Instrument for tensile testing of individual collagen fibrils with facile sample coupling and uncoupling
Autor: | Mathis Nalbach, Franziska Chalupa-Gantner, Felix Spoerl, Victor de Bar, Benedikt Baumgartner, Orestis G. Andriotis, Shingo Ito, Aleksandr Ovsianikov, Georg Schitter, Philipp J. Thurner |
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Rok vydání: | 2022 |
Předmět: | |
Zdroj: | Review of Scientific Instruments. 93:054103 |
ISSN: | 1089-7623 0034-6748 |
Popis: | Collagen is the major structural protein in human bodies constituting about 30% of the entire protein mass. Through a self-assembly process, triple helical collagen molecules assemble into high aspect-ratio fibers of tens to hundreds of nanometer diameter, known as collagen fibrils (CFs). In the last decade, several methods for tensile testing these CFs emerged. However, these methods are either overly time-consuming or offer low data acquisition bandwidth, rendering dynamic investigation of tensile properties impossible. Here, we describe a novel instrument for tensile testing of individual CFs. CFs are furnished with magnetic beads using a custom magnetic tweezer. Subsequently, CFs are lifted by magnetic force, allowing them to be picked-up by a microgripper structure, which is mounted on a cantilever-based interferometric force probe. A piezo-lever actuator is used to apply tensile displacements and to perform tensile tests of tethered CFs, after alignment. Once the mechanical tests are finished, CFs are removed from the microgripper by application of a magnetic field. Our novel instrument enables tensile tests with at least 25-fold increased throughput compared to tensile testing with an atomic force microscope while achieving force resolution (p–p) of 10 nN at a strain resolution better than 0.1%. |
Databáze: | OpenAIRE |
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