Difficulty: Easy
Correct Answer: Four chains: two alpha and two beta
Explanation:
Introduction:Hemoglobin is a classic example of quaternary structure, where multiple polypeptide subunits assemble into a functional protein complex. Understanding its subunit stoichiometry is foundational for physiology and biochemistry.
Given Data / Assumptions:
Concept / Approach:Recall that adult HbA is a tetramer with 2 alpha and 2 beta chains (α2β2). Variants exist (e.g., fetal hemoglobin α2γ2), but stoichiometry remains four subunits.
Step-by-Step Solution:
1) Evaluate counts: Hemoglobin is not dimeric (reject option b).2) It is not trimeric, pentameric, or hexameric (reject options a, d, e).3) The canonical composition is α2β2, a tetramer: choose option c.Verification / Alternative check:Classical structural studies and oxygen-binding behavior (sigmoidal curve) depend on a four-subunit assembly enabling cooperativity.
Why Other Options Are Wrong:
a, d) Incorrect subunit numbers and ratios.b) Dimer would not display typical cooperativity.e) Trimeric arrangement is not hemoglobin.Common Pitfalls:Confusing subunit count with heme count; each of the four chains carries one heme, totaling four heme groups per tetramer.
Final Answer:α2β2 (four chains: two alpha and two beta).
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