Original paper
Streptavidin/biotin: Tethering geometry defines unbinding mechanics
Abstract
Macromolecules tend to respond to applied forces in many different ways. Chemistry at high shear forces can be intriguing, with relatively soft bonds becoming very stiff in specific force-loading geometries. Largely used in bionanotechnology, an important case is the streptavidin (SA)/biotin interaction. Although SA's four subunits have the same affinity, we find that the forces required to break the SA/biotin bond depend strongly on the...
Paper Details
Title
Streptavidin/biotin: Tethering geometry defines unbinding mechanics
Published Date
Mar 27, 2020
Journal
Volume
6
Issue
13
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Notes
History