High-throughput, quantitative single-molecule biomechanics
Forces play a crucial role in molecular mechanisms, such as recognition, response, and signaling. The ForceRobot® 400 BioAFM incorporates a number of unique force spectroscopy innovations to measure forces at the single-molecule level. It enables the quantification of the mechanical strength of individual molecular bonds and characterisation of the force-dependent properties of molecular interactions and biomolecular complexes.
Features:
350,000 force curves per day
Fully automated single-molecule force spectroscopy (SMFS) capabilities
Statistically relevant, standardised datasets requried in biomedical and preclinical research
Advanced force curve designs and extensive fitting routines for flexible experiments
Use ForceRobot 400 to study:
Protein function at the molecular level
Molecular biomechanics and receptor-ligand type bonds
Detection and kinetics of novel antibody-antigen complex formations for immunodiagnostics
Viscoelastic properties of various materials
Maximum adhesion force, mechanisms of individual binding and unbinding events
Intramolecular properties of individual mlecules and molecular arrangements
Structural changes in macromolecules
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Sydney • New South Wales
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Adelaide • South Australia
Field Service
Sydney • New South Wales