Ligation detection reaction-TaqMan procedure for single nucleotide polymorphism detection on genomic DNA.

In this article, we describe a genotyping approach applicable to both individual and multiplexed single nucleotide polymorphism (SNP) analysis, based on a ligation detection reaction (LDR) performed directly on genomic DNA. During the ligation, the biallelic state of the SNP locus is converted into a bimarker state of ligated detector oligonucleotides. The state of the markers is then determined by a 5'-nuclease assay (TaqMan) with universal fluorescent probes.

Ligation-based synthesis of oligonucleotides with block structure.

We describe here a method for the synthesis of oligonucleotides with block structure (padlock probes, primers for multiplex polymerase chain reaction (PCR), and ligation-independent cloning), based on the ligation of presynthesized parts by T4 DNA ligase. The advantages of this approach are: (i) suitability of the technology for any producer-from synthesis company to laboratory, (ii) high quality and adjustable scale of synthesis, and (iii) possibility of including any modified bases inexpensively in the common part of the oligonucleotide. Clear difference of sizes of products and substrates makes the synthesis amenable to automation.

Rapid construction of sequencing templates by random insertion of antibiotic resistance genes.

We describe a novel and handy method for generating a population of templates for sequencing. The method is based on the random insertion of antibiotic resistance gene in plasmid DNA digested by DNase I. The advantages of this approach are the small quantity of DNA necessary for mutagenesis and the complete independence from the restriction map of the plasmid.