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Structural variants identified by Oxford Nanopore PromethION sequencing of the human genome
Aug 16, 2019
The BluePippin was used for High Pass DNA size selection prior to library construction. ONT Promethion was used for...
Next-generation cytogenetics is here
Aug 9, 2019
On ESHG 2019 conference several oral and poster presentations compared Bionano optical mapping to clinical cytogenetics...
Electroporation using Lumascope: A sustainable method for Adipogenous Mesenchymal Stem Cells
Aug 7, 2019
Human mesenchymal stem cells derived from adipose tissue (AD-hMSCs) represent a promising source for tissue engineering...
The best way to fragment DNA for genomic and paired end library construction
Aug 5, 2019
Digilab NextGen Shear DNA Shearing offers the simplest, most reproducible, and most controllable method available for...
New Cytek Full Spectrum Viewer tool, a powerful guide for your fluorochrome choices
Aug 2, 2019
Want to see which fluorochromes have unique signatures and which are identical? Then the Cytek Full Spectrum Viewer...
Software Update: Bionano releases a new pipeline for low Aalelic fraction SVs
Jul 31, 2019
Bionano Solve v3.4 is a major update that introduces an entirely new pipeline to detect SVs at low allelic fraction and...
On-cartridge preparation and evaluation of 68Ga-, 89Zr- and 64Cu-precursors for cell radiolabelling
Jul 29, 2019
Method of on-cartridge formation of gallium-68, zirconium-89 and copper-64 complexes in small volumes suitable for cell...
Identify the quality of any protein in 3 minutes using microliters of sample with Tycho
Jul 19, 2019
Tycho tells you so much about the quality of your protein. It tells you about presence, purity, concentration,...
May 23, 2016
Extracellular vesicles (EVs) such as exosomes (70 nm – 160 nm in diameter) and microvesicles (100 nm – 1,000 nm diameter) can be harvested from cell-culture supernatants and from all bodily fluids. Current standard techniques to visualize, quantify, and characterize EVs are electron microscopy, nanoparticle tracking analyses, and dynamic light scattering. To further characterize and discriminate EVs, more exact high-throughput technologies to analyze their surface are highly desired. Although conventional flow cytometry is limited to measuring particles down to approximately 300 nm – 500 nm, a relatively new flow-cytometric method called “imaging flow cytometry” allows for the analysis of EVs smaller than 300 nm. This webinar on Wednesday, June 8, 2016 (6 pm CEST) will introduce viewers to the challenges, limitations, and pitfalls of flow cytometry-based EV analysis, and to the imaging flow cytometry methodology. Also covered will be techniques for analyzing exosomes, microvesicles, and apoptotic bodies in unprocessed samples, how imaging flow cytometry can be used to evaluate or reevaluate EV isolation techniques, and the advantages and disadvantages of using this method.
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