Overcome the Bottlenecks in Protein Engineering

Traditional approaches to protein engineering, like rational design and directed evolution, can be limited by the time and resources required to screen and refine large numbers of protein variants. Cell display technologies have emerged as powerful tools to enhance the speed and accuracy of this process, allowing you to identify proteins with desired traits more efficiently than with conventional techniques.

This guide provides a comprehensive overview of how to leverage these methods to drive innovation in your research.

What you will Discover Inside

A deep dive into mechanisms

Understand how each of the four core display technologies—bacterial, yeast, mammalian, and phage—presents proteins on the cell surface to enable targeted selection

Strategic Application Insights

The Future of the Field

Real World Examples

Guidance on System Selection

Look ahead at how cell display technologies are being integrated with synthetic biology, supporting the development of targeted CAR-T cell therapies, and enabling personalized diagnostic tools.

Get a clear breakdown of the advantages and limitations of each system, including the high-throughput power of phage display and the critical post-translational modification capabilities of mammalian display.

Learn how cell display technologies are transforming biomedical research, from engineering therapeutic antibodies to discovering novel peptide ligands for biomarker identification

Explore how phage display was instrumental in creating monoclonal antibodies like adalimumab (Humira) and how yeast and mammalian systems are used to further refine antibody stability and affinity.

Ready to Unlock the Power of Cell Display?

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