A novel method for converting common restriction enzymes into rare cutters: integration host factor-mediated Achilles' cleavage (IHF-AC)

Jósef Kur; Michael Koob; Adam Burkiewicz; Waclaw Szybalski

doi:10.1016/0378-1119(92)90437-T

A novel method for converting common restriction enzymes into rare cutters: integration host factor-mediated Achilles' cleavage (IHF-AC)

Jósef Kur, Michael Koob, Adam Burkiewicz, Waclaw Szybalski

Laboratory Medicine and Pathology

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

8 Scopus citations

Abstract

Integration host factor (IHF)-mediated protection against enzymatic methylation at ihf-overlapping sites provides the basis for this novel application of the Achilles' cleavage (AC) technique [Koob., Science 241 (1998) 1084-10861 for generating rare natural cleavage sites. When applying IHF-AC to plasmid, phage λ, Escherichia coli and yeast genomes, only a few of the EcoRI, MboI sites (sites overlapped the ihf sites)remained cleavable after prior methylation with the cognate M· EcoRI, M· HinfI, or Dam methyltransferases in the presence of IHF. Thus, IHF-AC essentially converted these enzymes into very rare cutters. The extent of cleavage could be controlled by varying the IHF:DNA ratio and temperature. Moreover, the method permits the genomic location and strength of the ihf sites to be determined.

Original language	English (US)
Pages (from-to)	1-7
Number of pages	7
Journal	Gene
Volume	110
Issue number	1
DOIs	https://doi.org/10.1016/0378-1119(92)90437-T
State	Published - Jan 2 1992

Keywords

(Methyltransferases
DNA-binding protein
Dam
EcoRI
HinfO
pulsed-field gel electrophoresis
recombinant DNA)

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title = "A novel method for converting common restriction enzymes into rare cutters: integration host factor-mediated Achilles' cleavage (IHF-AC)",

abstract = "Integration host factor (IHF)-mediated protection against enzymatic methylation at ihf-overlapping sites provides the basis for this novel application of the Achilles' cleavage (AC) technique [Koob., Science 241 (1998) 1084-10861 for generating rare natural cleavage sites. When applying IHF-AC to plasmid, phage λ, Escherichia coli and yeast genomes, only a few of the EcoRI, MboI sites (sites overlapped the ihf sites)remained cleavable after prior methylation with the cognate M· EcoRI, M· HinfI, or Dam methyltransferases in the presence of IHF. Thus, IHF-AC essentially converted these enzymes into very rare cutters. The extent of cleavage could be controlled by varying the IHF:DNA ratio and temperature. Moreover, the method permits the genomic location and strength of the ihf sites to be determined.",

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AU - Koob, Michael

AU - Burkiewicz, Adam

AU - Szybalski, Waclaw

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N2 - Integration host factor (IHF)-mediated protection against enzymatic methylation at ihf-overlapping sites provides the basis for this novel application of the Achilles' cleavage (AC) technique [Koob., Science 241 (1998) 1084-10861 for generating rare natural cleavage sites. When applying IHF-AC to plasmid, phage λ, Escherichia coli and yeast genomes, only a few of the EcoRI, MboI sites (sites overlapped the ihf sites)remained cleavable after prior methylation with the cognate M· EcoRI, M· HinfI, or Dam methyltransferases in the presence of IHF. Thus, IHF-AC essentially converted these enzymes into very rare cutters. The extent of cleavage could be controlled by varying the IHF:DNA ratio and temperature. Moreover, the method permits the genomic location and strength of the ihf sites to be determined.

AB - Integration host factor (IHF)-mediated protection against enzymatic methylation at ihf-overlapping sites provides the basis for this novel application of the Achilles' cleavage (AC) technique [Koob., Science 241 (1998) 1084-10861 for generating rare natural cleavage sites. When applying IHF-AC to plasmid, phage λ, Escherichia coli and yeast genomes, only a few of the EcoRI, MboI sites (sites overlapped the ihf sites)remained cleavable after prior methylation with the cognate M· EcoRI, M· HinfI, or Dam methyltransferases in the presence of IHF. Thus, IHF-AC essentially converted these enzymes into very rare cutters. The extent of cleavage could be controlled by varying the IHF:DNA ratio and temperature. Moreover, the method permits the genomic location and strength of the ihf sites to be determined.

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KW - pulsed-field gel electrophoresis

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A novel method for converting common restriction enzymes into rare cutters: integration host factor-mediated Achilles' cleavage (IHF-AC)

Abstract

Keywords

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