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A new generation of nanobody research tools using improved mass spectrometry-based discovery methods

Peter C. Fridy, Ryan Farrell, Kelly R. Molloy, Sarah Keegan, Junjie Wang, Erica Y. Jacobs, Yinyin Li, Jill M. Trivedi, Viren S. Sehgal, David Fenyö, Zhuhao Wu, Brian T. Chait, Michael P. Rout

2024Journal of Biological Chemistry12 citationsDOIOpen Access PDF

Abstract

Single-domain antibodies ("nanobodies") derived from the variable region of camelid heavy-chain only antibody variants have proven to be widely useful tools for research, therapeutic, and diagnostic applications. In addition to traditional display techniques, methods to generate nanobodies using direct detection by mass spectrometry and DNA sequencing have been highly effective. However, certain technical challenges have limited widespread application. We have optimized a new pipeline for this approach that greatly improves screening sensitivity, depth of antibody coverage, antigen compatibility, and overall hit rate and affinity. We have applied this improved methodology to generate significantly higher affinity nanobody repertoires against widely used targets in biological research-i.e., GFP, tdTomato, GST, and mouse, rabbit, and goat immunoglobulin G. We have characterized these reagents in affinity isolations and tissue immunofluorescence microscopy, identifying those that are optimal for these particularly demanding applications, and engineering dimeric constructs for ultra-high affinity. This study thus provides new nanobody tools directly applicable to a wide variety of research problems, and improved techniques enabling future nanobody development against diverse targets.

Topics & Concepts

Mass spectrometryComputational biologyChemistryDrug discoveryComputer scienceChromatographyBiologyBiochemistryMonoclonal and Polyclonal Antibodies ResearchAdvanced Biosensing Techniques and ApplicationsAdvanced biosensing and bioanalysis techniques
A new generation of nanobody research tools using improved mass spectrometry-based discovery methods | Litcius