Toward chaperone-assisted crystallography: Protein engineering enhancement of crystal packing and X-ray phasing capabilities of a camelid single-domain antibody (V[subscript H]H) scaffold

Tereshko, Valentina; Uysal, Serdar; Koide, Akiko; Margalef, Katrina; Koide, Shohei; Kossiakoff, Anthony A

doi:10.1110/ps.034892.108

Title: Toward chaperone-assisted crystallography: Protein engineering enhancement of crystal packing and X-ray phasing capabilities of a camelid single-domain antibody (V[subscript H]H) scaffold

Journal Article · Mon Jul 28 00:00:00 EDT 2008 · Protein Sci.

DOI:https://doi.org/10.1110/ps.034892.108· OSTI ID:1006728

Tereshko, Valentina; Uysal, Serdar; Koide, Akiko; Margalef, Katrina; Koide, Shohei; Kossiakoff, Anthony A ^[1]

A crystallization chaperone is an auxiliary protein that binds to a target of interest, enhances and modulates crystal packing, and provides high-quality phasing information. We critically evaluated the effectiveness of a camelid single-domain antibody (V{sub H}H) as a crystallization chaperone. By using a yeast surface display system for V{sub H}H, we successfully introduced additional Met residues in the core of the V{sub H}H scaffold. We identified a set of SeMet-labeled V{sub H}H variants that collectively produced six new crystal forms as the complex with the model antigen, RNase A. The crystals exhibited monoclinic, orthorhombic, triclinic, and tetragonal symmetry and have one or two complexes in the asymmetric unit, some of which diffracted to an atomic resolution. The phasing power of the Met-enriched V{sub H}H chaperone allowed for auto-building the entire complex using single-anomalous dispersion technique (SAD) without the need for introducing SeMet into the target protein. We show that phases produced by combining SAD and VHH model-based phases are accurate enough to easily solve structures of the size reported here, eliminating the need to collect multiple wavelength multiple-anomalous dispersion (MAD) data. Together with the presence of high-throughput selection systems (e.g., phage display libraries) for V{sub H}H, the enhanced V{sub H}H domain described here will be an excellent scaffold for producing effective crystallization chaperones.

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Research Organization:: Argonne National Lab. (ANL), Argonne, IL (United States). Advanced Photon Source (APS)

Sponsoring Organization:: USDOE

OSTI ID:: 1006728

Journal Information:: Protein Sci., Vol. 17, Issue 2008

Country of Publication:: United States

Language:: ENGLISH

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59 BASIC BIOLOGICAL SCIENCES
60 APPLIED LIFE SCIENCES
CRYSTALLIZATION
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TARGETS
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Title: Toward chaperone-assisted crystallography: Protein engineering enhancement of crystal packing and X-ray phasing capabilities of a camelid single-domain antibody (V[subscript H]H) scaffold

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