Evaluation of microfluidic digital PCR for the detection of cancer biomarkers
Poster Sep 30, 2009
dPCR is achieved by sample partitioning prior to PCR amplification such that each reaction chamber contains one copy or less of target DNA. This dilution becomes the limiting factor and an accurate target molecule count is achievable. This study evaluates dPCR’s quantitative capabilities and investigates parameters influencing copy number quantification, using the Fluidigm Biomark instrument. Biomark technology combines dPCR theory with a microfluidics platform.
Applications of chemically modified synthetic guide RNA for CRISPR-Cas9 genome editingPoster
Our results indicate that MS modifications are required for experiments with co-electroporation of Cas9 mRNA and synthetic gRNA, yet have no impact on editing efficiency when delivered with lipid-based transfection reagents.READ MORE
Highly Accurate HCV Genotyping by Targeted Next Generation SequencingPoster
The recent fast advancement of next generation sequencing (NGS) technologies allowing for unprecedented speed and accuracy in analyzing viral genomes are opening new ways to further improve diagnostic genotyping of HCV.
Detecting resistance associated variants in HCV and HIVPoster
Objectives: to develop improved detection of clinically relevant viral mutations using ion torrent based NGS in an automated workflow.READ MORE