The B domain of protein A is a biotechnologically important three-helix bundle protein. It binds the Fc fragment of antibodies with helix 1/2 and the Fab region with helix 2/3. Here we designed a helix shuffled variant by changing the connectivity of the helices, in order to redesign the helix bundle, yielding altered helix–loop–helix properties. The new loops that generate the new connectivity were created in several protein libraries, and Fc binding variants were selected for a detailed biochemical characterization. We were able to create variants with Fc binding affinity at the same level as the wild type B but with significantly reduced thermal stability. The NMR structure proved that the overall three-dimensional structure was maintained not only in the helix shuffled variant but also points to some potential local differences to wild-type B, which could be the reason for the reduced thermal stability. Therefore, protein A is an example of an optimized structure being more important for stability than for function. Using the helix shuffled variant as a ligand on an affinity column facilitates a robust and straightforward purification of antibodies, but allows for a milder elution at less extreme pH. Therefore, the helix shuffled
variant is a suitable ligand to purify more pH-sensitive antibodies.
© 2025 Published by The Author(s). Protein Science published by Wiley Periodicals LLC on behalf of The Protein Society.
