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Literature DB >> 295402

Ant-mediated inactivation of Salmonella phage L-specified repression at OR of prophage L.

Abstract

Ant product of phage P22 inactivates repression of prophage L at the right-hand operator OR and allows for transactivation of prophage gene 12. The transactivation efficiency observed with a series of phage and prophage recombinants, using single superinfection of a lysogenic bacterium, is about the same as that recently observed at OL of prophage L. This finding is in contrast to the failure to demonstrate derepression at OR of prophage L in an experimental system employing double superinfection (Prell, 1978a). The reasons for the differing results are discussed and it is shown that derepression by the ant product in trans at OR of the prophage is not modified to any significant degree by the immunity specificity (L or p22) of the prophage or of the superinfecting phage.

Entities: Gene Species

Mesh：

Substances：

Year: 1979 PMID： 295402 DOI： 10.1007/bf00334292

Source DB: PubMed Journal: Mol Gen Genet ISSN： 0026-8925

11 in total

8. Cis- and trans-activity of P22 antirepressor protein against c-repression specified by the closely related Salmonella phages L and Px1.

Authors: H H Prell
Journal: Mol Gen Genet Date: 1979-01-11

Ant-mediated inactivation of Salmonella phage L-specified repression at OR of prophage L.

1. Mechanism of action of Salmonella phage P22 antirepressor.

2. Dual control of lysogeny by bacteriophage P22: an antirepressor locus and its controlling elements.

3. Role of antirepressor in the bipartite control of repression and immunity by bacteriophage P22.

4. The role of ant-product of Salmonella phage P22 in the process of transactivation of prophage Px1 genes.

5. Regulation of gene expression in Salmonella phage P22. I. Genetic experiments involving P22 and Px1.

6. Evidence for two immunity regulator systems in temperature bacteriophages P22 and L.

7. Regulation of gene expression in Salmonella phage P22. II. Regulation of expression of late functions.

8. Cis- and trans-activity of P22 antirepressor protein against c-repression specified by the closely related Salmonella phages L and Px1.

9. Second locus of bacteriophage P22 necessary for the maintenance of lysogeny.

10. Ant-mediated transactivation of early genes in Salmonella prophage P22 by superinfecting virulent P22 mutants.

1. P22 antirepressor protein prevents in vivo recA-dependent proteolysis of P22 repressor.

2. Repression of ant synthesis early in the lytic cycle of phage P22.