Q.34 The extra-chromosomal heredity unit, circular in nature is called (1) X-Factor (2) Plasmid (3) Cosmid (4) RecA Protein

Q.34 The extra-chromosomal heredity unit, circular in nature is called

(1) X-Factor
(2) Plasmid
(3) Cosmid
(4) RecA Protein

The correct answer is (2) Plasmid.

Plasmids are small, circular, double-stranded DNA molecules that exist independently of the chromosomal DNA in bacteria and some other organisms, serving as extrachromosomal units of heredity.

Option Analysis

X-Factor

X-Factor refers to an unknown nutritional factor discovered by Griffith in 1928 that supports growth of certain bacteria like Haemophilus influenzae, but it is not a DNA-based hereditary unit—it’s a chemical nutrient, unrelated to extrachromosomal genetics.

Plasmid

Plasmids are autonomously replicating, circular DNA molecules typically 1-200 kb in size, found mainly in prokaryotes. They carry genes for antibiotic resistance, virulence, or conjugation, enabling horizontal gene transfer and non-Mendelian inheritance outside the main chromosome.

Cosmid

Cosmids are artificially engineered vectors combining plasmid features with lambda phage cos sites for cloning large DNA fragments (up to 45 kb) in molecular biology. They are not naturally occurring extrachromosomal hereditary units.

RecA Protein

RecA is a crucial protein in bacteria involved in DNA repair, recombination, and the SOS response by facilitating homologous recombination. It is not a DNA molecule or hereditary unit—it’s an enzyme.

Plasmids represent the classic extra-chromosomal heredity unit that is circular in nature, playing a key role in bacterial genetics and biotechnology. This extra-chromosomal heredity unit circular structure allows independent replication and gene transfer, vital for competitive exams like GATE Life Sciences.

What Defines an Extra-Chromosomal Heredity Unit?

These units carry genetic information outside the nuclear or main bacterial chromosome, often showing maternal or cytoplasmic inheritance patterns distinct from Mendelian laws. Plasmids exemplify this as small, closed-loop DNA that self-replicates using host machinery.

Key features include:

  • Circular, supercoiled topology for stability.

  • Size: 1-200 kb, with origins of replication (ori).

  • Genes for non-essential traits like resistance or toxins.

Plasmid: The Core Extra-Chromosomal Unit

Found primarily in bacteria, plasmids enable rapid evolution via conjugation. Examples: F-plasmid (fertility), R-plasmid (resistance). In eukaryotes, similar elements exist as mitochondrial DNA, but bacterial plasmids define the classic model.

Common Misconceptions from Exam Options

  • X-Factor: A growth factor, not DNA.

  • Cosmid: Synthetic cloning tool.

  • RecA Protein: Recombination protein, not hereditary DNA.

Feature Plasmid Cosmid RecA Protein X-Factor
Structure Circular DNA Hybrid vector Protein Nutrient
Hereditary? Yes, extrachromosomal Artificial No No
Natural? Yes No Yes (enzyme) Yes (chemical)

This knowledge is essential for molecular biology sections in exams, emphasizing plasmids’ role in genetic engineering like recombinant DNA technology.

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