Abstract: The subject matter disclosed herein generally relates to glass compositions for protecting glass and methods of making and using the compositions.
Abstract: A method of treating a substrate for immobilizing a biomolecule and substrates produced by the method are disclosed. The method includes contacting at least a portion of a substrate with a reducing agent such as a hydride. Treatment with an appropriate reducing agent substantially eliminates autofluorescence on substrates.
Abstract: The present invention provides a method and reagent composition for attachment of target molecules onto the surface of a substrate, such as microwell plates, tubes, beads, microscope slides, silicon wafers or membranes. In one embodiment, the method and composition are used to immobilize nucleic acid probes onto plastic materials such as microwell plates, e.g., for use in hybridization assays. In a preferred embodiment, the method and composition are adapted for use with substantially flat surfaces, such as those provided by microscope slides and other plastic, silicon hydride, or organosilane-pretreated glass or silicone slide support surfaces. The reagent composition can then be used to attach a target molecule such as a biomolecule (e.g., a nucleic acid) which in turn can be used for specific binding reactions (e.g., to hybridize a nucleic acid to its complementary strand).
Abstract: Supports for immobilizing molecules, particularly biomolecules, methods of making such supports, kits, and biomolecular hybridization assay devices are disclosed. The methods, supports and devices include forming a triamine layer on at least a portion of a substrate and attaching a compound to a portion of the substrate.