Effect of incubation temperature on the self-assembly of regenerated silk fibroin: A study using AFM

摘要

Understanding effect of temperature on the molecular self-assembly process will be helpful to unravel the structure-function relationship of biomolecule and to provide important information for the bottom-up approach to nanotechnology. In this work, the effect of incubation temperature on the secondary structures and morphological structures of regenerated silk fibroin (RSF) was systematically studied using atomic force microscopy and Fourier Transform infrared spectroscopy. The effect of incubation temperature on RSF self-assembly was dependent on RSF concentration. For the RSF solution with relatively low concentrations (15 mu g/mL and 60 mu g/mL), the increase of the incubation temperature mainly accelerated the formation and aggregation of antiparallel beta-sheet protofibrils and decreased the formation of random coil protofilaments/globule-like molecules. For the RSF solution with relatively high concentrations (300 mu g/mL and 1.5 mu g/mL), the increase of the incubation temperature mainly accelerated the formation and aggregation of antiparallel beta-sheet RSF features (protofibrils and globule-like features) and decreased the formation of random coil bead-like features. This work implies that the morphology and conformation of biomacromolecules could be tuned by controlling the incubation temperature. Further, it will be beneficial to basic understanding of the nanoscale structure formation in different silk-based biomaterials. (C) 2015 Elsevier B.V. All rights reserved.