Application of Atomic Force Microscopy in Bacterial Research

The atomic force microscope (AFM) has evolved from an imaging device into a multi-functional and powerful toolkit for probing the nanostructures and surface components on the exterior of bacterial cells Currently, the area of application spans a broad range of interesting fields from materials sciences, in which AFM has been used to deposit patterns of thiol-functionalized molecules onto gold substrates, to biological sciences, in which AFM has been employed to study the undesirable bacterial adhesion to implants and catheters or the essential bacterial adhesion to contaminated soil or aquifers. The unique attribute of AFM is the ability to image bacterial surface features, to measure interaction forces of functionalized probes with these features, and to manipulate these features. for example, by measuring elongation forces under physiological conditions and at high lateral resolution (<1 angstrom). The first imaging studies showed the morphology of various biomolecules followed by rapid progress in visualizing whole bacterial cells The AFM technique gradually developed into a lab-on-a-tip allowing more quantitative analysis of bacterial samples in aqueous liquids and non-contact modes. Recently, force spectroscopy modes, such as chemical force microscopy, single-cell force spectroscopy. and single-molecule force spectroscopy, have been used to map the spatial arrangement of chemical groups and electrical charges on bacterial surfaces, to measure cell-cell interactions, and to stretch biomolecules. In this review, we present the fascinating options offered by the rapid advances in AFM with emphasizes on bacterial research and provide a backeround for the exciting, research articles to follow. SCANNING 32. 74-96, 2010 (C) 2010 Wiley Periodicals, Inc