In Silico Design and Analysis of Plastic-Binding Peptides

Abstract: Peptides that bind to inorganic materials can be used to functionalize surfaces, control crystallization, or assist in interfacial self-assembly. In the past, inorganic-binding peptides have been found predominantly through peptide library screening. While this method has successfully identified peptides that bind to a variety of materials, an alternative design approach that can intelligently search for peptides and provide physical insight for peptide affinity would be desirable. In this work, we develop a c… Show more

“…apple leave wax 628 ). There are some models reported for amorphous surfaces, 640,641 however, the accurate representation of these surfaces is more challenging. The computational models are required to mimic material properties on a structural level, especially in respect to crystallinity and mixtures of crystalline and amorphous areas that are often important for macroscopic material properties.…”

Material-specific binding peptides empower sustainable innovations in plant health, biocatalysis, medicine and microplastic quantification

“…apple leave wax 628 ). There are some models reported for amorphous surfaces, 640,641 however, the accurate representation of these surfaces is more challenging. The computational models are required to mimic material properties on a structural level, especially in respect to crystallinity and mixtures of crystalline and amorphous areas that are often important for macroscopic material properties.…”

Material-specific binding peptides empower sustainable innovations in plant health, biocatalysis, medicine and microplastic quantification

Structural studies of catalytic peptides using molecular dynamics simulations

Solid-Binding Peptide for Enhancing Biocompatibility of Metallic Biomaterials