembles the
substrate and binds reversibly to the enzyme's active site, competing directly with
substrate binding. This increases the apparent Km (more substrate needed to reach
half-Vmax) because the inhibitor reduces effective enzyme availability, but Vmax
remains unchanged because at infinite substrate concentration, substrate outcompetes
the inhibitor and the reaction can still reach the same maximum velocity. Option A
(noncompetitive) decreases Vmax with unchanged Km. Option B (uncompetitive)
decreases both Km and Vmax proportionally. Option D (mixed) decreases Vmax and
either increases or decreases Km depending on the relative affinity for E versus ES
complex.
Q3: On a Lineweaver-Burk plot (1/v vs. 1/[S]), how does competitive inhibition appear
compared to the uninhibited enzyme?
A. Lines intersect on the y-axis (same y-intercept, different x-intercepts) [CORRECT]
B. Lines intersect on the x-axis (same x-intercept, different y-intercepts)
C. Parallel lines with different slopes
D. Identical lines with no change in slope or intercepts
Correct Answer: A
Rationale: The Lineweaver-Burk equation is: 1/v = (Km/Vmax)(1/[S]) + 1/Vmax. In
competitive inhibition, Vmax is unchanged (same y-intercept = 1/Vmax), but apparent
Km increases (x-intercept = -1/Km becomes less negative, moving toward origin).
Therefore, lines for different inhibitor concentrations intersect on the y-axis. Option B
describes noncompetitive inhibition (same Km, different Vmax). Option C describes
uncompetitive inhibition (parallel lines due to proportional changes in Km and Vmax).
, Option D would indicate no inhibition. This graphical analysis is essential for identifying
inhibition mechanisms in laboratory and clinical settings.
Q4: The turnover number (kcat) of an enzyme is defined as:
A. The substrate concentration at half-maximal velocity
B. The number of substrate molecules converted to product per enzyme active site per
unit time when the enzyme is saturated [CORRECT]
C. The ratio of Vmax to total enzyme concentration divided by the molecular weight
D. The equilibrium constant for the enzyme-substrate complex formation
Correct Answer: B
Rationale: kcat = Vmax/[E]total, representing the catalytic constant or turnover number.
It indicates how many substrate molecules each enzyme active site converts to product
per second when fully saturated (at Vmax). For example, a kcat of 1000 s⁻¹ means each
active site processes 1000 substrate molecules per second. Option A defines Km.
Option C incorrectly includes molecular weight—kcat uses molar enzyme concentration.
Option D describes the dissociation constant (Ks), not kcat. kcat values range from 1 to
10⁷ s⁻¹, with carbonic anhydrase among the fastest known enzymes (kcat ≈ 10⁶ s⁻¹).
Q5: Catalytic efficiency is best described by which parameter?
A. Km alone
B. Vmax alone
C. kcat/Km [CORRECT]
D. The reciprocal of Vmax
Correct Answer: C
Rationale: kcat/Km (the specificity constant) measures catalytic efficiency and reflects
how efficiently an enzyme converts substrate to product at low substrate