Knowledge of the surface properties of microbial cells is a key to gain a detailed understanding of their functions in the natural environment and to efficiently exploit them in biotechnological processes. In this paper, we present force-distance curves recorded. by atomic force microscopy (AFM) in aqueous solutions, on various microbial samples: reconstituted S-layers, whole fungal spores and several bacterial strains. The approach and retraction curves exhibited important differences - depending on the type of microorganism, on the physiological state (dormancy versus germination) and on the environmental conditions (ionic strength)- which were shown to reflect differences in long-range surface forces. adhesion forces and mechanical prope...
Atomic force microscopy (AFM) has recently opened a variety of novel possibilities for imaging and m...
Most microorganisms possess a negative surface charge under physiological conditions due to the pres...
Bacterial adhesion is the first step of biofilm formation that plays various roles in the environmen...
Knowledge of the surface properties of microbial cells is a key to gain a detailed understanding of ...
The application of atomic force microscopy (AFM) to probe the ultrastructure and physical properties...
AbstractA new method is described for characterizing the physicochemical properties of native microb...
A new method is described for characterizing the physicochemical properties of native microbial cell...
Bacterial adhesion to substratum surfaces is determined by the combined action of a large number of ...
Bacterial adhesion to substratum surfaces is determined by the combined action of a large number of ...
Bacterial adhesion to substratum surfaces is determined by the combined action of a large number of ...
In recent years, the atomic force microscope (AFM) has greatly improved our understanding of microbi...
During the past decades, several methods (e.g., electron microscopy, flow chamber experiments, surfa...
Microbial adhesion and biofilm formation are usually studied using molecular and cellular biology as...
This study demonstrated that atomic force microscopy (AFM) can be used to obtain high-resolution top...
Surface thermodynamic analyses of microbial adhesion using measured contact angles on solid substrat...
Atomic force microscopy (AFM) has recently opened a variety of novel possibilities for imaging and m...
Most microorganisms possess a negative surface charge under physiological conditions due to the pres...
Bacterial adhesion is the first step of biofilm formation that plays various roles in the environmen...
Knowledge of the surface properties of microbial cells is a key to gain a detailed understanding of ...
The application of atomic force microscopy (AFM) to probe the ultrastructure and physical properties...
AbstractA new method is described for characterizing the physicochemical properties of native microb...
A new method is described for characterizing the physicochemical properties of native microbial cell...
Bacterial adhesion to substratum surfaces is determined by the combined action of a large number of ...
Bacterial adhesion to substratum surfaces is determined by the combined action of a large number of ...
Bacterial adhesion to substratum surfaces is determined by the combined action of a large number of ...
In recent years, the atomic force microscope (AFM) has greatly improved our understanding of microbi...
During the past decades, several methods (e.g., electron microscopy, flow chamber experiments, surfa...
Microbial adhesion and biofilm formation are usually studied using molecular and cellular biology as...
This study demonstrated that atomic force microscopy (AFM) can be used to obtain high-resolution top...
Surface thermodynamic analyses of microbial adhesion using measured contact angles on solid substrat...
Atomic force microscopy (AFM) has recently opened a variety of novel possibilities for imaging and m...
Most microorganisms possess a negative surface charge under physiological conditions due to the pres...
Bacterial adhesion is the first step of biofilm formation that plays various roles in the environmen...
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