Abstract: The disclosure relates to the production of methyl laurate by genetically engineered photosynthetic microorganisms. In particular, provided herein are methods and compositions for producing methyl laurate from carbon dioxide and water in genetically engineered cyanobacteria and other photosynthetic microorganisms.

Abstract: A sensor including a layer of amorphous selenium (a-Se) and at least one charge blocking layer is formed by depositing the charge blocking layer over a substrate prior to depositing the amorphous selenium, enabling the charge blocking layer to be formed at elevated temperatures. Such a process is not limited by the crystallization temperature of a-Se, resulting in the formation of an efficient charge blocking layer, which enables improved signal amplification of the resulting device. The sensor can fabricated by forming first and second amorphous selenium layers over separate substrates, and then fusing the a-Se layers at a relatively low temperature.

Abstract: The present disclosure provides nucleic acid compositions that incorporate one or more halouracil molecules. More specifically, the present disclosure reveals that the replacement of uracil nucleotides within a microRNA nucleotide sequence with a 5-halouracil increases the ability of the micro-RNA to inhibit cancer progression and tumorigenesis. As such, the present disclosure provides various nucleic acid (e.g., microRNA) compositions having 5-halouracil molecules incorporated in their nucleic acid sequences and methods for using the same. The present disclosure further provides pharmaceutical compositions comprising the modified nucleic acid compositions, and methods for treating cancers using the same.

Abstract: A substrate subject to degradation at temperatures above 100° C. is coated with a nanostructured ceramic coating having a thickness in excess of 100 nm, formed on a surface of the substrate, wherein a process temperature for deposition of the nanostructured coating does not exceed 90° C. The coating may be photocatalytic, photovoltaic, or piezoelectric. The coating, when moistened and exposed to ultraviolet light or sunlight, advantageously generates free radicals, which may be biocidal, deodorizing, or assist in degradation of surface deposits on the substrate after use. The substrate may be biological or organic, and may have a metallic or conductive intermediate layer.

Abstract: A system and method of scheduling tasks, comprising receiving activity and performance data from registers or storage locations maintained by hardware and an operating system; storing calibration coefficients associated with the activity and performance data; computing an energy dissipation rate based on at least the activity and performance data; and scheduling tasks under the operating system based on the computed energy dissipation rate.

Abstract: The present disclosure relates to wheat plants having grain with high ?-glucan content, methods for constructing said wheat plants, grain therefrom and uses thereof. Wheat lines homozygous for the HvCslF6 gene from barley having five times the fiber content and an increased ?-glucan content of TA5790, TA5792, and TA5795 are disclosed.

Abstract: The present invention is directed methods for identifying, in a sample, one or more target nucleotide sequences differing from other nucleotide sequences in the sample by one or more nucleotides, one or more copy numbers, one or more transcript sequences, and/or one or more methylated residues, using ligation detection reactions, polymerase mediated extension reactions, and/or cleavage reactions. The present invention is also directed to methods for identifying, in a sample, one or more nucleotides in a target nucleotide sequence.

Abstract: The present invention is directed to methods comprising a device that comprises a biomolecular processor and one or more nanotubes. Each biomolecular processor comprises a bioreactor chamber defined by a solid substrate, a plurality of spaced support structures within said bioreactor chamber and attached to the solid substrate, one or more nanotubes defined by the solid substrate and fluidically coupled to the bioreactor chamber and one or more capture molecules immobilized to some or all of said plurality of spaced support structures, said one or more capture molecules suitable to bind to a portion of a target nucleic acid molecule in a sample. The nanotubes have a passage extending between an input end proximate to the bioreactor chamber and an output end distal to the bioreactor chamber, and comprises one or more nanopores within the passage with each nanopore having a reduced diameter relative to the passage.

Abstract: Systems and methods are disclosed for providing a trusted computing environment that provides data security in commodity computing systems. Such systems and methods deploy a flexible architecture comprised of distributed trusted platform modules (TPMs) configured to establish a root-of-trust within a heterogeneous network environment comprised of non-TPM enabled IoT devices and legacy computing devices. A data traffic module is positioned between a local area network and one or more non-TPM enabled IoT devices and legacy computing devices, and is configured to control and monitor data communication among such IoT devices and legacy computing devices, and from such IoT devices and legacy computing devices to external computers. The data traffic module supports attestation of the IoT devices and legacy computing devices, supports secure boot operations of the IoT devices and legacy computing devices, and provides tamper resistance to such IoT devices and legacy computing devices.

Abstract: Composite materials are provided that include a host material, nanoscale high conductive particles, and microscale high conductive particles. The nanoscale high conductive particles and the microscale high conductive particles may increase the through thickness thermal conductivity of the composite material by at least 4.0 W/(m·K), as compared to the same composite material without the nanoscale high conductive particles and microscale high conductive particles. Methods for making the composite materials herein also are provided.

Abstract: Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for obtaining an electrocardiographic (ECG) signal of a user; obtaining a feature vector of the ECG signal of the user with neural network based feature extraction. Comparing the feature vector of the ECG signal with a stored feature vector of a registered user. Authenticating the user in response to determining that a similarity of the ECG feature vector of the ECG signal and the stored ECG feature vector of the registered user exceeds a pre-defined threshold value.

Abstract: The invention provides compounds of formula (I): and salts thereof wherein ring A, R2, HET, X, n, and R3 have any of the meanings described in the specification, as well as compositions comprising such compounds and salts, and methods for treating cancer using such compounds and salts.

Abstract: A method for separating a homogeneous catalyst from a solution includes forming a host-guest compound between a first isomer of the catalyst and inclusion compound in the solution and isolating the host-guest compound from the solution. The catalyst may be released from the inclusion compound by converting the first isomer of the catalyst to a second isomer of the catalyst.

Abstract: Systems and methods (S/M) to detect stress in stem cells are described. The S/M, including modified stem cells, assays and high throughput screens, can be used to identify compounds or other potential stressors that can negatively affect development potential.

Abstract: The present invention provides vaccines for treating or preventing a herpes simplex virus infection and methods of using and making the vaccine. Further provided are recombinant herpes simplex virus genomes, recombinant viruses, and immunogenic compositions.

Abstract: Compositions and methods for reducing the level of nornicotine and N?-nitrosonornicotine (NNN) in tobacco plants and plant parts thereof are provided. The compositions comprise isolated polynucleotides and polypeptides for a root-specific nicotine demethylases, CYP82E10, and variants thereof, that are involved in the metabolic conversion of nicotine to nornicotine in these plants. Compositions of the invention also include tobacco plants, or plant parts thereof, comprising a mutation in a gene encoding a CYP82E10 nicotine demethylase, wherein the mutation results in reduced expression or function of the CYP82E10 nicotine demethylase. Seed of these tobacco plants, or progeny thereof, and tobacco products prepared from the tobacco plants of the invention, or from plant parts or progeny thereof, are also provided. Methods for reducing the level of nornicotine, or reducing the rate of conversion of nicotine to nornicotine, in a tobacco plant, or plant part thereof are also provided.

Abstract: A smart hardware security engine using biometric features and hardware-specific features is provided. The smart security engine can combine one or more entropy sources, including individually distinguishable biometric features, and hardware-specific features to perform secret key generation for user registration and authentication. Such hybrid signatures may be distinct from person-to-person (e.g., due to the biometric features) and from device-to-device (e.g., due to the hardware-specific features) while varying over time. Thus, embodiments described herein can be used for personal device authentication as well as secret random key generation, significantly reducing the scope of an attack.

Abstract: Methods for controlled microstructure creation utilize seeding of amorphous layers prior to annealing. Seed crystals are formed on an amorphous layer or layers. The material, size, and spacing of the seed crystals may be varied, and multiple seed layers and/or amorphous layers may be utilized. Thereafter, the resulting assembly is annealed to generate a crystalline microstructure. Via use of these methods, devices having desirable microstructural properties are enabled.

Abstract: This application describes consortium between fungi and algae, where the algae are incorporated within hyphae of the fungi. The consortium is robust. The fungi and algae can symbiotically provide nutrients to each other, and are tolerant of environmental stresses.

Abstract: A new and distinct variety of commercial strawberry plant (Fragaria x ananassa Duchense) named ‘NCS 10-156’ substantially as illustrated and described, characterized by its early season of ripening, medium size, excellent flavor, very attractive conical shape with good quality fruit that has soft flesh firmness and soft skin toughness.