Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.10.04.325696v1?rss=1 Authors: Zheng, C., Yu, Y., Kuang, S., Zhu, B., Zhou, H., zhang, s.-q., Yang, J., Shi, L., Ran, C. Abstract: Molecular switching plays a critical role in biological and displaying systems. Here we demonstrate the first use of peptides to operate molecular switches of donor-acceptor Stenhouse adducts (DASAs), a series of negative photochromes that are highly promising for applications ranging from smart material to biological systems. Fluorescence imaging proved A{beta}40 species could make SHA-2 more stable in the linear configuration than without peptide and decrease the rate of molecular switching. According to molecular dynamics simulation, SHA-2 bound to protein resulted in substantial changes in the tertiary structure of A{beta}40 monomer with the region of Glu22-Ala30 partially unfolded and being more exposed to water. This structural change is likely to impede the aggregation of A{beta}40, as evidenced by fluorescence and ProteoStat aggresome detection experiments. SHA-2 is able to inhibit the aggregation of A{beta}40 by producing the off-pathway structures. These results open ample opportunities for optically addressable potential widely apply DASAs in the biological system based on this peptides-tailor process. Copy rights belong to original authors. Visit the link for more info