Latest Whitepapers
Whitepaper
How Spatial Phenotyping Can Uncover Novel Insights in Tissue Biology
Rather than choosing between the detail of single-cell RNA sequencing and the in situ capabilities of conventional immunohistochemistry, spatial phenotyping allow you to visualize and quantify dozens of biomarkers in a single tissue sample while maintaining cellular and sub-cellular detail.
Whitepaper
Single-Cell Sequencing: The Challenges and Opportunities
Recent technological advancements have made single-cell sequencing an increasingly powerful tool for understanding biology and cellular function, disease diagnosis, therapy response prediction, and treatment selection.
Whitepaper
How To Protect Frozen Patient Samples in the Event of a Freezer Malfunction
In 2012, the Harvard Brain Tissue Resource Center lost 150 of its stored frozen brain samples, including one third of the world’s largest collection of autism brain tissue.
Whitepaper
Making the Switch to In-House Mycoplasma Testing
Many regulatory guidelines state that cell banks and cultures used in the production of biologics must be tested for mycoplasma. Mycoplasma infections can cause severe problems in manufacturing as these organisms can alter DNA, RNA and modify host cell plasma membrane antigens.
Whitepaper
Comparison of Viability Detection Methods Via Morphological Observation
Determining cell viability is a vital component in many biological experiments and one of the most common methods for this measurement is the trypan blue (TB) exclusion assay.
Whitepaper
Cell Counting Accuracy and Precision
Whether you are simply splitting cells as a part of routine cell culture or preparing cell samples for experiments downstream.
Whitepaper
Milestones in Spatial Biology
Spatially resolved biology allows researchers to study cells in the context of their tissue microenvironment, enabling a fuller appreciation of cellular function.
Whitepaper
Expanding the Useful Spectrum for Flow Cytometry
Flow cytometry has enabled the discovery of varied and nuanced cell types in terms of phenotypic markers and biological functions, but the visible spectrum places limitations on the number of extrinsic parameters that can be assessed.
Whitepaper
CytoFLEX Platform Enables New Workflows
In flow cytometry, some of the fluorescence will be collected in the detection channel of interest, but some of the fluorescence will overlap with other channels. Compensation is used to remove the unwanted light signals from all but the desired detector.
Whitepaper
Beadless Absolute Counting
Traditionally, manual or semi-automated methods using counting chambers or slides are used in cell counting but there is a high degree of variability in this method attributed to operator error.
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