Abstract: Comparative genomic hybridization assays and compositions for use in practicing the same are provided. A characteristic of the subject comparative genomic hybridization assays is that solid support immobilized oligonucleotide feature elements, e.g., in the form of an array, are employed. Specifically, at least first and second nucleic acid populations prepared from genomic templates are contacted with a plurality of distinct oligonucleotide feature elements immobilized on a solid support surface and the binding of the at least first and second populations is then evaluated. Also provided are kits for use in practicing the subject methods.

Abstract: Comparative genomic hybridization assays and compositions for use in practicing the same are provided. A characteristic of the subject comparative genomic hybridization assays is that solid support immobilized oligonucleotide feature elements, e.g., in the form of an array, are employed. Specifically, at least first and second nucleic acid populations prepared from genomic templates are contacted with a plurality of distinct oligonucleotide feature elements immobilized on a solid support surface and the binding of the at least first and second populations is then evaluated. Also provided are kits for use in practicing the subject methods.

Abstract: Comparative genomic hybridization assays and compositions for use in practicing the same are provided. A characteristic of the subject comparative genomic hybridization assays is that solid support immobilized oligonucleotide feature elements, e.g., in the form of an array, are employed. Specifically, at least first and second nucleic acid populations prepared from genomic templates are contacted with a plurality of distinct oligonucleotide feature elements immobilized on a solid support surface and the binding of the at least first and second populations is then evaluated. Also provided are kits for use in practicing the subject methods.

Abstract: Devices are disclosed having one or more detection sites. The devices comprise a conductive layer and a plurality of separate conductive elements. The conductive layer has a plurality of openings therethrough and is at equipotential. Each of the conductive elements is exposed within a respective opening in the conductive layer and is separated therefrom by an insulating material to provide an exposed surface of the insulating material thereby providing detection sites. The detection sites or groups thereof are electrically isolated from one another. The electrical properties of the exposed surfaces are individually electrically addressable and readable by virtue of the conductive elements and the conductive layer. The exposed surface usually has a reactant attached thereto. The reactant may be the same at each detection site or the reactant at one site may be different from a reactant at another site.

Abstract: To probe the characteristics of a target nucleic acid molecule or a population of target nucleic acid molecules, a local cross-sectional area, local charge, or local chemistry of a molecule is modified. The modified nucleic acid is contacted with a substrate that includes a detector that is responsive to the modification in the local cross-sectional area, local charge, or local chemistry of the nucleic acid molecule. The modified nucleic acid molecule traverses a defined and preferably molecular dimensioned volume on the substrate so that nucleotides of the modified nucleic acid molecule interact with the detector in sequential order, whereby data correlating with the cross-sectional area, local charge, or local chemistry of the nucleic acid molecule are obtained. The nucleic acid molecule may be modified in a number of locations along the molecule's length.

Abstract: Novel superconducting oxide compositions of the formulas (YBa.sub.2 Cu.sub.3.25).sub.a O.sub.z and Y.sub.2 Ba.sub.4 Cu.sub.8 O.sub.20-x (248) are provided which can have an ordered defect structure stacked on one axis. MiThis invention was made with Government support under contracts DMR-8616055 awarded by the National Science Foundation and F49620-88C-0004 awarded by the United States Air Force. The Government has certain rights in this invention.