Abstract: The present application provides bicyclic urea compounds that modulate the activity of JAK2, which are useful in the treatment of various diseases, including cancer.

Abstract: The application refers to process for production of a nano-microemulsion system of plant oil triglycerides, including: (i) preparing a dispersed phase plant oil triglyceride; (ii) preparing a carrier made from a mixture of propylene glycol monocaprylate and lecithin by a weight ratio of 5-6:1-1.5; (iii) adding the carrier to the dispersed phase by a weight ratio of 3-4:1-1.5, wherein the dispersed phase temperature is maintained between 60-100° C. while stirring under vacuum, followed by introduction of the whole mixture through the high-pressure microjet homogenizer; (iv) adding Tween 80 and Tween 60 to the solution mixture obtained in step (iii) by a weight ratio of 3-4:1-1.5:1-1.5, wherein the temperature of the dispersed phase is continuously maintained between 60-100° C.

Abstract: A recombinant Pichia pastoris strain which is genetically modified for highly expressing pediocin PA-1 and secreted into a medium so that the pediocin PA-1 is easily collected and purified from the culture medium. The obtained pediocin PA-1 has specific antimicrobial activities against Listeria monocytogenes ATCC 13932 and several other bacteria strains.

Abstract: The invention relates to the process for producing an microemulsion system of nano essential oil, the process comprising the following steps: (i) preparing a dispersed phase of essential oil; (ii) preparing of a carrier formed from a mixture of diethylene glycol monoethyl ether and lecithin; (iii) adding the carrier to the dispersed phase while keeping the dispersed phase temperature between 60 and 100° C. after addition of the carrier, while simultaneously stirring under vacuum; then pass the entire solution mixture through the system of high-pressure homogeneous machine integrated dispersion nozzle; (iv) adding the solution mixture obtained in step (iii) to Capryol 90 while keeping the mixture temperature between 60 and 100° C., and stirring at a rate ranging from 400 up to 800 rpm under vacuum; (v) cooling the mixture, homogenizing the mixture by ultrasonication to achieve a droplet size smaller than 100 nm.

Abstract: The invention relates to a process for producing a Tan IIA nanoliposome system for foods and medical products, comprises: (i) preparing a dispersed phase by dissolving Tan IIA in ethanol in a Tan IIA weight:ethanol volume ratio of 8:10 by a stirrer at 300-500 rpm with heating to 40-60° C. within 4-8 hours; (ii) preparing a liposome carrier consisting of lecithin and olive oil in a ratio of 1:3 by weight by mixing in a constant temperature bath at 40-60° C. to ensure that lecithin is completely dissolved in the oil while stirring; (iii) adding the carrier to the dispersed phase in a ratio of 40:60 by weight, further heating the carrier and dispersed phase mixture to 40-60° C. and stirring at 800-1000 rpm within 1 to 2 hours; (iv) cooling the resulting mixture to 25° C. and pumping the cooled mixture, using an ultrasonic atomizer nozzle at 60 Hz (10-20 ?m droplet size, 10 mL/min), into 1-1.5 L of distilled water (with the temperature of the distilled water at 25° C.

Abstract: The present invention relates to a process of producing a nano Omega-3 microemulsion system includes: (i) preparing a dispersal phase by heating Omega-3; (ii) preparing a carrier by heating a liquid PEG (polyethylene glycol); (iii) adding the carrier to the dispersal phase; (iv) emulsifying as follows: when the temperature arrives at 60° C., adding ACRYSOL K-140 to the mixture of the carrier and dispersal phase in step (iii), continuing to stir at a speed of 500 to 700 rpm, at a temperature of 60 to 80° C., in vacuum, for 3 to 5 hours, controlling the quality of resulting product by dissolving into water and measuring the transparency, the reaction is quenched, the temperature is decreased slowly until it is in the range of 40 to 60° C.; emulsifying for the entire mixture for 30 minutes; (v) filtrating the product by injecting through nanofilter system before filling-packaging.

Abstract: One aspect of the invention provides a gas chromatography union including: a first port; a second port in fluid communication with the first port; and a first pair of wings defining a first recess. Another aspect of the invention provides a union including: a first port; a second port in fluid communication with the first port; and at least a first protrusion defining a first recess. Another aspect of the invention provides a coupler including: a first port; a second port in fluid communication with the first port; and a first connector positioned on a portion of a surface of the coupler.

Abstract: The present invention provides novel reagents and a cloning procedure based on homologous recombination for the site-directed cloning of a DNA fragment to a vector at designed site(s). The cloning reagents are made of mixture of extracts from at least two different cell types, preferably a mixture made of extracts from wild-type E. coli and S. cerevisiae. Due to the activity of the mixture of cell extracts, recombination occurs between the 3? and 5?-ends of the target DNA and at the ends of linearized vector, which facilitates in-frame construction of expression vectors.

Abstract: The invention relates to the process for producing an microemulsion system of nano essential oil, the process comprising the following steps: (i) preparing a dispersed phase of essential oil; (ii) preparing of a carrier formed from a mixture of diethylene glycol monoethyl ether and lecithin; (iii) adding the carrier to the dispersed phase while keeping the dispersed phase temperature between 60 and 100° C. after addition of the carrier, while simultaneously stirring under vacuum; then pass the entire solution mixture through the system of high-pressure homogeneous machine integrated dispersion nozzle; (iv) adding the solution mixture obtained in step (iii) to Capryol 90 while keeping the mixture temperature between 60 and 100° C., and stirring at a rate ranging from 400 up to 800 rpm under vacuum; (v) cooling the mixture, homogenizing the mixture by ultrasonication to achieve a droplet size smaller than 100 n.

Abstract: One aspect of the invention provides a gas chromatography union including: a first port; a second port in fluid communication with the first port; and a first pair of wings defining a first recess. Another aspect of the invention provides a union including: a first port; a second port in fluid communication with the first port; and at least a first protrusion defining a first recess. Another aspect of the invention provides a coupler including: a first port; a second port in fluid communication with the first port; and a first connector positioned on a portion of a surface of the coupler.

Abstract: The invention relates to a process for producing a Tan IIA nanoliposome system for foods and medical products, comprises: (i) preparing a dispersed phase by dissolving Tan IIA in ethanol in a Tan IIA weight:ethanol volume ratio of 8:10 by a stirrer at 300-500 rpm with heating to 40-60° C. within 4-8 hours; (ii) preparing a liposome carrier consisting of lecithin and olive oil in a ratio of 1:3 by weight by mixing in a constant temperature bath at 40-60° C. to ensure that lecithin is completely dissolved in the oil while stirring; (iii) adding the carrier to the dispersed phase in a ratio of 40:60 by weight, further heating the carrier and dispersed phase mixture to 40-60° C. and stirring at 800-1000 rpm within 1 to 2 hours; (iv) cooling the resulting mixture to 25° C. and pumping the cooled mixture, using an ultrasonic atomizer nozzle at 60 Hz (10-20 ?m droplet size, 10 mL/min), into 1-1.5 L of distilled water (with the temperature of the distilled water at 25° C.

Abstract: This invention provides a recombinant Pichia pastoris strain which has been genetically modified for highly expressing pediocin PA-1 and secreting it into the medium so that the pediocin PA-1 can be easily collected and purified from the culture medium. In this invention, we also demonstrated that the obtained pediocin PA-1 had specific antimicrobial activities against Listeria monocytogenes ATCC 13932 and several other bacteria strains. Therefore, pediocin PA-1 produced from this recombinant Pichia pastoris strain has a great potential for the application in food preservation and pharmaceutical industry.

Abstract: The present invention relates to a process of producing a nano resveratrol microemulsion system includes: (i) preparing a dispersal phase by dissolving resveratrol in an ethanol solvent; (ii) preparing a carrier by heating a liquid PEG (polyethylene glycol) accounted from 40 to 60% by mass of the mixture of PEG and water to a temperature ranging from 60 to 80° C., then adding zeolite catalyst (0.1-0.4% by mass of mixture of PEG and water), stirring evenly; (iii) adding the carrier to the dispersal phase (in a ratio by mass of 40:60), continuing heating the said dispersal phase to 100° C., stirring at a speed of 400 to 800 rpm; (iv) elmusifying as follows: when the temperature arrives at 100° C., adding Tween to the mixture of the carrier and dispersal phase in step (iii) in a ratio by mass of 40:60, continuing to stir at a speed of 500 to 700 rpm, at a temperature of 100° C. to 130° C.

Abstract: The application refers to process for production of a nano-microemulsion system of plant oil triglycerides, including: (i) preparing a dispersed phase plant oil triglyceride; (ii) preparing a carrier made from a mixture of propylene glycol monocaprylate and lecithin by a weight ratio of 5-6:1-1.5; (iii) adding the carrier to the dispersed phase by a weight ratio of 3-4:1-1.5, wherein the dispersed phase temperature is maintained between 60-100° C. while stirring under vacuum, followed by introduction of the whole mixture through the high-pressure microjet homogenizer; (iv) adding Tween 80 and Tween 60 to the solution mixture obtained in step (iii) by a weight ratio of 3-4:1-1.5:1-1.5, wherein the temperature of the dispersed phase is continuously maintained between 60-100° C.

Abstract: The present invention provides novel reagents and a cloning procedure based on homologous recombination for the site-directed cloning of a DNA fragment to a vector at designed site(s). The cloning reagents are made of mixture of extracts from at least two different cell types, preferably a mixture made of extracts from wild-type E. coli and S. Cerevisiae. Due to the activity of the mixture of cell extracts, recombination occurs between the 3? and 5?-ends of the target DNA and at the ends of linearized vector, which facilitates in-frame construction of expression vectors.

Abstract: The present invention relates to a process of producing a nano Omega-3 microemulsion system includes: (i) preparing a dispersal phase by heating Omega-3 to a temperature from 40 to 60° C.; (ii) preparing a carrier by heating a liquid PEG (polyethylene glycol) to a temperature ranging from 40 to 60° C., stirring evenly; (iii) adding the carrier to the dispersal phase in a ratio by mass of 3:1, continuing to keep the said dispersal phase at a temperature ranging from 40 to 60° C., stirring at a speed of 400 to 800 rpm in vacuum; (iv) emulsifying as follows: when the temperature arrives at 60° C., adding ACRYSOL K-140 to the mixture of the carrier and dispersal phase in step (iii) in a ratio by mass of 6:4, continuing to stir at a speed of 500 to 700 rpm, at a temperature of 60 to 80° C., in vacuum, the reaction temperature is kept at a temperature ranging from 60 to 80° C.

Abstract: The present invention relates to a process of producing a nano resveratrol microemulsion system includes: (i) preparing a dispersal phase by dissolving resveratrol in an ethanol solvent; (ii) preparing a carrier by heating a liquid PEG (polyethylene glycol) accounted from 40 to 60% by mass of the mixture of PEG and water to a temperature ranging from 60 to 80° C., then adding zeolite catalyst (0.1-0.4% by mass of mixture of PEG and water), stirring evenly; (iii) adding the carrier to the dispersal phase (in a ratio by mass of 40:60), continuing heating the said dispersal phase to 100° C., stirring at a speed of 400 to 800 rpm; (iv) elmusifying as follows: when the temperature arrives at 100° C., adding Tween to the mixture of the carrier and dispersal phase in step (iii) in a ratio by mass of 40:60, continuing to stir at a speed of 500 to 700 rpm, at a temperature of 100° C. to 130° C.

Abstract: One embodiment of an apparatus includes a semiconductor chip having a processor and an on-die non-volatile storage resource. The on-die non-volatile storage may store different, appropriate performance related information for different configurations and usage cases of the processor for a same performance state of the processor.

Abstract: Systems and methods of implementing server architectures that can facilitate the servicing of memory components in computer systems. The systems and methods employ nonvolatile memory/storage modules that include nonvolatile memory (NVM) that can be used for system memory and mass storage, as well as firmware memory. The respective NVM/storage modules can be received in front or rear-loading bays of the computer systems. The systems and methods further employ single, dual, or quad socket processors, in which each processor is communicably coupled to at least some of the NVM/storage modules disposed in the front or rear-loading bays by one or more memory and/or input/output (I/O) channels. By employing NVM/storage modules that can be received in front or rear-loading bays of computer systems, the systems and methods provide memory component serviceability heretofore unachievable in computer systems implementing conventional server architectures.

Abstract: A data storage device is disclosed comprising a disk, a head for accessing the disk, and a sensor for generating an alternating sensor signal. The sensor is disconnected from an input of a sensing circuit and while the sensor is disconnected an alternating calibration signal is injected into the input of the sensing circuit, wherein the alternating calibration signal comprises a predetermined offset and amplitude. A response of the sensing circuit to the alternating calibration signal is evaluated to detect at least one of an offset and a gain of the sensing circuit.