Video: ESHG 2019 conference discussion panel: automated sample preparation
A result is only as good as the sample preparation that preceded it.
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A result is only as good as the sample preparation that preceded it.
ESHG 2019: Automated sample preparation using magnetic bead technology and KingFisher instruments.
Automated detection and isolation of pathogens for multiple samples types.
New opportunities for liquid biopsy: At automated workflow for isolating circulating tumor cells using KingFisher instruments.
A simple and sensitive method for nucleic acid extraction from virus-containing samples, with a range of viral loads.
Isolate high-quality, inhibitor-free DNA and RNA from human stool and other sample types suitable for metagenomics sequencing.
7 May 2020 | By PerkinElmer
High-throughput screening (HTS) cascades have evolved to ensure that high quality hits can be identified from large screening collections.
Induced pluripotent stem cells made to produce insulin and CRISPR, used to correct a genetic defect, cured Wolfram syndrome in mice.
ESHG 2019 Conference Presentation: Using KingFisher™ to increase reproducibility in new applications using challenging samples.
Advances in informatics have afforded researchers the ability to extrapolate petabytes of human genomics data and translate it into biologically relevant information. However, further translating this information into knowledge can prove challenging. Slavé Petrovski, Vice President and Head of Genome Analytics and Bioinformatics for AstraZeneca’s Centre for Genomics Research, spoke…
Detailed knowledge of the human genome can provide us with extensive information about the causes of disease and how patients will respond to treatments. In this article, Pushpanathan Muthuirulan explores the concept of genetic testing and the potential for pharmacogenomic testing to transform healthcare.
A collapsible basket technology has been developed to significantly accelerate the analysis process when scientists are developing new medicines.
A new imaging technique, which has revealed 3D forces exerted by tiny cell clusters, could help scientists understand how tissue forms, how wounds heal or how tumours spread.
New technology is for the first time enabling scientists to analyse the individual behaviour of millions of different cells living inside lab-grown tumours, which could lead to new personalised cancer treatments.
Scientists have produced hundreds of organoids which they say could be produced on a large-scale as a low-cost tissue model to help research and test new medulloblastoma therapies.