Highly repressible expression system for cloning genes that specify potentially toxic proteins.
C D O'Connor,K. N. Timmis +1 more
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In this article, a highly repressible expression vector system that allows the cloning of potentially deleterious genes has been constructed and tested by measuring the inhibition of expression of traT, the gene for the TraT major outer membrane lipoprotein.Abstract:
A highly repressible expression vector system that allows the cloning of potentially deleterious genes has been constructed Undesired expression of a cloned gene was prevented (i) at the level of initiation of transcription, by the presence of the strong but highly repressible leftward promoter of bacteriophage lambda, lambda pL, and (ii) at the level of transcript elongation or translation, through synthesis of antisense RNA complementary to the mRNA of the cloned gene The system was tested by measuring the inhibition of expression of traT, the gene for the TraT major outer membrane lipoprotein Direct detection and functional assays indicated that an essentially complete inhibition of traT expression was obtained As a further test of the system, the gene encoding the EcoRI restriction endonuclease was cloned in the absence of the gene of the corresponding protective EcoRI modification methylase Transformants harboring this construct were only viable when both repression controls were operationalread more
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References
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Journal ArticleDOI
Mutants that overproduce TraTp, a plasmid-specified major outer membrane protein of Escherichia coli.
TL;DR: The isolation of a series of plasmid mutant derivatives that overproduction of TraTp was deleterious to bacterial growth, particularly that of minicell mutants of E. coli K-12.
Journal ArticleDOI
Cloned seventeen-nucleotide-long synthetic lactose operator is biologically active.
TL;DR: A 17-nucleotide-long synthetic DNA molecule constituting the minimal recognition sequence of the lactose operator has been cloned in E. coli using the vehicle pBR313 and a synthetic HindIII adaptor.