Abstract: An isolation and detection method for viruses from large quantities of water or other aqueous media. The technology employs charged resins to isolate viral particles from liquid sources such as water, milk, juices, and homogenized food. Anionic resin beads are added to a sample liquid and suspended within the liquid. While in suspension the anionic beads complex with negatively charged virus particles of other pathogens. The complexed beads are then removed from the liquid, effecting the isolation of the virus. Detection techniques can then be performed directly on the complexed beads without resorting to additional steps to elute the virus or other pathogen from the bead. The methodology can be employed for the detection of bacteriophage in an aqueous medium where the bacteriophage serves as a surrogate for the presence of a pathogen or other contaminant, such as an enteric virus.

Abstract: Provided herein is a composite, comprising: a polymer host selected from the group consisting of low-density polyethylene (LDPE), linear low-density polyethylene (LLDPE), polyethylene terephthalate (PET), polytetrafluoroethylene (PTFE), and polypropylene (PP), polyurethane, polycaprolactone (PCL), polydimethylsiloxane (PDMS), polymethylmethacrylate (PMMA), and polyoxymethylene (POM); and a guest molecule comprising hyaluronic acid; wherein the guest molecule is disposed within the polymer host, and wherein the guest molecule is covalently bonded to at least one other guest molecule. Also provided herein are methods for forming the composite, and blood-contracting devices made from the composite, such as heart valves and vascular grafts.

Abstract: Systems and methods for droplet generation are suitable for use in connection with goniometers. Via preferential condensation, droplets of a variety of liquids may be formed at a variety of temperatures and pressures, eliminating the need for expensive and complex conventional droplet generation systems. Condensation and evaporation of a droplet may be controlled in order to evaluate advancing and receding contact angles in the goniometer.

Abstract: The present disclosure provides methods and systems for electrorefining high-purity materials, for example, silicon. An exemplary system includes at least one cathode, an anode, and a reference electrode. At least one controller, for example a potentiostat, is used to control the potential difference between a reference electrode and a cathode or anode. The system can be operated in a single phase or multiple phase operation to produce high-purity materials, such as solar-grade silicon.

Abstract: A technique is provided to visualize microtubules in live cells that does not require genetic manipulation or microinjection. Moreover, this method also avoids perturbation of the endogenous microtubule network that occurs with taxol treatment. This technique exploits tyrosination and detyrosination of tubulin, a posttranslational modification cycle specific to the C-terminus of ?-tubulin. Specifically, cells are grown in medium supplemented with a tyrosine derivative possessing a reactive functional group. The cellular enzyme tubulin tyrosine ligase attaches the unnatural amino acid to a single site on tubulin. Addition of fresh medium containing a suitably derivatized fluorophore then yields fluorescent tubulin, which incorporate into cellular microtubules. Importantly, the tubulin labeling approach demonstrated here does not detrimentally affect microtubule network or cell morphology. Thus we present a simple, robust labeling technique that allows microscopic analysis of microtubules in live cells.

Abstract: Systems and methods are disclosed to determine the axial and/or lateral location of a particle using light modulated with temporal and/or spatial modulation pattern. The system, for example, may include a modulator configured to temporally modulate an intensity pattern of a line of light uniquely at each point along a lateral length of the line of light and produce an undiffracted modulated line of light, a first first-order diffracted line of light, and a second first-order diffracted line of light; and one or more optical elements configured to direct the undiffracted line of light and one of the first first-order diffracted line of light and the second first-order diffracted line of light toward at least one particle disposed at or near a sample region. The system may include a processor configured to determine an axial and/or a lateral position of the particle disposed at or near the sample region.

Abstract: Isolated non-naturally occurring, mutant-human islet amyloid polypeptides (hIAPP) are disclosed. These polypeptides can be formulated or co-formulated at physiological pH, which enable the polypeptides of the instant disclosure to be delivered to a subject having an amyloid-based disease in a single injection with an insulin agent. Methods and compositions for treating amyloid-based disease in a subject in need thereof, by administering an effective amount of an isolated, mutant-hIAPP polypeptide, including formulations or co-formulations thereof are also disclosed.

Abstract: The invention provides compounds of formula (I): wherein R1-R3, n, and W have any of the values defined in the specification, and salts thereof. The compounds have good solubility and are useful for treating bacterial infections.

Abstract: A light therapy method, comprising identifying a pathological condition in a patient, selecting at least one light wavelength based on the identified pathological condition, and applying one or a combination of the selected light wavelengths to the patient using a light source.

Abstract: Provided is a non-surgical method of treatment of carpal tunnel syndrome by administering an effective amount of purified collagenase I and II by injection onto a transverse carpal ligament, without penetrating the transverse carpal ligament. The purified collagenase I and II are obtained from Clostridium histolyticum, and the effective amount is a dose comprising a concentration of approximately 0.29 mg of the purified collagenase I and II to one ml diluent.

Abstract: A soil sensor includes a housing, an antenna disposed within the housing, a measurement circuit disposed within the housing and operatively connected to the antenna, the circuit configured to measure impedance of soil at a plurality of different frequencies using the antenna as a sensor electrode, and a wireless interface disposed within the housing and operatively connected to the antenna and configured for wireless communications over the antenna at its communications frequency.

Abstract: A video analytics algorithm, system, and method for use in real time allowing accurate, reliable, and timely warnings that facilitate traffic safety and efficiency. The system and method are readily implemented with minimal computational resources, providing broad applicability. In an embodiment, a video analytics method may include (a) obtaining a sequence of real-time images as input from a traffic monitoring system; (b) identifying a plurality of vehicles within a pre-defined region of interest; (c) tracking vehicles within the predefined region of interest; and (d) detecting a conflict event when the vehicles are located within a pre-determined maximum separation threshold based on each vehicles coordinates in a spatial-temporal domain.

Abstract: The present disclosure is directed to adeno -associated viral vector monoclonal antibody constructs and compositions thereof, methods of improving locomotor function after spinal cord injury, methods of treating neurodegenerative diseases.

Abstract: Disclosed are nucleotide sequences encoding thioesterase enzymes, methods for their production, their use in methods to form thioesters, and their use in methods of screening for other wild type bacteria capable of producing said thioesterase enzymes. Also disclosed are compositions comprising thioesters produced by the methods disclosed herein.

Abstract: The invention relates to a specialized subpopulation of natural killer cells that have enhanced effector functions and the potential to kill malignant tumor cells or infected cells when the natural killer cells are exposed to an antibody bound to the tumor cells or the infected cells.

Abstract: The herbicide-tolerant rice cultivar designated ‘CL271’ and its hybrids and derivatives are disclosed.

Abstract: A heating appliance includes a heating structure having a lower surface and a flat upper surface for supporting and imparting heat into an object, such a pot or pan used to cook food. The heating structure includes an array of heating elements arranged on the lower surface of the heating structure in an m×n array having m columns and n rows. Each element is thermally coupled to a region of the structure for heating its respective region of the structure independently of other regions of the structure associated with the other heating elements.

Abstract: For lingual transformation-based encryption, a method parses communication data into lingual units. The method further generates a validation nonce from the lingual units. In addition, the method generates a transform unit for each lingual unit by applying a lingual message transformation to each lingual unit as an encryption function of a selection rule.

Abstract: A method for forming an austempered iron composition with a nanoscale microstructure includes a step of heating an iron-carbon-silicon alloy with silicon to a first temperature that is lower than A1 for the iron-carbon-silicon alloy. The iron-carbon-silicon alloy is then adiabatically deformed such that the temperature of the iron-carbon-silicon alloy rises to a second temperature which is sufficient to form proeutectoid ferrite and austenite. The iron-carbon-silicon alloy is cooled to a first austempering temperature. The iron-carbon-silicon alloy is then heated to a second austempering temperature that is greater than the first austempering temperature to form a dual phase microstructure. Characteristically, the dual phase microstructure includes proeutectoid ferrite and ausferrite.

Abstract: Disclosed are fiber optic devices and related methods that allow for measurement of blood flow and oxygenation in real time. These devices have particular application to the spinal cord. Such devices have applicability in, for example, the care of military members sustaining combatant and noncombatant spinal injuries, as well as to civilians. The devices also have utility in the acute and subacute management of spine trauma, enhancing the efficacy of interventions aimed at the prevention of secondary ischemic injury, and ultimately improving neurologic outcome.