Pierre Prentki scite author profile

Gene 32 from bacteriophage T4 is transcribed as precursor transcripts which are processed to a stable product. This processing of the gene 32 mRNA was observed in RNase III or P‐deficient strains of Escherichia coli. However, after infection of an RNase E‐deficient strain, the amount of processed transcript was significantly reduced while the levels of the precursor transcripts remained high. RNase E therefore appears to have an essential role in the processing of the gene 32 mRNA. We have mapped the exact 5′ end of the processed transcript by primer extension. The cleavage occurs near a stem‐loop structure at a site which shows some similarity to other known RNase E cleavage sites. The effects of the processing on the differential stability of the upstream and downstream sequences, and on gene expression, are discussed.

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Escherichia coli integration host factor bends the DNA at the ends of IS1 and in an insertion hotspot with multiple IHF binding sites.

Prentki

1987

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The integration host factor of Escherichia coli (IHF) is a small, histone‐like protein which participates in the integration of bacteriophage lambda into the E. coli chromosome and in a number of regulatory processes. Our recent footprinting analysis has shown that IHF binds specifically to the ends of the transposable element IS1, as well as to several sites within a short segment of the plasmid pBR322. We have extended our studies of the binding of the IHF molecule to these sites in vitro using a gel retardation assay. We report here that IHF bends the DNA upon binding, as judged from the strong cyclic dependence of the protein‐induced mobility shift on the position of the binding site. Using cloned, synthetic ends of IS1 as substrates, we have found that some mutations within the conserved bases of the IHF consensus binding sequence abolish binding, and that alterations of the flanking sequences can greatly reduce IHF binding. The presence of multiple IHF sites on a single DNA fragment increases binding very little, indicating that IHF does not bind cooperatively in this complex. We discuss the possibility that DNA bending is related to the role IHF plays in forming and stabilizing nucleoprotein complexes, and suggest that bending at the IHF sites may be important to its diverse effects in the cell.

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Replication of the prophage P1 during the cell cycle of Escherichia coli

1977

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We have followed, by DNA-DNA hybridization, the variation in the number of copies of prophage P1 relative to two chromosomal markers when the doubling time of the host cells is modified by a change in carbon source. The ratio of P1/chromosome terminus undergoes a twofold decrease when the cell doubling time increases from 24 to 215 min, whereas the ratio of P1/chromosome origin increases 1.4 fold; both ratios tend towards unity at slow growth rates. This suggests that the replication of prophage P1 is not simultaneous with chromosome initiation or chromosome termination. The chromosome replication time is unaffected by the presence of P1, and remains constant over the range of doubling times studied, with a value of about 4o min. Following amino acid starvation, the P1/chromosome origin ratio increases from 0.7 to 0.9, suggesting that P1 retains the ability to replicate after chromosome initiation has stopped and in the absence of essential amino acids. The results are discussed with reference to similar studies done on F and R1.

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The plasmid cloning vector pBR325 contains a 482 base-pair-long inverted duplication

Prentki

Karch

Iida

et al. 1981

Gene

204

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Pierre Prentki

In vitro insertional mutagenesis with a selectable DNA fragment

Processing of unstable bacteriophage T4 gene 32 mRNAs into a stable species requires Escherichia coli ribonuclease E.

Escherichia coli integration host factor bends the DNA at the ends of IS1 and in an insertion hotspot with multiple IHF binding sites.

Replication of the prophage P1 during the cell cycle of Escherichia coli

The plasmid cloning vector pBR325 contains a 482 base-pair-long inverted duplication

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