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Negative control of oriC plasmid replication by transcription of the oriC region

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Summary

We have demonstrated that the replication of the oriC plasmid, carrying the replication origin of the Escherichia coli chromosome, is inhibited by transcriptional readthrough from an oriC flanking region of the plasmid. This was drawn from an examination of the replication of an oriC plasmid, pKZ4, which bears the lacOP segment at the right-hand side of oriC (the asnA side) in such an orientation that transcription from the lac promoter proceeds towards oriC. Replication of pKZ4 was found to be drastically inhibited by inducing transcription from the lac promoter with IPTG, an inducer of the lactose operon. When trp transcription attenuator termination sequences were inserted near the right-hand end of the oriC region of pKZ4, the replication of the plasmid became considerably insensitive to the inhibitory effect of IPTG. This indicates that the inhibition is due to the frequent leftward transcription, which initiates at the lac promoter and proceeds into the oriC region. Since IPTG inhibits the replication of pKZ4, but not that of another coexisting oriC plasmid which is devoid of the lacOP segment, the replication inhibition is judged to act only in cis. Transcription from the promoter of the chloramphenicol resistance gene also caused the inhibition of oriC plasmid replication.

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Abbreviations

kb:

kilobase pairs

bp:

base pairs

Cm:

chloramphenicol

Sp:

spectinomycin

Tc:

tetracycline

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Author notes

  1. Masafumi Tanaka

    Present address: The Jackson Laboratory, 04609, Bar Harbor, ME, USA

  2. Sota Hiraga

    Present address: Department of Molecular Genetics, Institute for Medical Genetics, Kumamoto University Medical School, 862, Kumamoto, Japan

Authors and Affiliations

  1. Institute for Virus Research, Kyoto University, 606, Kyoto, Japan

    Masafumi Tanaka & Sota Hiraga

Authors
  1. Masafumi Tanaka
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  2. Sota Hiraga
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Communicated by K. Isono

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Tanaka, M., Hiraga, S. Negative control of oriC plasmid replication by transcription of the oriC region. Molec. Gen. Genet. 200, 21–26 (1985). https://doi.org/10.1007/BF00383307

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  • DOI: https://doi.org/10.1007/BF00383307

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