Single-Molecule Studies Reveal That Water Is a Special Solvent for Amylose and Natural Cellulose

Abstract

It is generally accepted that water is deeply involved in the structures and functions of DNA and proteins. For polysaccharides, however, the role of water remains poorly understood. Amylose and natural cellulose (NC) are two polysaccharides with similar molecular structures but different linkages (α or β) between the pyranose rings. In this study, the effects of H-bonds on the single-molecule mechanics and affinity for water of amylose and NC are explored by single-molecule atomic force microscopy (AFM) and molecular dynamics (MD) simulations, respectively. The experimental results show that the single-molecule mechanics of both amylose and NC are dependent on the solvent polarity. Accordingly, the status of H-bonds of each polysaccharide can be inferred. We find that the two polysaccharides present the same status of H-bonds in a given organic solvent: the intrachain H-bonds can be formed in a nonpolar solvent (nonane), while they are completely prohibited in a highly polar solvent (dimethyl sulfoxide, ...