A broad-host-range in vivo pop-out and amplification system for generating large quantities of 50- to 100-kb genomic fragments for direct DNA sequencing
Abstract
A prerequisite for sequencing large genomes is to obtain 30- to 150-kb genomic DNA fragments in adequate quantity. Previously, we developed a system which enables one to excise and amplify in vivo such segments directly from the Escherichia coli genome. This system, which employed the yeast Flp/FRT elements for excision and the plasmid R6K-based replication machinery for DNA amplification, permits one to bypass conventional cloning [Pósfai et al. (1994) Nucleic Acids Res. 22, 2392-2398]. To extend the applicability of such a system to many species, we describe here a broad-host-range (bhr) system in which the amplification of the excised DNA fragment depends on the oriV element and the Rep (TrfA) protein from the promiscuous RK2/RP4 plasmid. We have constructed insertion plasmids which carry the FRT and oriV sites. To introduce such plasmids into the appropriate position in the host genome, a short genomic sequence homologous to this position was cloned into the multiple cloning site (MCS) of the FRT/oriV insertion plasmid and then recombined into this position in the genome by RecA-mediated recombination. In such a manner, many strains with single FRT/oriV insertions at various positions could be generated. Subsequent genetic ...Continue Reading
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