The forces of adhesion of the normal and tumor cells of the human stomach epithelium to the probe of an atomic force microscope have been measured for the first time. It is established that the adhesion and contact stiffness of malignant cells are significantly lower than those of the normal cells. © 2010 Pleiades Publishing, Ltd
Atomic force microscopy (AFM) is becoming an increasingly important tool-of-the-trade in the life sc...
The structure of human fibroblasts have been characterised in vitro by atomic force microscopy (AFM)...
Atomic force microscopy is a valuable and useful tool for the imaging and investigation of living ce...
The forces of adhesion of the normal and tumor cells of the human stomach epithelium to the probe of...
In this study, we presented investigation of mechanical properties by AFM nanoindentation on human h...
Mechanical properties play an important role in regulating cellular activities and are critical for ...
Tumors have posed a serious threat to human life and health. Researchers can determine whether or no...
The atomic force microscope is broadly used to study the morphology of cells1–5 but it can also prob...
During the last century, cellular biology has been mostly assessed from the biochemical point of vie...
Atomic Force Microscopy (AFM) is a powerful technique widely employed in biophysics, for instance to...
Cell-cell adhesion is a complex process that is involved in the tethering of cells, cell-cell commun...
The structure of human fibroblasts have been characterised in vitro by atomic force microscopy (AFM)...
Summary Atomic force microscopy (AFM) provides a new technology to visualize the cellular topography...
A method was developed to characterize the adhesion properties of single cells by using protein-func...
The small intestine is a complex system that carries out various functions. The main function of ent...
Atomic force microscopy (AFM) is becoming an increasingly important tool-of-the-trade in the life sc...
The structure of human fibroblasts have been characterised in vitro by atomic force microscopy (AFM)...
Atomic force microscopy is a valuable and useful tool for the imaging and investigation of living ce...
The forces of adhesion of the normal and tumor cells of the human stomach epithelium to the probe of...
In this study, we presented investigation of mechanical properties by AFM nanoindentation on human h...
Mechanical properties play an important role in regulating cellular activities and are critical for ...
Tumors have posed a serious threat to human life and health. Researchers can determine whether or no...
The atomic force microscope is broadly used to study the morphology of cells1–5 but it can also prob...
During the last century, cellular biology has been mostly assessed from the biochemical point of vie...
Atomic Force Microscopy (AFM) is a powerful technique widely employed in biophysics, for instance to...
Cell-cell adhesion is a complex process that is involved in the tethering of cells, cell-cell commun...
The structure of human fibroblasts have been characterised in vitro by atomic force microscopy (AFM)...
Summary Atomic force microscopy (AFM) provides a new technology to visualize the cellular topography...
A method was developed to characterize the adhesion properties of single cells by using protein-func...
The small intestine is a complex system that carries out various functions. The main function of ent...
Atomic force microscopy (AFM) is becoming an increasingly important tool-of-the-trade in the life sc...
The structure of human fibroblasts have been characterised in vitro by atomic force microscopy (AFM)...
Atomic force microscopy is a valuable and useful tool for the imaging and investigation of living ce...
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