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Using the Right Cell for the Right Application: Expanding the Role of Transient Transfection

MaxCyte

Using the Right Cell for the Right Application: Expanding the Role of Transient Transfection

24 Sept 2015

Pharmaceutical, biopharmaceutical, and biotechnology companies must efficiently identify, develop, and quickly bring to market candidates -whether small molecule drugs, therapeutic proteins, or vaccines -with the highest level of efficacy at the lowest cost. There is no single, ideal cellular system with native physiology that provides a cost-and time-efficient means of fulfilling all aspects biotherapeutic and drug development. Therefore, scientists must identify what they deem as the ‘right cell’ for the right application. This poster provides project-specific data generated with the MaxCyte STX® Scalable Transfection System using the most appropriate cell line for a given application, for example primary neurons for Alzheimer’s research or human-derided cells for cystic fibrosis drug development.

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Cell Lines Stem Cells and Primary CellsPrimary cell cultures, established cell lines and stem cells are vital for <i>in vitro</i> and <i>ex vivo</i> experimentation. High-quality cells, optimized for your applications, alongside optimized cell substrates, growth medium and supplements, are critical for experimental success. Explore a range of cells suitable for your applications, including isogenic cell lines, competent cells, induced pluripotent stem cell (iPSC)-derived cell lines, fungal/bacterial/mammalian cell lines, stem cells and cancer cell lines. Find the best cells for your research in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Process ChemistryProcess chemistry is an important stage of drug development for scaling-up drug production or chemical synthesis reactions. It is useful for optimizing economical and efficient drug production. Process chemistry uses reactors and pump systems as well as reagents, standards and buffers.Biopharmaceutical AdvancesBiopharmaceutical advances follow the development of pharmaceuticals derived from biotechnology, also known as biotechnology medicines. Biopharmaceuticals may be produced from cell lines, plants, or microbial cells. Important considerations of biopharmaceutical use include application, cost, production process and purification.TransfectionTransfection introduces nucleic acids (DNA or RNA) into cells, facilitating gene expression, genome editing, and functional studies. It�s widely used in genetic research, drug discovery, and therapeutic development. Find transfection reagents, kits, and systems in our product directory with reviews and pricing options.Drug DiscoveryDrug discovery is the process of identifying potential new medications, involving stages such as target identification, compound screening, and preclinical development. It relies on cutting-edge technologies like high-throughput screening, artificial intelligence, and molecular modeling to accelerate the identification of drug candidates. Drug discovery plays a pivotal role in developing new therapies for diseases ranging from cancer to rare genetic disorders. Browse our peer-reviewed product directory to find the latest drug discovery technologies, compare options, check customer feedback, and get pricing directly from manufacturers.TherapeuticsTherapeutics are treatments designed to alleviate or cure diseases. These include pharmaceuticals, biologics, and gene therapies, which work by targeting specific disease mechanisms. Advances in personalized medicine and biologics offer new hope for patients with conditions that were previously difficult to treat. Browse our peer-reviewed product directory to find therapeutic solutions for various diseases; compare products, check user reviews, and get pricing directly from manufacturers.Cell BiologyCell biology studies the structure, function, and behavior of cells. Understanding cellular processes is essential for research in areas such as cancer biology, stem cell research, and neurobiology. Techniques like flow cytometry, microscopy, and cell culture enable researchers to explore cellular mechanisms in detail. Browse our peer-reviewed product directory to find the best cell biology tools and equipment, compare products, check customer reviews, and get pricing directly from manufacturers.

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