Q.31 Pick the correct statement(s) with respect to the inter-conversion of the topoisomers of a circularly closed double stranded DNA. (A) Only one strand needs to be cut (B) Both strands have to be cut (C) No strand needs to be cut (D) ATP is required for inter-conversion

Q.31 Pick the correct statement(s) with respect to the inter-conversion of the topoisomers of a circularly closed double stranded DNA.

  • (A) Only one strand needs to be cut
  • (B) Both strands have to be cut
  • (C) No strand needs to be cut
  • (D) ATP is required for inter-conversion

    Correct answer: (A) and (D)

    Type I topoisomerases enable inter-conversion of topoisomers in circularly closed double-stranded DNA by cutting only one strand, while type II enzymes require cutting both strands; ATP is needed specifically for type II activities like those of DNA gyrase.

    Option Analysis

    Option (A): Only one strand needs to be cut
    Type I topoisomerases (IA and IB) create a transient single-strand break, allowing rotation to relax supercoils and interconvert topoisomers without altering linking number by 2. This mechanism supports inter-conversion, making (A) correct.

    Option (B): Both strands have to be cut
    Type II topoisomerases cut both strands to pass another double helix through, changing linking number by 2; however, type I enzymes achieve inter-conversion without this, so (B) does not apply universally.

    Option (C): No strand needs to be cut
    All topoisomerases require strand breakage (single or double) for strand passage or swivel mechanisms; no enzyme inter-converts topoisomers of closed circular DNA without cutting.

    Option (D): ATP is required for inter-conversion
    Type I topoisomerases work without ATP, but type II (including gyrase) hydrolyze ATP to drive strand passage and supercoiling; since the question allows multiple correct statements, (D) holds for type II-mediated inter-conversions.

    Introduction to DNA Topoisomers

    Circularly closed double-stranded DNA forms topoisomers differing in linking number (Lk), twist (Tw), and writhe (Wr), where Lk = Tw + Wr remains constant without topoisomerases. Inter-conversion between relaxed, positively, or negatively supercoiled forms occurs via enzymatic strand manipulation during replication and transcription.

    Type I Topoisomerases: Single-Strand Mechanism

    These enzymes cut one DNA strand, forming a phosphotyrosyl intermediate, allowing swivel or passage to relax supercoils by ±1 Lk units without ATP. Eukaryotic Topo IB and bacterial Topo IA exemplify this for efficient topoisomer inter-conversion.

    Type II Topoisomerases: Double-Strand and ATP-Dependent

    Type II enzymes cleave both strands (G-segment), pass another duplex (T-segment) through, and religate, altering Lk by ±2; ATP hydrolysis closes the N-gate for strand passage. DNA gyrase introduces negative supercoils, essential for bacterial topology.

    CSIR NET Exam Insights

    For questions like “inter-conversion of the topoisomers of a circularly closed double stranded DNA,” select (A) for Type I action and (D) for Type II ATP needs; (B) and (C) are mechanism-specific. Practice distinguishes these for competitive exams.

Leave a Reply

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

Latest Courses