Affiliation:
1. Institute of Chemistry Carl von Ossietzky University of Oldenburg 26111 Oldenburg Germany
2. Institute of Plant Biology and Biotechnology University of Münster 48143 Münster Germany
3. Fraunhofer Institute for Molecular Biology and Applied Ecology IME Fraunhofer Gesellschaft 48143 Münster Germany
Abstract
AbstractForisomes are giant structural plant mechanoproteins that reversibly undergo a transition from a longitudinally expanded to a contracted (dispersed) state. This transition is driven by a change in the concentration of Ca2+ ions. Artificial forisomes, expressed in yeast, have a width of 0.7 µm and a length of 4.6 µm and adsorb onto a gold surface. Scanning electrochemical microscopy imaging of the adsorbed forisomes reveales a heterogenous film in which several proteins adsorb together on the substrate surface. The adsorbed forisomes maintain their biological activity and undergo reversible contraction–expansion reactions. Infrared spectroscopy (IRS) shows that Ca2+ ions are coordinated to the carboxylate groups in the side chains of Asp and Glu affecting the 3D arrangement of the corresponding protein fragments allowing for a longitudinal contraction, dispersion of the forisome volume, and water uptake. In films, expanded forisomes accumulate small ions (ethylendiaminetetraacetic acid dianion or [Fe(CN)6]4‐) that are released upon Ca2+ driven dispersion. The properties described here make forisomes attractive for biotechnological applications.
Subject
Electrochemistry,Condensed Matter Physics,Biomaterials,Electronic, Optical and Magnetic Materials