Add to ORKGThe entrapment of proteins using the sol-gel route provides a means to retain its native properties and artifi cially reproduce the molecular crowding and confi nement experienced by proteins in the cell allowing investigation of the physico-chemical and structural properties of biomolecules at the biotic/abiotic interface. The biomolecules are spatially separated and ‘caged’ in the gel structure but solutes can freely permeate the matrix. Thus, properties such as the folding of ensembles of individual molecules can be examined in the absence of aggregation effects that can occur in solution studies. Green fl uorescent protein from Aequorea coerulescens was used as a model protein to examine the unfolding/re-folding properties of protein in...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
Organically-modified siloxanes were used as host materials to examine the influence of surface chemi...
Proteins encapsulated in wet, nanoporous silica gels usually maintain their structural and functiona...
Abstract: The encapsulation of biomolecules in solid materials that retain the native properties of ...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The immobilization of biological species such its proteins and enzymes in sol-gel hosts is currently...
The immobilization of biological species such as proteins and enzymes in sol-gel hosts is currently ...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The immobilization of biological species such as proteins and enzymes in sol - gel hosts is currentl...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
Thesis (Master's)--University of Washington, 2016-06Silica-based sol-gel materials as carriers for i...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
Organically-modified siloxanes were used as host materials to examine the influence of surface chemi...
Proteins encapsulated in wet, nanoporous silica gels usually maintain their structural and functiona...
Abstract: The encapsulation of biomolecules in solid materials that retain the native properties of ...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The encapsulation of biomolecules in solid materials that retain the native properties of the molecu...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The immobilization of biological species such its proteins and enzymes in sol-gel hosts is currently...
The immobilization of biological species such as proteins and enzymes in sol-gel hosts is currently ...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
The immobilization of biological species such as proteins and enzymes in sol - gel hosts is currentl...
The development of silica-based sol-gel techniques compatible with the retention of protein structur...
Thesis (Master's)--University of Washington, 2016-06Silica-based sol-gel materials as carriers for i...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
The potential of wet sol-gel derived silica gels as new matrices for the entrapment and sustained re...
Organically-modified siloxanes were used as host materials to examine the influence of surface chemi...
Proteins encapsulated in wet, nanoporous silica gels usually maintain their structural and functiona...