| Abstract: | A procedure has been designed for changing specific nucleotides in a DNA sequence with efficiency. The method involves the use of the specially constructed cloning vectors pBRS1, pHS1, and pHS2. These plasmids are derivatives of pBR322 in which the EcoRI-HindIII region has been replaced by synthetic duplexes carrying SmaI, HpaI and XhoI sites, in addition to EcoRI and HindIII sites. The DNA fragment to be mutagenized is cloned in pHS1 (or pBRS1, or pHS2) using restriction sites close to the SmaI and HpaI sites. The recombinant plasmid obtained is digested with one of these enzymes to produce double-stranded DNA with blunt ends. This linear DNA is a substrate for exonuclease III (or T4 DNA polymerase). The digestion under controlled conditions produces duplex with protruding single-stranded 5'-regions which include the site of the desired mutation. The synthesis of DNA by DNA-polymerase I (Klenow's fragment), primed in part by the synthetic oligonucleotide containing the desired mutation, leads to the linear heteroduplex. The closed circular heteroduplex is formed by ligation. After transformation into E. coli, DNA replication generates homoduplexes, some of which contain the mutation. Colony hybridization with the same 32P-labeled oligonucleotide is used to select mutants. The yield of the mutants is 10-20%. This technique can be extended to replicative form of M13 vectors. It can be also applied to any DNA sequence which has a unique site of restriction endonuclease generating blunt ends. |
