Abstract: Disclosed are various embodiments for a high-performance computing framework for cloud computing environments. A parallel computing application executable by at least one computing device of the cloud computing environment can call a message passing interface (MPI) to cause a first one of a plurality of virtual machines (VMs) of a cloud computing environment to store a message in a queue storage of the cloud computing environment, wherein a second one of the plurality of virtual machines (VMs) is configured to poll the queue storage of the cloud computing environment to access the message and perform a processing of data associated with the message. The parallen computing application can call the message passing interface (MPI) to access a result of the processing of the data from the queue storage, the result of the processing being placed in the queue storage by the second one of the plurality of virtual machines (VMs).

Abstract: Analyte sensors, methods for producing and using analyte sensors, methods of detecting and/or measuring analyte activity, detecting pH change, and/or, controlling the concentration of an analyte in a system, are disclosed. Embodiments of the analyte sensors according to the disclosure can provide an accurate and convenient method for characterizing analyte activity, detecting pH change, controlling the concentration of an analyte in a system, and the like, in both in vivo and in vitro environments, in particular in living cell imaging.

Abstract: The present invention is directed to methods and compositions that are effective in the inhibition of viral replication. In particular, the methods and compositions are effective at interfering with the activity of host cell proteins required in viral replication. For example, an embodiment of the invention is directed to methods and compositions comprising RNA sequences to which the host cell proteins TIAR and/or TIA-1 bind.

Abstract: Disclosed are conjugates that can bind to one or more site on cancer cell surface, for example, surface proteins, compound specific receptors and carbohydrates that comprise the surface of specific cell types. The disclosed conjugates can thereby serve as indicators identifying the presence of cancerous tissue.

Abstract: The present invention is directed to methods for delaying a plant development process comprising exposing a plant or plant part to one or more bacteria or enzymes. In specific embodiments, the one or more bacteria are selected from the group consisting of Rhodococcus spp., Pseudomonas chloroaphis, Brevibacterium ketoglutamicum, and a mixture comprising any combination of these bacteria. Apparatuses for delaying a plant development process comprising a catalyst that comprises one or more of the above bacteria.

Abstract: The instant invention provides near-infrared fluorescent biological contrast agents and methods of using them.

Abstract: A contrast agent having a contrast protein have contrast properties and at least one targeting moiety, wherein the at least one targeting moiety is operatively linked to or incorporated within the contrast protein. Methods for targeting contrast agents and for preparing such agents are included.

Abstract: Provided are methods and compositions for inhibiting or reducing fungal growth. The methods comprise exposing a location to a composition comprising one or more enzymes, one or more bacteria, and/or an enzymatic extract, wherein the one or more enzymes, one or more bacteria, and/or the enzymatic extract isolated from one or more bacteria are exposed to location in a quantity sufficient to inhibit or reduce fungal growth.

Abstract: A composition, reactor apparatus, method, and control system for growing epitaxial layers of group III-nitride alloys. Super-atmospheric pressure is used as a process parameter to control the epitaxial layer growth where the identity of alloy layers differ within a heterostructure stack of two or more layers.

Abstract: A method for stimulating angiogenesis in a tissue of a mammal comprising contacting tissue with a protein substantially similar to pyruvate kinase M2.

Abstract: Embodiments of the present disclosure provide methods for analyte sensors including methods for producing and using the analyte sensors, methods of detecting and/or measuring analyte activity, methods for characterizing analyte cellular activity, methods of detecting pH change in a system, method of controlling the concentration of an analyte in a system, fusion proteins, polynucleotides, and vectors corresponding to the analyte sensors, kits, and the like.

Abstract: A semiconductor junction may include a first semiconductor material and a second material. The first and the second semiconductor materials are extrinsically undoped. At least a portion of a valence band of the second material has a higher energy level than at least a portion of the conduction band of the first semiconductor material (type-III band alignment). A flow of a majority of free carriers across the semiconductor junction is diffusive. A region of generation and/or recombination of a plurality of free carriers is confined to a two-dimensional surface of the second material, and at the interface of the first semiconductor material and the second material.

Abstract: Selective chemosensing agents for hydrogen sulfide are provided. The chemosensing agents can act fast under mild conditions, are chemically stable for long-term storage, are sensitive for detection under near physiological conditions, show a linear concentration-signal relationship within physiologically relevant hydrogen sulfide concentration ranges for easy quantitation, show minimal or no interference by other anions in the blood, and are functional in aqueous solutions and blood plasma.

Abstract: Anti-angiogenic agents or polypeptides comprising an amino acid segment substantially similar to domain one of CD2 wherein the polypeptide has a ?-sheet formed by two segments. Methods of using such agents and polypeptide are also included.

Abstract: Described herein are analyte sensors with a tailored analyte binding motif that binds an analyte and a host protein operatively linked to the analyte binding motif, in which the binding of the analyte to the analyte binding motif produces a detectable change and manipulation of the analyte binding motif manipulates the responsiveness of the sensor. Also described herein are methods for constructing an analyte sensor by constructing a tailored analyte binding motif capable of responding to an analyte and operatively inserting the analyte binding motif into a host protein. Included is a method for quantifying an analyte by introducing a nucleotide sequence for a protein having an analyte sensor with a tailored analyte binding motif that is able to produce a detectable change upon excitation, expressing the protein, providing excitement to the analyte sensor, and quantifying the detectable change.

Abstract: Embodiments of the present disclosure provide for enzyme sensors, protease sensors, methods for producing and using the enzyme and protease sensors, methods of detecting and/or measuring protease activity, methods for characterizing protease cellular activity, fusion proteins, polynucleotides, and vectors corresponding to the enzyme and protease sensors, kits, and the like.

Abstract: The present disclosure encompasses oligonucleotide aptamers selectively binding a target glycosylated polypeptide or protein, and having biased affinity for the glycan through a boronic acid linked to a nucleosidic base of a nucleotide(s). The disclosure further encompasses methods for isolating an aptamer(s) selectively binding a target glycosylated polypeptide, where, from a population of randomized oligonucleotides that have at least one nucleotide having a boronic acid label linked to a base, is selected a first subpopulation of aptamers binding to the target glycosylated polypeptide or protein. This subpopulation is then amplified without using boronic acid-modified TTP, and amplification products not binding to a target glycosylated polypeptide or protein are selected. The second subpopulation of aptamers is then amplified using boronic acid-modified TTP to provide a population of boronic acid-modified aptamers capable of selectively binding to a glycosylation site of a target polypeptide or protein.

Abstract: Analyte sensors, methods for producing and using analyte sensors, methods of detecting and/or measuring analyte activity, detecting pH change, and/or, controlling the concentration of an analyte in a system, are disclosed. Embodiments of the analyte sensors according to the disclosure can provide an accurate and convenient method for characterizing analyte activity, detecting pH change, controlling the concentration of an analyte in a system, and the like, in both in vivo and in vitro environments, in particular in living cell imaging.

Abstract: Inhibitors of the Hypoxia Inducible Factor (HIF) and angiogenesis and their methods of use including the treatment of cancer, hypoxia related pathologies, disorders leading to ischemia, for example stroke and ischemic heart disease, and non-cancerous angiogenic diseases are provided.

Abstract: Monolayer protected nanoclusters (MPCs) are described herein. The MPCs contain a cluster of atoms or molecules (e.g. core) having bound thereto a plurality of ligands (e.g., monolayer). The ligands can be bound covalently or semi-covalently bound to the cluster. The ligands are generally in the form of a monolayer or mixed monolayer. The monolayer or mixed monolayer contains a plurality of ligands. In one embodiment, the monolayer and/or mixed monolayer contains 1,4-dithiolate ligands. The MPCs described herein exhibit improved quantum efficiency allowing for single cluster emissions to be measured. Moreover, some embodiments of the MPCs described herein exhibit enhanced redox activity, including the ability to transfer a plurality of electrons, i.e., up to about 19 or up to about 30 electrons under controlled conditions, while displaying improved overall chemical stability. Such behavior can be utilized in catalysis and nanoelectronics applications.