Abstract
Clone-based genome maps can be constructed by determining the presence or absence of sequence-tagged sites (STSs) in a redundant collection of yeast artificial chromosome clones (YACs). While STS-content mapping has proven to be an effective means of ordering clone ends and STSs along chromosomes, the exact physical map positions of these landmarks are not determined. This fundamental weakness can be overcome by RecA-assisted restriction endonuclease (RARE) cleavage, a method that exploits the binding specificity on duplex DNA of a RecA-protein-oligodeoxynucleotide complex to enhance the cleavage specificity of a restriction endonuclease. This technique allows selective cleavage at individual members of a large set of restriction sites. RARE-cleavage mapping was applied to a contig comprising 5 overlapping YACs spanning 580 kb on human chromosome 14. An STS-content map comprising 10 YAC-end specific STSs and one internal STS was constructed. RARE cleavage was performed on 2 YACs that span the entire contig at the EcoRI sites defining the vector-insert junctions of all 5 YACs, as well as at a HhaI site within the STS that was initially used to screen the YAC library for the clones in the contig. The sizes of the RARE-cleavage fragments were measured by pulsed-field gel electrophoresis and used to convert the STS-content map into a true physical map that indicates precise positions of clone ends and STSs.
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