ABSTRACT
Objective: The aim of this study is to generate a mutation causing maturity-onset diabetes of the young (MODY) in Thai patients by insertion of a fourteen base-pair (bp) into a HNF-1a gene using a modified site-directed ligase-independent mutagenesis (SLIM) method. Methods: Two pairs of long- and short-tailed primers were designed to amplify a plasmid construct containing a HNF-1a and to insert a 14-bp at a desired position. Long-tailed primers contained the overhanging 14-nucleotide (nt) insert at their termini which were complementary to each other. Polymerase chain reactions (PCR) were performed in two separated tubes using different pairs of primers. After amplifications, PCR products from both tubes were pooled together, denatured and then re-annealed to allow formation of double stranded DNA molecules containing the 14-bp insert within HNF-1a. The pooled and reannealed PCR products without ligation were transformed into competent E.coli cells to generate a ligated recombinant plasmid with a 14-bp insertion. Results: Five of 14 bacterial colonies contained the desired recombinant plasmid with a 14-bp insertion within HNF-1a The efficiency of the method for generation of recombinant plasmid was about 36 percent. Conclusion: This method is simple and rapid to insert a long stretch of nucleotides into a plasmid construct containing a gene of interest at a desired position. A recombinant plasmid containing an insertion mutation in a HNF-1a gene was successfully generated, allowing an opportunity to perform functional study of the mutated gene.