Andere Kunden interessierten sich auch für
![Study on Physicochemical Properties of Food Protein]( "Study on Physicochemical Properties of Food Protein")
Study on Physicochemical Properties of Food Protein72,99 €![Mechanisms of ER Protein Import]( "Mechanisms of ER Protein Import")
Mechanisms of ER Protein Import81,99 €![Structure, Activity, and Function of Protein Methyltransferases]( "Structure, Activity, and Function of Protein Methyltransferases")
Structure, Activity, and Function of Protein Methyltransferases85,99 €![Recent Developments on Protein-Ligand Interactions]( "Recent Developments on Protein-Ligand Interactions")
Recent Developments on Protein-Ligand Interactions85,99 €![Impacts of Molecular Structure on Nucleic Acid-Protein Interactions]( "Impacts of Molecular Structure on Nucleic Acid-Protein Interactions")
Impacts of Molecular Structure on Nucleic Acid-Protein Interactions80,99 €![Plant Protein and Proteome Altlas--Integrated Omics Analyses of Plants under Abiotic Stresses]( "Plant Protein and Proteome Altlas--Integrated Omics Analyses of Plants under Abiotic Stresses")
Plant Protein and Proteome Altlas--Integrated Omics Analyses of Plants under Abiotic Stresses151,99 €![Frontiers in Protein Structure Research]( "Frontiers in Protein Structure Research")
Frontiers in Protein Structure Research105,99 €
Protein adsorption to solids, nanomaterials, and biological surfaces is of central interest in many fields, including biomedicine, bioanalytical chemistry, materials engineering, bio-nanotechnology, and basic biomolecular research. Although protein adsorption may sometimes occur with little consequence on molecular structure, interactions with surfaces frequently cause changes in local or global conformations and dynamics, perturbations to secondary structures or tertiary folds, eventually resulting in dramatically altered protein function. Importantly, surfaces may trigger protein misfolding and self-aggregation, or, conversely, promote protein structure formation. The use of nanoscale surfaces to remodel the conformational landscape and the aggregation pathways of amyloidogenic peptides and proteins has been proposed as a promising strategy against several severe human diseases. The rapid growth of applications and technological innovation which is based on or concerned with protein adsorption necessitates renewed efforts to provide molecular-level insights into adsorption-induced protein structural perturbations. In this Special Issue, we gathered the recent findings of experimental and computational investigations that contributed novel insights into protein adsorption with a focus on the structural and dynamic aspects of proteins.