Chengling Ji scite author profile

Escherichia coli DNA topoisomerase I (encoded by the topA gene) is important for maintaining steady-state DNA supercoiling and has been shown to influence vital cellular processes including transcription. Topoisomerase I activity is also needed to remove hypernegative supercoiling generated on the DNA template by the progressing RNA polymerase complex during transcription elongation. The accumulation of hypernegative supercoiling in the absence of topoisomerase I can lead to R-loop formation by the nascent transcript and template strand, leading to suppression of transcription elongation. Here we show by affinity chromatography and overlay blotting that E. coli DNA topoisomerase I interacts directly with the RNA polymerase complex. The protein-protein interaction involves the ␤ subunit of RNA polymerase and the C-terminal domains of E. coli DNA topoisomerase I, which are homologous to the zinc ribbon domains in a number of transcription factors. This direct interaction can bring the topoisomerase I relaxing activity to the site of transcription where its activity is needed. The zinc ribbon C-terminal domains of other type IA topoisomerases, including mammalian topoisomerase III, may also help link the enzyme activities to their physiological functions, potentially including replication, transcription, recombination, and repair.DNA topoisomerases are ubiquitous enzymes that have functional roles in many vital cellular processes (1, 2). Among different classes of topoisomerases, type IA topoisomerases found in archea, prokaryotes, and eukaryotes share the mechanistic feature of cutting and rejoining a single strand of DNA via a 5Ј-phosphotyrosine linkage and homologous amino acid sequences (3). Escherichia coli DNA topoisomerase I (encoded by the topA gene) is the most extensively studied example of this class of enzyme. Its most apparent physiological role is the maintenance of steady-state DNA supercoiling (4, 5). During transcription, the movement of the RNA polymerase complex on the DNA template creates local transcription-driven supercoiling with negative supercoiling generated behind the RNA polymerase and positive supercoiling generated ahead of the RNA polymerase (6, 7). DNA gyrase is needed for removing the positive supercoils, and topoisomerase I is responsible for removing the excess negative supercoils. In the absence of topoisomerase I function due to mutation in the topA gene, the accumulation of hypernegative supercoiling can lead to R-loop formation by nascent transcription and template stranding with the consequent suppression of transcription elongation (8,9).In previous studies, Tn5 transposase was found to copurify with E. coli DNA topoisomerase I and inhibit the topoisomerase I activity (10). RNA polymerase was also found to copurify with Tn5 transposase, but the copurification was reduced in extracts from a topA mutant strain, suggesting that the interaction between RNA polymerase and DNA topoisomerase I was responsible for the copurification of RNA polymerase with Tn5 transposase (10). The p...

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RNase H overproduction allows the expression of stress-induced genes in the absence of topoisomerase I

Cheng¹,

Rui²,

Ji³

et al. 2003

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Induction of stress proteins in response to heat shock was found to be reduced significantly in Escherichia coli with vtopA mutation. RNase H overexpression in the vtopA mutant partially restored the c 32 -dependent induction of stress genes in response to high temperature and ethanol. The presence of overexpressed RNase H also improved the survival rate of the vtopA mutant after high temperature and oxidative challenges. Topoisomerase I is likely required during stress response for preventing accumulation of transcription-driven hypernegative supercoiling and R-loop formation at induced stress genes loci.

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Chengling Ji

Direct Interaction between Escherichia coli RNA Polymerase and the Zinc Ribbon Domains of DNA Topoisomerase I

RNase H overproduction allows the expression of stress-induced genes in the absence of topoisomerase I

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