Measuring elasticity of biological materials by atomic force microscopy.

Atomic force microscopy (AFM) has proved its value not only for resolving the topographical structure of biological samples, but also for probing inherent properties of biological structures, like local interaction forces, mechanical properties or dynamics in a natural (physiological) environment. This minireview focuses on the acquisition of elasticity data of biomaterials by AFM. A possible theoretical model is presented, followed by a practical 'how to do it with AFM', and, finally, a brief overview of publications in this field is given.