Q.8 During transcription
- (A) DNA Gyrase introduces negative supercoils and DNA Topoisomerase I removes negative supercoils
- (B) DNA Topoisomerase I introduces negative supercoils and DNA Gyrase removes negative supercoils
- (C) Both DNA Gyrase and DNA Topoisomerase I introduce negative supercoils
- (D) Both DNA Gyrase and DNA Topoisomerase I remove negative supercoils
Transcription by RNA polymerase generates torsional stress: positive supercoils ahead, negative supercoils behind (twin-domain model). Topoisomerases regulate this in bacteria. This article solves the MCQ, identifying (A) as correct for exam success in biotechnology.
Supercoiling Dynamics in Transcription
RNA polymerase rotation unwinds DNA ahead (+ supercoils) and overwinds behind (- supercoils). DNA gyrase (type II topoisomerase) uses ATP to introduce negative supercoils, countering positive ones ahead. DNA topoisomerase I relaxes negative supercoils behind, maintaining template topology.
Correct Answer: (A) DNA Gyrase introduces negative supercoils and DNA Topoisomerase I removes negative supercoils
Gyrase resolves positive supercoils by converting them to negative ones; Topo I specifically relaxes excess negative supercoils. This balance supports processive transcription in E. coli and relatives.Explanation of All Options
Evaluate each based on enzymatic mechanisms:
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(A) DNA Gyrase introduces negative supercoils and DNA Topoisomerase I removes negative supercoils
Correct. Gyrase acts ahead of RNAP; Topo I behind, as validated by ChIP-seq showing co-recruitment to transcription units. -
(B) DNA Topoisomerase I introduces negative supercoils and DNA Gyrase removes negative supercoils
Incorrect. Topo I relaxes (removes) negative supercoils via single-strand nicks; gyrase introduces them. -
(C) Both DNA Gyrase and DNA Topoisomerase I introduce negative supercoils
Incorrect. Topo I relaxes, doesn’t introduce; only gyrase does via ATP-dependent double-strand passage. -
(D) Both DNA Gyrase and DNA Topoisomerase I remove negative supercoils
Incorrect. Gyrase introduces negative supercoils; both don’t remove them—Topo I relaxes negatives, gyrase targets positives indirectly.
Option Gyrase Action Topo I Action Accurate? (A) Introduces negatives Removes negatives Yes (B) Removes negatives Introduces negatives No (C) Introduces negatives Introduces negatives No (D) Removes negatives Removes negatives No Biotech Relevance
Gyrase inhibitors (quinolones) block transcription; Topo I poisons aid research. For bioinformatics, model supercoiling in sequence analysis—align with molecular biology workflows.
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