Nucleic Acids Hybridization: Potentials and Limitations.- Selective Suppression of Polymerase Chain Reaction and Its Most Popular Applications.- Suppression Subtractive Hybridization.- Stem-Loop Oligonucleotides as Hybridization Probes and Their Practical Use in Molecular Biology and Biomedicine.- Normalization of cDNA Libraries.- Primer Extension Enrichment Reaction (PEER) and Other Methods for Difference Screening.- Subtractive Hybridization with Covalently Modified Oligonucleotides.- Coincidence Cloning: Robust Technique for Isolation of Common Sequences.- DNA Hybridization in Solution for Mutation Detection.- Current Attempts to Improve the Specificity of Nucleic Acids Hybridization.- Concepts on Microarray Design for Genome and Transcriptome Analyses.
Inhaltsverzeichnis
Nucleic Acids Hybridization: Potentials and Limitations. - Selective Suppression of Polymerase Chain Reaction and Its Most Popular Applications. - Suppression Subtractive Hybridization. - Stem-Loop Oligonucleotides as Hybridization Probes and Their Practical Use in Molecular Biology and Biomedicine. - Normalization of cDNA Libraries. - Primer Extension Enrichment Reaction (PEER) and Other Methods for Difference Screening. - Subtractive Hybridization with Covalently Modified Oligonucleotides. - Coincidence Cloning: Robust Technique for Isolation of Common Sequences. - DNA Hybridization in Solution for Mutation Detection. - Current Attempts to Improve the Specificity of Nucleic Acids Hybridization. - Concepts on Microarray Design for Genome and Transcriptome Analyses.
