From detecting IgG in serum samples to identifying neutralizing antibodies
We understand what a challenging time this is for those who are working to get accelerated testing and medicines to the market as soon as possible and are committed to supporting scientists that are researching cellular response to viruses for the development of therapeutics and vaccines.

This eBook goes through everything from detecting IgG in serum samples, to measuring viral-induced cytopathic effects and identifying neutralizing antibodies with microplate readers.

Be sure to explore all of our microplate reader solutions! 

Transform your complex datasets into biological insight
In case you missed it, our recent webinar with Core Life analytics is now available to view on-demand.

High-content (HC) phenotypic profiling is a powerful tool for studying the effects of biological, genetic, and chemical perturbations on cells. This increasingly popular method allows scientists to obtain detailed cellular profiles and these approaches are applied in a wide range of studies, from drug discovery to functional genomics screens. However, many scientists don't have access to the tools or knowledge required to analyze these rich multiparametric datasets—resulting in under-utilized, or even abandoned datasets.

Watch the webinar to learn about a robust and reproducible data analytics workflow to transform these rich and complex datasets into biological insight.

Be sure to explore all of our high-content imaging and analysis solutions!

Gene Editing and CRISPR Technologies
Gene editing technology allows the manipulations at the DNA level where it is deleted, added, or modified using various tools. Recently, many efficient strategies have been devised to edit the genome in a whole spectrum of organisms, with new methods advancing in an unprecedented fashion.

In this application note, learn about how the all new CloneSelect® Imager FL can aid in easy detection of successfully transfected cells, cutting cell line development timelines and scaling up your research faster. Learn how the CloneSelect® Imager FL can:

• Provide easy detection of successfully transfected cells
• Cut cell line and confluency tracking times
• Reject low transfection efficiency pools at an early stage
• Confirm and track various CRISPR edits with multichannel fluorescence detection – label-free GFP, RFP reporting
• Screen cells with accuracy and confidence while reducing the risk of overpassaging disturbances with robotics redesign

Be sure to check out all of our clone screening solutions! 

The drug discovery landscape is shifting, with more scientists centering cell line development, disease models, and high-throughput screening methods around physiologically-relevant 3D cell models. The reason for this is clear: Using cellular model systems in research that closely mimic patient disease states or human organs can bring life-saving therapeutics to market – faster.

Our Organoid Innovation Center was envisioned as a lab of the future—a collaborative space where automated cell line development and 3D biology workflows unite, enabling customers and industry partners to scale drug discovery research with a high-throughput screening solution.

In our latest blog post, scientists at Molecular Devices discuss advances in cell technologies and demonstrate an integrated workflow that allows automated processes of cell culture and imaging to monitor the development and characterize the complex responses in 3D organoids.

In this blog, take a closer look at:

• High-content imaging methods for automated cell culture organoids
• Organoid applications for drug discovery and development
• Pulmonary (lung) organoids
• Intestinal (gut) organoids
• Brain (cerebral) organoids
• PDO/Tumoroids
• Automation protocol of 3D biology workflows
• Automated organoid development