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Atomic Force Microscopy of Microbial Cells

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...

Posted to Application Notes by BrukerApplications on Wed, Jan 6 2010
Filed under: Cells, BioScope, Catalyst, BioScope II, Fluid Imaging, Bacteria, Cell Identification, Application Note
Atomic Force Microscopy in the Pharmaceutical Sciences: Drug Interactions and Disease Mechanisms

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...

Posted to Application Notes by BrukerApplications on Wed, Jan 6 2010
Filed under: Drugs, Cells, BioScope, Catalyst, BioScope II, Bacteria, Pharmacology, Cell Identification, Application Note
AFM Imaging and Force Spectroscopy of Individual Bacterial Adhesins

Because microbial surfaces are in direct contact with the external environment, they are vital to organisms. Microbial surfaces play key roles in determining cellular shape and growth, enabling organisms to resist turgor pressure, acting as molecular sieves, and mediating molecular recognition and cellular...

Posted to Application Notes by BrukerApplications on Mon, Jan 4 2010
Filed under: Bacteria, AFM, Bacterial Adhesins, HBHA, Force Soectroscopy, Microbial Surface
Drug Interactions Investigated Using Atomic Force Microscopy with Functionalized Tips

Normal 0 false false false MicrosoftInternetExplorer4 Current antibacterial drugs might become ineffective in the near future due to a phenomenon called pharmacoresistance. This refers to the ability of microorganisms to withstand bacteriocidal (cell killing) or bacteriostatic (inhibition of growth)...

Posted to Application Notes by BrukerApplications on Mon, Jan 4 2010
Filed under: MultiMode, Force Curve, Bacteria, Force Spectroscopy, Fictionalized Tips, Pharmacology
Atomic Force Microscopy with BioScope II: Detecting Specific Ligand-Receptor Interactions on Live Cancer Cells in situ

The combination of optical with scanning probe microscopy techniques has become a powerful tool for sensing biological events on nanoscale. This combination will significantly contribute to providing new insights to the fields of biosensors, pharmacology, drug discovery, cancer research or nanomedicine...

Posted to Application Notes by BrukerApplications on Mon, Jan 4 2010
Filed under: Force Curve, BioScope II, Bacteria, Epiflourescence, Cell Identification, Functionalized Tip, Peak Detection, Ziess, In Situ

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Browse Site by Tags

Atomic Force Microscopy of Microbial Cells

Atomic Force Microscopy in the Pharmaceutical Sciences: Drug Interactions and Disease Mechanisms

AFM Imaging and Force Spectroscopy of Individual Bacterial Adhesins

Drug Interactions Investigated Using Atomic Force Microscopy with Functionalized Tips

Atomic Force Microscopy with BioScope II: Detecting Specific Ligand-Receptor Interactions on Live Cancer Cells in situ