Pyrosequencing

The History of PyrosequencingPyro Mark® Instruments, Chemistry and Software for Pyrosequencing® Analysis.- Software-Based Pyrogram Evaluation.- Quantitative Validation and Quality Control of Pyrosequencing Assays.- Extended KRAS and NRAS Mutation Profiling by Pyrosequencing®.- Universal BRAF State Detection by the Pyrosequencing®-based U-BRAFAssay.- Pyrosequencing-based Identification of Low Frequency Mutations Enriched through Enhanced-ice-COLD-PCR.- Analysis of Mutational Hotspots in Routinely Processed Bone Marrow Trephines by PyrosequencingAnalysis of Copy Number Variation By Pyrosequencing using Paralogous Sequences.- Prenatal Diagnosis of Chromosomal Aneuploidies by Quantitative PyrosequencingHLA-B and HLA-C Supratyping by PyrosequencingAllele Quantification Pyrosequencing® at Designated SNP sites to Detect Allelic Expression Imbalance and Loss-of-heterozygosity.- Quantitative DNA Methylation Analysis by Pyrosequencing®.- Quantitative Methylation Analysis of the PCDHB Gene Cluster.- Assessment of Changes in global DNA Methylation Levels by Global Analysis of DNA 5-methylcytosine using the Luminometric Methylation Assay, LUMA.- Limiting Dilution Bisulfite Pyrosequencing: a Method for Methylation Analysis of Individual DNA Molecules in a Single or a Few Cells.- Detection of Loss of Imprinting by PyrosequencingAnalysis of DNA Methylation Patterns in Single Blastocysts by PyrosequencingAllele-specific DNA methylation detection by PyrosequencingSNP-based Quantification of Allele-Specific DNA Methylation Patterns by PyrosequencingDNA Methylation Analysis of ChIP Products at Single Nucleotide Resolution byPyrosequencingMultiplex Pyrosequencing®: Simultaneous Genotyping Based on SNPs from Distant Genomic Regions.-Detection of Drug-Resistant Mycobacterium tuberculosis.- Application of Pyrosequencing in Food Biodefense.- Forensic Analysis of Mitochondrial and Autosomal Markers using PyrosequencingTissue-specific DNA Methylation Patterns in Forensic Samples Detected By Pyrosequencing