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Histidine-Specific Bioconjugation for Single-Molecule Force Spectroscopy

Hai Lei, Junsheng Zhang, Ying Li, Xin Wang, Meng Qin, Wei Wang, Yi Cao

2022ACS Nano20 citationsDOI

Abstract

Atomic force microscopy (AFM) based single-molecule force spectroscopy (SMFS) is a powerful tool to study the mechanical properties of proteins. In these experiments, site-specific immobilization of proteins is critical, as the tether determines the direction and amplitude of forces applied to the protein of interest. However, existing methods are mainly based on thiol chemistry or specific protein tags, which cannot meet the need of many challenging experiments. Here, we developed a histidine-specific phosphorylation strategy to covalently anchor proteins to an AFM cantilever tip or the substrate via their histidine tag or surface-exposed histidine residues. The formed covalent linkage was mechanically stable with rupture forces of over 1.3 nN. This protein immobilization method considerably improved the pickup rate and data quality of SMFS experiments. We further demonstrated the use of this method to explore the pulling-direction-dependent mechanical stability of green fluorescent protein and the unfolding of the membrane protein archaerhodopsin-3.

Topics & Concepts

Force spectroscopyBioconjugationHistidineCovalent bondCantileverNanotechnologyMoleculeChemistryAtomic force microscopyMaterials scienceBiophysicsBiochemistryEnzymeOrganic chemistryComposite materialBiologyForce Microscopy Techniques and ApplicationsMechanical and Optical ResonatorsLipid Membrane Structure and Behavior
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