Abstract: The present disclosure pertains to detection of biomarkers in a sample. More particularly, the disclosure relates to methods for treating the sample to liberate certain analytes prior to the assay. Composition for disrupting the HIV virus and antibody-antigen complex to release p24 antigen is also disclosed. The disclosed methods and compositions are compatible with existing HIV antigen/antibody combination assays and improve the sensitivity of such assays.

Abstract: Methods of addressing a biomolecule to a selectively addressable electrode are described. A permeation layer overlying a plurality of selectively addressable electrodes is provided. The permeation layer includes a reactive group that is adapted to bond to a biomolecule and that requires activation through a chemical transformation before bonding to the biomolecule. At least one selectively addressable electrode is biased such that a pH change occurs in an overlying solution of the at least one selectively addressable electrode. The reactive group in a portion of the permeation layer above the at least one selectively addressable electrode is then chemically transformed to an activated reactive group as a result of the pH change. A biomolecule is then bound to the permeation layer overlying the at least one selectively addressable electrode through the activated reactive group.

Abstract: Methods of addressing a biomolecule to a selectively addressable electrode are described. A permeation layer overlying a plurality of selectively addressable electrodes is provided. The permeation layer includes a reactive group that is adapted to bond to a biomolecule and that requires activation through a chemical transformation before bonding to the biomolecule. At least one selectively addressable electrode is biased such that a pH change occurs in an overlying solution of the at least one selectively addressable electrode. The reactive group in a portion of the permeation layer above the at least one selectively addressable electrode is then chemically transformed to an activated reactive group as a result of the pH change. A biomolecule is then bound to the permeation layer overlying the at least one selectively addressable electrode through the activated reactive group.

Abstract: Compositions and methods of preparing functional thin films or surface coatings with low non-specific binding are described. The thin films contain specified functional groups and non-specific binding repellant components. The thin films are either covalently bound to or passively adsorbed to various solid substrates. The specified functional group provides specified activity for the thin film modified solid surfaces and non-specific binding repellant components significantly reduce the non-specific binding to the thin film modified solid surfaces. Non-specific binding repellant components do not affect specified functional group's activity in the thin films. In these methods, specified functional groups are anchored to the solid substrates through a spacer.

Abstract: This invention relates to attachment chemistries for binding macromolecules to a substrate surface or to other conjugation targets. More particularly, this invention relates to attachment chemistries involving branched or linear structures having one or more hydrazide attachment moieties for binding the macromolecules to a substrate surface, or for other conjugation reactions. Novel modifying reagents are provided for the introduction of protected hydrazide attachment moieties or precursor forms of such hydrazides to the macromolecule, either as a single hydrazide or as multiple hydrazides.

Abstract: This invention relates to attachment chemistries for binding macromolecules to a substrate surface or to other conjugation targets. More particularly, this invention relates to attachment chemistries involving branched or linear structures having one or more hydrazide attachment moieties for binding the macromolecules to a substrate surface, or for other conjugation reactions. Novel modifying reagents are provided for the introduction of protected hydrazide attachment moieties or precursor forms of such hydrazides to the macromolecule, either as a single hydrazide or as multiple hydrazides.

Abstract: The present invention pertains to a method of, and a device created by, depositing an inorganic permeation layer on a micro-electronic device for molecular biological reactions. The permeation layer is preferably sol-gel. The sol-gel permeation layer can be created with pre-defined porosity, pore size distribution, pore morphology, and surface area. The sol-gel permeation layer may also function as the attachment layer of the micro-electric device.

Abstract: The present invention pertains to a method of, and a device created by, depositing an inorganic permeation layer on a micro-electronic device for molecular biological reactions. The permeation layer is preferably sol-gel. The sol-gel permeation layer can be created with pre-defined porosity, pore size distribution, pore morphology, and surface area. The sol-gel permeation layer may also function as the attachment layer of the micro-electric device.