Abstract: The invention is directed to compositions of mutated binding proteins containing thiol groups for coupling to sensor surfaces, analyte biosensor devices derived there from, and methods of their use as analyte biosensors both in vitro and in vivo.

Abstract: The invention is directed to compositions of mutated binding proteins containing thiol groups for coupling to sensor surfaces, analyte biosensor devices derived there from, and methods of their use as analyte biosensors both in vitro and in vivo.

Abstract: The invention is directed to compositions of mutated binding proteins containing thiol groups for coupling to sensor surfaces, analyte biosensor devices derived there from, and methods of their use as analyte biosensors both in vitro and in vivo.

Abstract: Multicoated or multilayer matrices capable of embedding, encapsulating or entrapping binding proteins, optionally with a reporter group attached, specific for analytes of interest, in particular sugars, and methods of making and using such matrices.

Abstract: The invention is directed to compositions of mutated binding proteins containing thiol groups for coupling to sensor surfaces, analyte biosensor devices derived there from, and methods of their use as analyte biosensors both in vitro and in vivo.

Abstract: Methods for detection and analysis of allosteric receptor/ligand binding by changes in surface refractive index are provided. When analyzed by surface plasmon resonance, binding of such allosteric binding agents to their ligands may result in a negative deviation in the optical response (i.e., a decrease in resonance angle) or in an increase in the optical response (i.e., an increase in resonance angle) depending on the binding properties of the selected allosteric receptor. Other methods for analysis of surface refractive index are also useful in the invention. The methods of the invention are particularly useful for small ligands which would not be expected to produce detectable changes in refractive index because they do not add significant mass upon binding.

Abstract: A method and apparatus for improving the efficiency of the growth of cell and tissue cultures in vitro is disclosed. The improvement in efficiency is achieved through the use of a scaffold formed from an open cell polymer foam that has been surface treated by an oxidative plasma discharge. In one embodiment, the polymer foam is a polystyrene foam treated with an oxygen gas plasma to functionalize the surface of the polymer. In the preferred embodiment, the scaffold is used as an insert for a bioreactor to culture cells and tissue. The scaffold is formed from a porous polymer structure having a continuous polymer matrix with a plurality of interconnected open pores. The pore size typically ranges from about 50 microns to about 500 microns.

Abstract: Detector nucleic acids are employed for detection of nucleic acid target sequences by fluorescence quenching mechanisms. The detector nucleic acid comprises at least two oligonucleotides and is partially single-stranded and partially double-stranded. One of the two dyes of a donor/acceptor dye pair is linked to the first oligonucleotide and the other is linked to a second oligonucleotide such that they are in close spatial proximity when the first and second oligonucleotides are base-paired and donor fluorescence is quenched. A single second oligonucleotide may be hybridized to the first oligonucleotide or multiple second oligonucleotides may be hybridized to the first oligonucleotide and to each other, forming a junction structure comprising multiple donor/acceptor dye pairs. The detector oligonucleotide retains its partially single-stranded and partially double-stranded conformation in the absence of target.

Abstract: Detector nucleic acids are employed for detection of nucleic acid target sequences by fluorescence quenching mechanisms. The detector nucleic acid comprises at least two oligonucleotides and is partially single-stranded and partially double-stranded. One of the two dyes of a donor/acceptor dye pair is linked to the first oligonucleotide and the other is linked to a second oligonucleotide such that they are in close spatial proximity when the first and second oligonucleotides are base-paired and donor fluorescence is quenched. A single second oligonucleotide may be hybridized to the first oligonucleotide or multiple second oligonucleotides may be hybridized to the first oligonucleotide and to each other, forming a junction structure comprising multiple donor/acceptor dye pairs. The detector oligonucleotide retains its partially single-stranded and partially double-stranded conformation in the absence of target.

Abstract: Detector nucleic acids are employed for detection of nucleic acid target sequences by fluorescence quenching mechanisms. The detector nucleic acid comprises at least two oligonucleotides and is partially single-stranded and partially double-stranded. One of the two dyes of a donor/acceptor dye pair is linked to the first oligonucleotide and the other is linked to a second oligonucleotide such that they are in close spatial proximity when the first and second oligonucleotides are base-paired and donor fluorescence is quenched. A single second oligonucleotide may be hybridized to the first oligonucleotide or multiple second oligonucleotides may be hybridized to the first oligonucleotide and to each other, forming a junction structure comprising multiple donor/acceptor dye pairs. The detector oligonucleotide retains its partially single-stranded and partially double-stranded conformation in the absence of target.