Sanger Sequencing Chain Termination

Q.38 In Sanger's DNA sequencing, for chain termination of replication 1. 5' - methylcytosine 2. 2', 3' -dideoxy analog 3. 2', 3' - deoxy analog 4. 2', 3' - cyclic cAMP

Q.38 In Sanger’s DNA sequencing, for chain termination of replication

1. 5′ – methylcytosine

2. 2′, 3′ -dideoxy analog

3. 2′, 3′ – deoxy analog

4. 2′, 3′ – cyclic cAMP

Sanger DNA Sequencing Chain Termination

Sanger sequencing uses chain termination via 2′,3′-dideoxy analogs for precise DNA base reading. The correct answer is option 2.

Sanger Sequencing Overview

Developed by Frederick Sanger in 1977, this first-generation method relies on DNA polymerase extending primers with normal dNTPs until a chain-terminating ddNTP incorporates randomly. Lacking a 3′-OH group, ddNTPs prevent phosphodiester bond formation, yielding fragments of varying lengths separated by electrophoresis. Fluorescent or radioactive labels on ddNTPs reveal the sequence via peak patterns.

Correct Answer: 2′,3′-Dideoxy Analog

Option 2: 2′,3′-dideoxy analog (ddNTPs)
These are dideoxynucleotide triphosphates (ddATP, ddCTP, ddGTP, ddTTP) missing hydroxyls at both 2′ and 3′ ribose positions. Incorporation halts extension, creating a nested set of fragments ending at each base type for ladder-based sequencing. Used in low ratios with dNTPs for controlled termination.

Why Other Options Fail

  • Option 1: 5′-methylcytosine
    Modified base in epigenetics for DNA methylation studies; doesn’t terminate chains or block polymerase—used in bisulfite sequencing instead.

  • Option 3: 2′,3′-deoxy analog
    Incorrect nomenclature; deoxy nucleotides (dNTPs) are standard building blocks with 2′-H but intact 3′-OH, enabling elongation, not termination.

  • Option 4: 2′,3′-cyclic cAMP
    cyclic AMP (cAMP) is a signaling molecule regulating gene expression via second messengers; no role in DNA replication or sequencing.

Option Mechanism Sequencing Role
1. 5′-methylcytosine Base methylation Epigenetic marking, no termination 
2. 2′,3′-dideoxy analog (Correct) Dual deoxy blocks 3′-OH Chain termination via ddNTPs 
3. 2′,3′-deoxy analog Standard dNTP structure Normal elongation substrate 
4. 2′,3′-cyclic cAMP Ribose cyclization Cellular signaling, irrelevant 
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