Binding sites for luminescent amyloid biomarkers from non-biased molecular dynamics simulations
Chemical communications, 2018•pubs.rsc.org
A very stable binding site for the interaction between a pentameric oligothiophene and an
amyloid-β (1–42) fibril has been identified by means of non-biased molecular dynamics
simulations. In this site, the probe is locked in an all-trans conformation with a Coulombic
binding energy of 1200 kJ mol− 1 due to the interactions between the anionic carboxyl
groups of the probe and the cationic ε-amino groups in the lysine side chain. Upon binding,
the conformationally restricted probes show a pronounced increase in molecular planarity …
amyloid-β (1–42) fibril has been identified by means of non-biased molecular dynamics
simulations. In this site, the probe is locked in an all-trans conformation with a Coulombic
binding energy of 1200 kJ mol− 1 due to the interactions between the anionic carboxyl
groups of the probe and the cationic ε-amino groups in the lysine side chain. Upon binding,
the conformationally restricted probes show a pronounced increase in molecular planarity …
A very stable binding site for the interaction between a pentameric oligothiophene and an amyloid-β(1–42) fibril has been identified by means of non-biased molecular dynamics simulations. In this site, the probe is locked in an all-trans conformation with a Coulombic binding energy of 1200 kJ mol−1 due to the interactions between the anionic carboxyl groups of the probe and the cationic ε-amino groups in the lysine side chain. Upon binding, the conformationally restricted probes show a pronounced increase in molecular planarity. This is in line with the observed changes in luminescence properties that serve as the foundation for their use as biomarkers.
The Royal Society of Chemistry