A novel multistep method for generating precise unidirectional deletions using BspMI, a class-IIS restriction enzyme.

A novel approach is described that permits the introduction of unidirectional deletions into a cloned DNA fragment, in a precisely controlled manner. The method is based on the use of a special vector and a class-IIS restriction endonuclease, BspMI, which produces staggered cuts 4 and 8 nucleotides (nt) to the 3' from its recognition site 5'-ACCTGC-3'. The DNA fragment is inserted into the pUC19-based plasmid, which contains a unique BspMI recognition site, and the appropriate number of cleavage-and-deletion cycles is performed, each cycle removing 4 bp. Since the recognition site is not affected by the BspMI cleavage, no recloning of the DNA fragment is necessary. Each cycle consists of BspMI cleavage, removal of the 4-nt single-stranded cohesive ends with mung bean nuclease (MB), and blunt-end ligation to recircularize the plasmid. The shortened plasmid is reintroduced into the host, after one or after several such 4-bp deletion cycles. When DNA is inserted into the multiple cloning site in the lacZ alpha gene, the progress of 4-bp removal can be followed by determining the Lac phenotype, since removal of multiples of 3 bp retains the reading frame while other kinds of deletions distort (or restore) the reading frame. Loss of pre-existing restriction sites or creation of new ones also permits monitoring the progress of the deletion process.(ABSTRACT TRUNCATED AT 250 WORDS)