Atomic force microscopy is not only a high-resolution imaging device but also a mechanical machine, which can be used either to indent or stretch (soft) biomaterials. Due to the statistical nature of such materials (i.e., hydrogels or polymers) hundreds of force-distance curves are required to describe their mechanical properties. In this manuscript, we present an automated system for polymer unfolding detection based on continuous wavelet analysis. We have tested the automated program on elastin, which is an important protein that provides elasticity to tissues and organs. Our results show that elastin changes its mechanical behavior in the presence of electrolytes. In particular, we show that NaCl has a different effect on the contour length than CaCl2 for similar unfolding forces. In addition, we provide the program in the supporting information for the researches facing such kind of problem.
Keywords: adhesion; atomic force microscopy; detection program; elastin; unfolding.
© 2016 Wiley Periodicals, Inc.