Abstract
We have developed a simple method for isolation of SfiI linking clones from a eukaryotic genomic DNA. The method involves the physical separation of the small proportion of plasmids in a plasmid genomic library that are linearized by SfiI digestion, from the bulk of molecules that remain circular, by ordinary electrophoresis through high-percentage gels of SeaPlaque agarose. Following the isolation of linearized molecules, their recircularization, and introduction into Escherichia coli, 55% of recovered plasmids contained inserts of the expected size, and 73% of these had SfiI sites. This represented a 25-fold enrichment of linking clones expected to be present at a frequency of 1 60 in the original library of 4- 6-kb fragments of genomic DNA of the protozoan parasite Theileria parva. This approach is rapid and obviates the need for introduction of a selectable marker. It is uniquely appropriate for linking clones spanning SfiI sites as this enzyme leaves degenerate 3′ overhanging ends that preclude the direct ligation into vector sites required by most alternative strategies, but that favor the recircularization reactions used here.
Published Version
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