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 characterization of the force-dependent properties of molecular interactions and biomolecular complexes.
High Throughput
250,000 force curves per day
Advanced capabilities allow long-term, self-regulating experiment series, delivering improved productivity and statistically significant datasets.
Automation
Fully Automated Single-Molecule Force Spectroscopy
Advanced force curve designs combined with extensive fitting routines and easy-to-use scripting tools enable flexible, user-defined experiment designs.
Force spectroscopy
Advanced Nanomechanical Characterization
Senses and quantifies forces at the molecular level and characterizes force-dependent properties of individual molecules.
FEATURES
Understanding the Mechanics of Single Molecules
ForceRobot 400 is uniquely capable of providing crucial insights into functional biological mechanisms, opening new possibilities in such research fields as biophysics, biochemistry, developmental biology, and the development of novel therapeutic molecules.
ForceRobot 400 delivers:
Outstanding performance: 250,000 force curves per day
Fully automated single-molecule force spectroscopy (SMFS) capabilities
Statistically relevant, standardized datasets required in biomedical and preclinical research
Advanced force curve designs and extensive fitting routines for flexible experiments