Exploring the effect of silicene monolayer on the structure and function of villin headpiece and amyloid fibrils by molecular dynamics simulations

Abstract: With the development of various nanomaterial expected to be used in biomedical fields, it is more important to evaluate and understand their potential effects on biological system. In this work, two proteins with different structure, Villin Headpiece (HP35) with α‐helix structure and protofibrils Aβ1‐42 with five β‐strand chains, were selected and their interactions with silicene were studied by means of molecular dynamics (MD) simulation to reveal the potential effect of silicene on the structure and function… Show more

“…Meng et al [174] have studied the interaction of protein biomolecules HP35 and α-helix and Aβ1-42 fibrils with β-strand by employing molecular dynamics simulation. The total time of the simulation has been considered to be 200 ns.…”

A review on transport characteristics and bio-sensing applications of silicene

“…Meng et al [174] have studied the interaction of protein biomolecules HP35 and α-helix and Aβ1-42 fibrils with β-strand by employing molecular dynamics simulation. The total time of the simulation has been considered to be 200 ns.…”

A review on transport characteristics and bio-sensing applications of silicene

On the interface between biomaterials and two-dimensional materials for biomedical applications