Genetic studies of the ends of a lacked‐in Kappa prophage in <i>Serratia marcescens</i> by transductional and vegetative crosses

Steiger, H.

doi:10.1002/jobm.3620310309

J. Basic Microbiol.

1991

DOI: 10.1002/jobm.3620310309

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Genetic studies of the ends of a lacked‐in Kappa prophage in Serratia marcescens by transductional and vegetative crosses

H. Steiger

Abstract: In temperate phage kappa of Serratia marcescens several special features of different phages are combined. The unessential genes lI, iny, cII and, at least to some extent, even the integrase gene int are not subject to negative control by the repressor, the product of gene cIII. A genetic map of the prophage was established using defective, heat-induced lysates of int- lysogens both in vegetative crosses with sus mutants of essential genes and in transduction of the four unessential genes to lysogenic recipien… Show more

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Cited by 2 publications

References 18 publications

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Involvement of two genes of superinfecting phage Kappa in curing and induction of prophage Psi in Serratia marcescens HY

Steiger

1993

J. Basic Microbiol.

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Prophage psi carried along with prophage y by Serratia marcescens HY is subject of moderate curing at heteroimmune superinfection of cells from stationary phase with phage kappa. Curing becomes considerably more frequent when the bacteria are non-lysogenic for y. Both psi, y-double-lysogenic and psi-single-lysogenic cells with a mutation in the ink gene are very efficiently cured of psi if infected by kappa tay, although this mutant was characterized as being deficient in transactivation of certain genes in prophage y. On the other hand to get efficiently cured after kappa wild-type infection these cells too must be devoid of a y prophage. Thus a y function turned on by tay+ seems to counteract the elimination of psi. However, interestingly enough psi curing is boosted by a further y function under special circumstances. Efficient curing depends on an intact kappa tap gene, a gene reported to cause transactivation of certain psi genes. Curing at kappa tay infection is specifically accompanied by induction of the psi prophage in a part of the infected cells. However, there is no such induction at kappa wild-type infection, either in the absence or presence of a y prophage. An explanation of these findings is suggested which includes an antirepressive effect exerted on psi and a hypothetical interaction between the products of genes tap and tay.

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Involvement of two genes of superinfecting phage Kappa in curing and induction of prophage Psi in Serratia marcescens HY

Steiger

1993

J. Basic Microbiol.

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Different restriction profiles of χ prophage in Serratia marcescens K and HY

Steiger

Kimpel

Mohasseb‐Karimlou

1996

J. Basic Microbiol.

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Temperate phage kappa originated from the defectively lysogenic Serratia marcescens strain K, from where it was liberated after uv irradiation with low efficiency. The phage is usually indicated on strain HY that can be easily lysogenized by it and rather efficiently uv-induced. Comparing the Eco RI restriction profiles of the kappa prophage in HY revealed a DNA rearrangement, by which the precursor structure in K is converted into the non-defective form. Apparently the fragment containing the pac sequence is concerned since a phage DNA probe prepared from the assumed initiation fragments of the first particles of the packaging series gave two signals instead of one with genomic K DNA. Since several independent new kappa isolates showed the same Eco RI restriction pattern as the original phage of ELLMAUER and KAPLAN (1959), the generation of kappa is a reproducible event.

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Genetic studies of the ends of a lacked‐in Kappa prophage in Serratia marcescens by transductional and vegetative crosses

Cited by 2 publications

References 18 publications

Involvement of two genes of superinfecting phage Kappa in curing and induction of prophage Psi in Serratia marcescens HY

Involvement of two genes of superinfecting phage Kappa in curing and induction of prophage Psi in Serratia marcescens HY

Different restriction profiles of χ prophage in Serratia marcescens K and HY

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