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Bruker’s BioScope Resolve™ BioAFM features the highest resolution atomic force microscopy imaging and most complete cell mechanics capabilities available for use with an inverted optical microscope. BioScope Resolve incorporates Bruker’s exclusive PeakForce Tapping® technology to enable researchers to achieve the highest resolution
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Brochure describing Bruker's BioScope Catalyst Perfusing Stage Incubator accessory.
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Atomic force microscopy (AFM) has opened exciting new avenues in microbiology and biophysics for probing microbial cells. The unprecedented capabilities of AFM can be summarized as follows: i) imaging surface topography with nanometer lateral resolution and under physiological conditions; ii) measuring local physical properties such as adhesion forces
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AFM has contributed to ground-breaking research in the investigation of DNA, proteins, and cells in biological studies; structure and component distribution in polymer science; piconewton force interactions and surfactant behavior in colloid science; and physical/ mechanical properties and fabrication variables in the material sciences. Pharmaceutical
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Microscopic evaluation is important for the design and evaluation of a pharmaceutical product after the steps in the drug formulation process. Since atomic force microscopy (AFM) provides the ability to directly investigate surface structure at nanometer-to-subangstrom resolution in ambient and liquid environments, it has been applied to a wide range
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The atomic force microscope (AFM) offers extraordinarily high resolution in force measurement applications, routinely yielding useful data down to the thermal noise floor of the cantilever, typically about 10pN. This along with the ease with which it is applied to many biological systems has made it a popular tool for studying such things as the specific
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The best research instruments not only acquire the intended data, but actually increase productivity. Bruker’s BioScope Catalyst Atomic Force Microscope (AFM) accelerates innovative research by reducing the time and effort needed to combine the proven techniques of light microscopy with the unique benefits of atomic force microscopy.
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In the following study, we demonstrate the power of combining atomic force microscopy AFM and fluorescence microscopy techniques to probe real-time, in-situ effects of two highly specific drugs that are able to disrupt different cytoskeleton networks inside living cells. Using Veeco Multiple Image Registration Overlay (MIRO) software and the new Bioscope
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There is great interest in unraveling action mechanisms of key enzymes in biological processes. In many cases, insight on such molecular events can be derived from conventional biophysical analyses of isolated enzymes and their substrates or protein partners. For example, members of the matrix metalloproteinases (MMP) family have been implicated in