Biomolecules, Vol. 16, Pages 306: A Simplified Strategy for Nanobody Production and Use Based on Functional GST-Nanobody Fusion Proteins

Greenberg February 14, 2026 in News - 2 Minutes

Biomolecules, Vol. 16, Pages 306: A Simplified Strategy for Nanobody Production and Use Based on Functional GST-Nanobody Fusion Proteins

Biomolecules doi: 10.3390/biom16020306

Authors:
Agustín A. Burgos
Andrés Rivera-Dictter
Pablo Mendoza-Soto
Tammy P. Pástor
José Munizaga
Guillermo Valenzuela-Nieto
Gonzalo A. Mardones

Nanobodies (VHHs or single-domain antibodies) are powerful affinity reagents, but their routine use is often limited by production constraints and by the lack of a conserved Fc region for secondary detection. We describe a simplified strategy in which functional GST&ndash;nanobody fusion proteins are expressed directly in the cytoplasm of Escherichia coli OrigamiTM 2 (DE3), a strain that supports disulfide bond formation through trxB/gor mutations. Using well-characterized nanobodies against GFP (Lag2) and mCherry (C11), we designed N-terminal GST fusions and confirmed by AlphaFold3-based modeling that both constructs preserve the GST fold and the VHH (Variable domain of the Heavy-chain antibody of Heavy-chain-only antibodies) &beta;-sandwich with defined CDR loops and a predicted intradomain disulfide bond. Following IPTG induction and purification by glutathione affinity and size-exclusion chromatography, we obtained soluble GST-nb-GFP and GST-nb-mCherry at ~8&ndash;12 mg/L. Isothermal titration calorimetry showed nanomolar binding to their antigens (Kd ~123 nM for GFP and ~199 nM for mCherry). Consistent with conformational epitope recognition, GST-nanobodies were reactive in native-state dot blots but not in denaturing Western blots under the conditions tested. The GST moiety enabled indirect immunofluorescence via anti-GST antibodies, yielding specific labeling of GFP- or mCherry-tagged TGN38 in HeLa and H4 cells. Finally, we demonstrate &ldquo;GST-nanobody pulldown&rdquo; as a robust method for affinity capture from cell lysates. Together, this platform provides a low-cost, versatile route to functional nanobody reagents without requiring tag removal, and complements other nanobody designs (e.g., VHH-Fc fusions) in an application-dependent manner.

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Agustín A. Burgos www.mdpi.com

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