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CellHesion 200
The single cell force testing solution for cell adhesion and elasticity studies
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Providing reproducible quantitative results for single cells with precision down to the single-molecule level - the innovative CellHesion® methodology opens up new paths for the study of cellular interactions with results of a completely new quality level. Data can be measured for a number of important parameters involved in cellular adhesion, including maximum cell adhesion force, single unbinding events, tether characteristics, and work of removal
Key features
 | Innovative platform for adhesion/cell mechanics research for measurements from single-molecules to entire cells
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| Cantilever sensor lifting system with >110µm travel range with closed-loop control through high-speed capacitive sensor feedback
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| Simultaneous focus tracking
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| Integrates with advanced optical imaging (DIC, CLSM, TIRF, FRET ...)
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| Works in native environment for real in-situ measurements
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Applications examples
| Live cell testing
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| Cell-cell and cell-substrate interactions
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| Cell adhesion and tether formation
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| Elastic properties of the cytoskeleton
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| Applications in microbiology and virus research
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| Pharmaceutical studies such as drug delivery mechanisms
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| Applications in food, paper or textile industry on fibers, coatings or powders in air or liquid
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| Single molecule studies on DNa, RNA, proteins, dendrimers, carbohydrates, lipids etc
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| Binding studies such as receptor/ligand or antibody/antigene
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| Intramolecular interactions protein folding, binding site localization etc
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All mayor single cell force spectroscopy modes
| Force spectroscopy
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| Force mapping (elasticity and stiffness) by motorized stage
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| Nanomanipulation
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| Nanostimulation
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| Environment control with CO2, buffer, temp control
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| And many more
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