8. A frameshift mutation is caused by ____.  (A) 5-Bromouracil (B) Acridine (C) Glutathione (D) Hypoxanthine

8. A frameshift mutation is caused by ____.

(A) 5-Bromouracil

(B) Acridine

(C) Glutathione

(D) Hypoxanthine

Frameshift Mutation Explained: How Acridine Causes Frameshift Mutations

Introduction

Mutations are permanent alterations in the DNA sequence that can change gene function and protein synthesis. They are one of the primary sources of genetic variation and play a significant role in evolution, inherited diseases, cancer development, and microbial adaptation. Mutations may occur naturally during DNA replication or may be induced by physical, chemical, or biological mutagens. Depending on their nature, mutations can be classified as point mutations, frameshift mutations, chromosomal mutations, and genome mutations.

A frameshift mutation is one of the most severe forms of gene mutation because it alters the reading frame of messenger RNA during translation. This type of mutation usually results from the insertion or deletion of one or more nucleotides that are not in multiples of three. As a consequence, every codon downstream of the mutation changes, often producing a completely different amino acid sequence and frequently introducing a premature stop codon. Among chemical mutagens, acridine dyes are the classic agents responsible for inducing frameshift mutations because they insert themselves between adjacent DNA base pairs during replication.

Correct Answer

Correct Option: (B) Acridine

Detailed Explanation

Frameshift mutations occur when nucleotides are inserted into or deleted from a DNA sequence in numbers that are not divisible by three. Since the genetic code is read in triplets (codons), such insertions or deletions shift the reading frame, altering every codon downstream of the mutation. This usually produces nonfunctional or severely altered proteins.

Acridine compounds, such as acridine orange and proflavin, are intercalating agents. Their flat aromatic structure allows them to insert between adjacent DNA base pairs during replication. This intercalation distorts the DNA helix and causes DNA polymerase to insert or delete nucleotides, leading to frameshift mutations.

Because acridine specifically induces insertion and deletion mutations that change the reading frame, it is regarded as the classical chemical mutagen responsible for frameshift mutations.

Mechanism of Frameshift Mutation by Acridine

Acridine molecules slide between stacked DNA base pairs during replication. This changes the spacing between nucleotides and interferes with the normal movement of DNA polymerase. As a result, the enzyme may accidentally insert an extra nucleotide or skip one nucleotide during DNA synthesis. These insertion or deletion events alter the triplet reading frame, producing a frameshift mutation.

Explanation of Each Option

Option (A): 5-Bromouracil

This option is incorrect. 5-Bromouracil is a base analogue of thymine. It becomes incorporated into DNA and undergoes abnormal base pairing, causing transition point mutations rather than frameshift mutations.

Option (B): Acridine

This option is correct. Acridine dyes are intercalating agents that insert between DNA base pairs and induce nucleotide insertions or deletions, producing frameshift mutations.

Option (C): Glutathione

This option is incorrect. Glutathione is an antioxidant that protects cells against oxidative damage. It is not a mutagen and does not induce frameshift mutations.

Option (D): Hypoxanthine

This option is incorrect. Hypoxanthine is formed by the deamination of adenine and causes abnormal base pairing, leading primarily to transition mutations, not frameshift mutations.

Why Option (B) is Correct

Acridine molecules intercalate between DNA base pairs, disrupting normal DNA replication and causing insertion or deletion of nucleotides. Since these mutations alter the reading frame of the genetic code, they are classified as frameshift mutations.

Comparison of All Options

Option Compound Primary Effect Status
A 5-Bromouracil Transition point mutation Incorrect
B Acridine Frameshift mutation (Insertion/Deletion) Correct
C Glutathione Antioxidant Incorrect
D Hypoxanthine Transition point mutation Incorrect

Common Chemical Mutagens and Their Effects

Mutagen Mechanism Mutation Produced
Acridine DNA intercalation Frameshift mutation
5-Bromouracil Base analogue Transition mutation
Nitrous Acid Deamination Transition mutation
Hydroxylamine Cytosine modification Transition mutation
Ethyl Methanesulfonate (EMS) Alkylation Point mutation

Frameshift Mutation vs Point Mutation

Feature Frameshift Mutation Point Mutation
Cause Insertion or deletion Single base substitution
Reading Frame Shifted Unaffected
Protein Sequence Usually extensively altered Usually affects one amino acid
Severity Generally high Variable

Biological Significance

Frameshift mutations often have severe biological consequences because they change every codon downstream of the mutation. This frequently results in truncated or nonfunctional proteins due to the appearance of premature stop codons. Such mutations are associated with numerous inherited disorders, cancers, and microbial mutations affecting antibiotic resistance. Understanding mutagenic mechanisms is therefore essential in genetics, molecular biology, medicine, and biotechnology.

Final Answer

Acridine is an intercalating agent that inserts between DNA base pairs and causes nucleotide insertions or deletions during DNA replication, resulting in frameshift mutations.

Correct Option: (B) Acridine

Leave a Reply

Your email address will not be published. Required fields are marked *

Latest Courses