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Rapid and robust antibody Fab fragment crystallization utilizing edge-to-edge beta-sheet packing

Ricky Lieu, Stephen Antonysamy, Zhanna Druzina, Carolyn Y. Ho, N. Rebecca Kang, Anna Pustilnik, Jing Wang, S. Atwell

2020PLoS ONE38 citationsDOIOpen Access PDF

Abstract

Antibody therapeutics are one of the most important classes of drugs. Antibody structures have become an integral part of predicting the behavior of potential therapeutics, either directly or as the basis of modeling. Structures of Fab:antigen complexes have even greater value. While the crystallization and structure determination of Fabs is easy relative to many other protein classes, especially membrane proteins, broad screening and optimization of crystalline hits is still necessary. Through a comprehensive review of rabbit Fab crystal contacts and their incompatibility with human Fabs, we identified a small secondary structural element from the rabbit light chain constant domain potentially responsible for hindering the crystallization of human Fabs. Upon replacing the human kappa constant domain FG loop (HQGLSSP) with the two residue shorter rabbit loop (QGTTS), we dramatically improved the crystallization of human Fabs and Fab:antigen complexes. Our design, which we call "Crystal Kappa", enables rapid crystallization of human fabs and fab complexes in a broad range of conditions, with less material in smaller screens or from dilute solutions.

Topics & Concepts

CrystallizationBeta sheetAntibodyImmunoglobulin Fab FragmentsChemistryProtein crystallizationCrystallographyImmunoglobulin light chainProtein structureBiochemistryBiologyImmunologyOrganic chemistryComplementarity determining regionMonoclonal and Polyclonal Antibodies ResearchProtein purification and stabilityGlycosylation and Glycoproteins Research
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