Abstract: The present invention includes polyol modified titanium compounds, their preparation and use in methods to make biomolecule compatible monolithic titania. The invention also includes the use of the biomolecule compatible monolithic titania in bioanalytic applications, for example in biosensors, chromatographic columns, microarrays and bioaffinity columns.

Abstract: The present invention relates to a two-step method of preparing methylsilsequixane (MSQ) materials suitable for chromatographic applications comprising treating a MSQ precursor with a suitable acid followed by treatment with a suitable base under conditions to form a MSQ monolith suitable for chromatographic applications.

Abstract: The present invention involves a multicomponent protein microarray comprising two or more components of a protein-based system entrapped within spots of a biomolecule compatible matrix arranged on a surface. Also included are methods of using the microarray for multicomponent analysis along with kits and machinery comprising the microarray.

Abstract: The present invention relates to methods of immobilizing membrane-associated molecules within a sol-gel matrix. The membrane-associated molecule is embedded in the bilayer of a liposome. The molecule-liposome assembly remains functionally intact when it is immobilized within a protein and membrane-compatible sol-gel derived from polyol silane precursors or sodium silicate. The activity and stability of the entrapped membrane-associated molecule was significantly improved in macroporous silica.

Abstract: Siliceous materials were prepared by adding one or more additives, including one or more water soluble polymers, and derivatives thereof, as well as trifunctional silanes, to sols containing tetraalkoxysilanes derived from polyols. The polymers facilitate phase separation of the growing silica gel matrix, leading to high surface area self-supporting silica gels with cure occurring at ambient temperatures. The materials also show a significant reduction in shrinkage properties and significant protein stabilization abilities.

Abstract: Sol-gel derived monolithic silica columns containing entrapped dihydrofolate reductase were used for frontal affinity chromatography of small molecule mixtures. The output from the column combined with a second stream containing the matrix molecule (HCCA) and was directly deposited onto a conventional MALDI plate that moved relative to the column via a computer controlled x-y stage, creating a semi-permanent record of the FAC run. The use of MALDI MS allowed for a decoupling of the FAC and MS methods allowing significantly higher ionic strength buffers to be used for FAC studies, which allowed for better retention of protein activity over multiple runs.

Abstract: Described is a carrier having a biomolecular interaction incorporated therein. The carrier is described as comprising a silica based glass and in an embodiment is a sol-gel derived glass. Also described are methods of incorporating biomolecular interaction within a carrier of the invention. Various types of biomolecular interaction are discussed as well as applications of carriers containing one or more biomolecular interactions.

Abstract: Siliceous materials were prepared by adding one or more additives, including one or more water soluble polymers, and derivatives thereof, as well as trifunctional silanes, to sols containing tetraalkoxysilanes derived from polyols. The polymers facilitate phase separation of the growing silica gel matrix, leading to high surface area self-supporting silica gels with cure occurring at ambient temperatures. The materials also show a significant reduction in shrinkage properties and significant protein stabilization abilities.

Abstract: Methods for the selection of deoxyribozymes that are active at selected pH ranges are provided. The method comprises detection of a ribonucleotide cleavage event. The detection of catalysis is coupled to the generation of a fluorescent signal. Novel deoxyribozymes which are capable of performing catalysis at pH3, pH4, pH5, pH6 and pH7 were isolated using the methods of the present invention.

Abstract: Siliceous materials are prepared by adding one or more additives, including water soluble polymers, and derivatives thereof, to sols containing tetraalkoxysilanes derived from polyols. The polymers facilitate phase separation of the growing silica gel matrix, leading to high surface area self-supporting silica gels with cure occurring at ambient temperatures. The materials also show a significant reduction in shrinkage properties.

Abstract: The present invention relates to methods of immobilizing membrane-associated molecules within a sol-gel matrix. The membrane-associated molecule is embedded in the bilayer of a liposome. The molecule-liposome assembly remains functionally intact when it is immobilized within a protein and membrane-compatible sol-gel derived from polyol silane precursors or sodium silicate.

Abstract: The invention relates to the preparation of monolithic silica under mild conditions from alkoxysilanes derived from sugars, sugar acids, sugar alcohols and polysaccharides including glycerol, sorbitol, mannose and dextran. Unlike the commonly used silica starting material TEOS (Si(OEt)4), the sol-gel hydrolysis and cure of the sugar derivatives are not very sensitive to pH as similar rates of gelation were observed over a pH range of about 5.5-11. The morphology of the resulting silicas could be varied using specific additives, including multivalent ions and hydrophilic polymers.