Optical mapping of DNA: Single-molecule-based methods for mapping genomes

Single nucleotide polymorphisms (SNPs) are the most prevalent form of DNA sequence variation in humans. At the end of 2008, public databases contained more than 12 million entries of genetic variants in humans, the vast majority of which are SNPs [1]. While the incidence of SNPs in the human genome

## Communicated by Richard Cotton Determining the haplotypes in a diploid individual is a major technical challenge in genetic studies of human complex traits. Here we report a method of molecular haplotyping by directly imaging multiple polymorphic sites on individual DNA molecules simultaneously

## Abstract Single molecule microscopy techniques play an important role in the investigation of advanced DNA structures such as those created by the DNA origami method. Three single molecule microscopy techniques are particularly interesting for the investigation of complex self‐assembled three‐di

Large-scale hybridization-based genome mapping projects, such as the production of sequence-ready physical clone maps, call for robust and cheap DNA labeling techniques that are amenable to automation. We routinely use a highthroughput protocol based on fluorescence detection. DNA probes are labeled

Carbohydrate-Based Small-Molecule Scaffolds for the Construction of Universal Pharmacophore Mapping Libraries. -Two monosaccharide scaffolds (IV) and (V), possessing three sites of diversification, the carboxylic acid moiety, the free hydroxyl function, and the protected amino group, are prepared as