Abstract: The present invention provides polymeric compositions that can be used to modify charge transport across a nanocrystal surface or within a nanocrystal-containing matrix, as well as methods for making and using the novel compositions.

Abstract: Methods for making glycoproteins, both in vitro and in vivo, are provided. One method involves incorporating an unnatural amino acid into a protein and attaching one or more saccharide moieties to the unnatural amino acid. Another method involves incorporating an unnatural amino acid that includes a saccharide moiety into a protein. Proteins made by both methods can be further modified with additional sugars.

Abstract: Porous and/or curved nanofiber bearing substrate materials are provided having enhanced surface area for a variety of applications including as electrical substrates, semipermeable membranes and barriers, structural lattices for tissue culturing and for composite materials, production of long unbranched nanofibers, and the like.

Abstract: Uncaging devices that can be used to uncage photoactivatable caged components are provided. Consistent, uniform and/or high throughput processing of reactions and assays that include caged components is provided. Masked multiwell plates that can be used for uncaging photoactivatable caged components are provided. Methods and apparatus for initiating assays involving caged components are provided.

Abstract: A number of caged (e.g., photoactivatable) compositions are provided, for example, caged enzyme sensors, caged binding sensors, caged nucleic acid probes, caged interfering RNAs, caged antisense nucleic acids, caged ribozymes, caged biomolecular analogs, caged transcription factors, caged antibodies, caged molecular decoys, and caged aptamers. Compositions comprising a plurality of caged components are also provided, as are labeled and optionally caged modulators. Also provided are kits for making the caged compositions and methods for making and for using the caged compositions. Related systems and devices are also provided (e.g., an uncaging device that can trigger photoactivatable assays and optionally detect signals from the assays).

Abstract: Methods for forming or patterning nanostructure arrays are provided. The methods involve formation of arrays on coatings comprising nanostructure association groups, patterning using resist, and/or use of devices that facilitate array formation. Related devices for forming nanostructure arrays are also provided, as are devices including nanostructure arrays (e.g., memory devices).

Abstract: The invention provides methods for screening compound or chemical libraries by analyzing expressed RNA samples from biological samples treated with members of a compound library in a high throughput format.

Abstract: The present invention provides methods and compositions for said inhibition of drug resistance. In one embodiment, said invention provides methods and compositions for said inhibition of antibiotic resistance. The invention generally involves said administration of achaogens, agents that inhibit said mutational process, to inhibit said evolution of drug resistance. Also, described herein are compositions that are suitable for use as achaogens.

Abstract: Methods of processing nanocrystals to remove excess free and bound organic material and particularly surfactants used during the synthesis process, and resulting nanocrystal compositions, devices and systems that are physically, electrically and chemically integratable into an end application.

Abstract: A method and apparatus for substance monitoring. One application is an easy to handle continuous glucose monitor using a group of hollow out-of-plane silicon microneedles to sample substances in interstitial fluid from the epidermal skin layer. The glucose of the interstitial fluid permeates a dialysis membrane and reaches a sensor. Using MEMS technology, for example, allows well-established batch fabrication at low cost.

Abstract: Taste receptor polycystin-2L1 is provided. Methods and systems for screening for tastants and receptor modulators are provided. Knock out and transgenic animals, methods of detecting polymorphisms, and methods of correcting taste defects are also provided.

Abstract: Translation systems and other compositions including orthogonal aminoacyl tRNA-synthetases that preferentially charge an orthogonal tRNA with an iodinated or brominated amino acid are provided. Nucleic acids encoding such synthetases are also described, as are methods and kits for producing proteins including heavy atom-containing amino acids, e.g., brominated or iodinated amino acids. Methods of determining the structure of a protein, e.g., a protein into which a heavy atom has been site-specifically incorporated through use of an orthogonal tRNA/aminoacyl tRNA-synthetase pair, are also described.

Abstract: A humanized murine antibody is provided that binds to the human insulin receptor (HIR). The humanized murine antibody is suitable for use as a Trojan horse to deliver pharmaceutical agents to human organs and tissue that express the HIR. The humanized munne antibody is especially well suited for delivering neuropharmaceutical agents from the blood stream to the brain across the blood brain barrier (BBB). The humanized murine antibody may be genetically fused to the pharmaceutical agent or it may be linked to the pharmaceutical agent using an avidin-biotin conjugation system.

Abstract: This invention provides methods and compositions to preserve bioactive materials in a dried foam matrix. Methods provide non-boiling foam generation and penetration of preservative agents at temperatures near the phase transition temperature of the membranes.

Abstract: This invention provides compositions and methods providing, e.g., stable powder particles containing bioactive materials. The methods include, e.g., high pressure spraying of the bioactive materials in solution or suspension, with viscosity enhancing agents and/or surfactants. Compositions of the invention provide, e.g., high initial purity, high stability in storage, and reconstitution at high concentrations.

Abstract: The invention provides methods and compositions for in vivo incorporation of unnatural amino acids. Also provided are compositions including proteins with unnatural amino acids.

Abstract: This invention utilizes a two-hybrid system to screen for agents that modulate the ability of a cell to degrade or to accumulate a metabolic product or to selective kill a cell or to selectively express a gene or cDNA in a cell that has a defect in its ability to degrade or to accumulate a metabolic product. One embodiment provides a mammalian cell comprising a nucleic acid encoding a peptide binding domain and an effector gene; a first chimeric protein comprising a nucleic acid binding domain that binds the peptide binding domain attached to the metabolic product or to a ligand that binds to the metabolic product; and a second chimeric protein comprising an expression control protein attached to the metabolic product or to the ligand that binds to the metabolic product such that when the first chimeric protein comprises the metabolic product, the second chimeric protein comprises the ligand and when the first chimeric protein comprises the ligand, the second chimeric protein comprises the metabolic product.