Q.55 A double helical DNA molecule is composed of 32 mol % of adenosine. The mol % of cytosine in
this DNA molecule is _____.​

The mol% of cytosine in this double helical DNA molecule is 18.
Chargaff’s rules dictate equal mol% of adenine (A) to thymine (T), and guanine (G) to cytosine (C), in double-stranded DNA.​​
Given 32 mol% adenosine (A), apply these base-pairing equalities to find C.​

Step-by-Step Solution

Adenosine refers to adenine (A) residues in DNA context. Thus, mol% A = 32%.​
Mol% T = mol% A = 32%, since A pairs with T via two hydrogen bonds.​
A + T + G + C = 100%, so G + C = 100% – 32% – 32% = 36%; and since G = C, mol% C = 36%/2 = 18%.​

Option Analysis

This fill-in-the-blank question (common in CSIR NET Life Sciences) expects a numeric answer without listed options, but typical distractors include:

• 32%: Matches A but ignores G=C pairing.​

• 36%: Equals G+C total, not C alone.​

• 64%: Incorrectly assumes A+T only (ignores G=C).​

• 18%: Correct, as derived from (100 – 2×32)/2.​

Chargaff’s Rules Explained

First Parity Rule: In dsDNA, %A = %T and %G = %C globally, validating Watson-Crick model.​​
Second Parity Rule: Holds per strand, ensuring bidirectional complementarity.​
Purines (A+G) equal pyrimidines (T+C), stabilizing the helix.​
For CSIR NET (Unit 3: Inheritance Biology), memorize: Given one base, compute pairs sequentially.​

Exam Application

Such problems test base composition without sequencing data. Practice: If C=20%, then G=20%, A=T=30% each.​
Slug: double-helical-dna-32-mol-adenosine-cytosine