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Force Spectroscopy on Single Molecules of Life

Soumit S. Mandal

2020ACS Omega38 citationsDOIOpen Access PDF

Abstract

Biomolecules such as nucleic acids and proteins constitute the cells and its organelles that form the crucial components in all living organisms. They are associated with a variety of cellular processes during which they undergo conformational orientations. The structural rearrangements resulting from protein-protein, protein-DNA, and protein-drug interactions vary in spatial and temporal length scales. Force is one of the important key factors which regulate these interactions. The magnitude of the force can vary from sub-piconewtons to several thousands of piconewtons. Single-molecule force spectroscopy acts as a powerful tool which is capable of investigating mechanical stability and conformational rearrangements arising in biomolecules due to the above interactions. Real-time observation of conformational dynamics including access to rare or transient states and the estimation of mean dwell times using these tools aids in the kinetic analysis of these interactions. In this review, we highlight the capabilities of common force spectroscopy techniques such as optical tweezers, magnetic tweezers, and atomic force microscopy with case studies on emerging applications.

Topics & Concepts

Force spectroscopyMagnetic tweezersBiomoleculeOptical tweezersNucleic acidBiophysicsAtomic force microscopySpectroscopyChemistryChemical physicsNanotechnologyMoleculeBiological systemDNAMaterials scienceBiologyPhysicsBiochemistryQuantum mechanicsOrganic chemistryForce Microscopy Techniques and ApplicationsMechanical and Optical ResonatorsMicrofluidic and Bio-sensing Technologies
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