Annealing vs. invasion in phage λ recombination

Mary M. Stahl; Lynn Thomason; Anthony R. Poteete; Trudee Tarkowski; Andrei Kuzminov; Franklin W. Stahl

Annealing vs. invasion in phage λ recombination

Mary M. Stahl, Lynn Thomason, Anthony R. Poteete, Trudee Tarkowski, Andrei Kuzminov, Franklin W. Stahl

Research output: Contribution to journal › Article › peer-review

Abstract

Genetic recombination catalyzed by λ's Red pathway was studied in rec⁺ and recA mutant bacteria by examining both intracellular λ DNA and mature progeny particles. Recombination of nonreplicating phage chromosomes was induced by double-strand breaks delivered at unique sites in vivo. In rec⁺ cells, cutting only one chromosome gave nearly maximal stimulation of recombination; the recombinants formed contained relatively short hybrid regions, suggesting strand invasion. In contrast, in recA mutant cells, cutting the two parental chromosomes at non-allelic sites was required for maximal stimulation; the recombinants formed tended to be hybrid over the entire region between the two cuts, implying strand annealing. We conclude that, in the absence of RecA and the presence of non-allelic DNA ends, the Red pathway of λ catalyzes recombination primarily by annealing.

Original language	English (US)
Pages (from-to)	961-977
Number of pages	17
Journal	Genetics
Volume	147
Issue number	3
State	Published - Nov 1997
Externally published	Yes

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title = "Annealing vs. invasion in phage λ recombination",

abstract = "Genetic recombination catalyzed by λ's Red pathway was studied in rec+ and recA mutant bacteria by examining both intracellular λ DNA and mature progeny particles. Recombination of nonreplicating phage chromosomes was induced by double-strand breaks delivered at unique sites in vivo. In rec+ cells, cutting only one chromosome gave nearly maximal stimulation of recombination; the recombinants formed contained relatively short hybrid regions, suggesting strand invasion. In contrast, in recA mutant cells, cutting the two parental chromosomes at non-allelic sites was required for maximal stimulation; the recombinants formed tended to be hybrid over the entire region between the two cuts, implying strand annealing. We conclude that, in the absence of RecA and the presence of non-allelic DNA ends, the Red pathway of λ catalyzes recombination primarily by annealing.",

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T1 - Annealing vs. invasion in phage λ recombination

AU - Stahl, Mary M.

AU - Thomason, Lynn

AU - Poteete, Anthony R.

AU - Tarkowski, Trudee

AU - Kuzminov, Andrei

AU - Stahl, Franklin W.

PY - 1997/11

Y1 - 1997/11

N2 - Genetic recombination catalyzed by λ's Red pathway was studied in rec+ and recA mutant bacteria by examining both intracellular λ DNA and mature progeny particles. Recombination of nonreplicating phage chromosomes was induced by double-strand breaks delivered at unique sites in vivo. In rec+ cells, cutting only one chromosome gave nearly maximal stimulation of recombination; the recombinants formed contained relatively short hybrid regions, suggesting strand invasion. In contrast, in recA mutant cells, cutting the two parental chromosomes at non-allelic sites was required for maximal stimulation; the recombinants formed tended to be hybrid over the entire region between the two cuts, implying strand annealing. We conclude that, in the absence of RecA and the presence of non-allelic DNA ends, the Red pathway of λ catalyzes recombination primarily by annealing.

AB - Genetic recombination catalyzed by λ's Red pathway was studied in rec+ and recA mutant bacteria by examining both intracellular λ DNA and mature progeny particles. Recombination of nonreplicating phage chromosomes was induced by double-strand breaks delivered at unique sites in vivo. In rec+ cells, cutting only one chromosome gave nearly maximal stimulation of recombination; the recombinants formed contained relatively short hybrid regions, suggesting strand invasion. In contrast, in recA mutant cells, cutting the two parental chromosomes at non-allelic sites was required for maximal stimulation; the recombinants formed tended to be hybrid over the entire region between the two cuts, implying strand annealing. We conclude that, in the absence of RecA and the presence of non-allelic DNA ends, the Red pathway of λ catalyzes recombination primarily by annealing.

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Annealing vs. invasion in phage λ recombination

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