Torsional tension in intracellular bacteriophage T4 DNA. Evidence that a linear DNA duplex can be supercoiled in vivo |
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Authors: | R R Sinden D E Pettijohn |
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Affiliation: | Department of Biochemistry, Biophysics and Genetics University of Colorado Health Sciences Center Denver, Col. 80262, U.S.A. |
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Abstract: | Torsional tension in intracellular bacteriophage T4 DNA and host cell DNA was measured in infected Escherichia coli cells using the trimethylpsoralen photobinding assay. Early in infection superhelical tension in the host E. coli DNA was gradually reduced until at 8 min post-infection there was no detectable tension. Negative torsional tension in the T4 DNA appeared transiently, reaching a maximum 4 to 6 min post-infection (at 32 °C) and declined to undetectable levels by 10 min. The maximum level of tension averaged over all infecting T4 DNA molecules was equivalent to superhelical density of about σ = ?0.03.Sedimentation studies of the psoralen-associated T4 DNA isolated from infected cells at 5 min post-infection indicated that this DNA was primarily in an intact linear form. This is the first evidence indicating that a linear DNA molecule can acquire torsional tension in vivo: the finding suggests that intracellular T4 DNA can be topologically restrained probably by interaction with other structures in the cell. Effects of inhibitors of DNA gyrase and effects of mutations in T4 gene 39 indicated that the observed torsional tension was introduced by E. coli DNA gyrase, not by the T4 topoisomerase. Studies of the number of nicks required to relax the tension suggest that the entire T4 genome is organized into one topological domain of supercoiling.The possible role of the negative superhelical tension in the initiation of T4 DNA replication was examined. Initiation of DNA replication occurred shortly after the accumulation of tension in T4 DNA. However, replication occurred at near-normal levels under conditions where acquisition of tension was blocked in T4 DNA. Results suggest that although a topoisomerase activity is required for the initiation of DNA replication, the observed torsional tension is not a prerequisite. |
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