A method for extracting an analyte in a sample is described. A sample and a solution in a microwave-extraction vial are microwave-heated and agitated. A vapor produced in the vial can be extracted into a liquid-phase medium contained in a porous membrane bag situated in the vial. The liquid-phase medium containing the vapor extract may then be analyzed for an analyte with gas chromatography-mass spectrometry.

A method for extracting an analyte in a sample is described. A sample and a solution in a microwave-extraction vial are microwave-heated and agitated. A vapor produced in the vial can be extracted into a liquid-phase medium contained in a porous membrane bag situated in the vial. The liquid-phase medium containing the vapor extract may then be analyzed for an analyte with gas chromatography-mass spectrometry.

Provided are methods and pharmaceutical compositions related to nanobodies from engineered Bacillus subtilis bacteria which can be useful as therapeutic agents or for diagnostic testing.

Discloses are a method for detecting Norovirus using a Norovirus animal model, a method for screening an antivial agent against Norovirus, and a composition for neutralizing the infection with an enteric virus, containing concanavalin A as an active ingredient, so that the method for detecting Norovirus can allow the distinction between infectious Norovirus and non-infectious Norovirus, and the composition can neutralize a virus causing food poisoning.

Methods and systems for detecting environmental contaminants is described. In an embodiment, a method includes macerating and extracting a sample; reacting a first polymerizable compound with the sample to form a second mixture comprising a second polymerizable compound; adding an initiator to the second mixture comprising the second polymerizable compound; performing a polymerization reaction on the second mixture comprising the second polymerizable compound to form a third mixture comprising a precipitate; and performing a turbidimetric analysis on the third mixture comprising the precipitate. In another embodiment, a method includes macerating and extracting a sample; reacting a first mixture comprising the functionalized polythiophene compound and the sample to form a second mixture comprising a second functionalized polythiophene compound; performing a colorimetric analysis on the second mixture comprising the second functionalized polythiophene compound.

Compositions and methods for treatment of mitochondrial respiratory chain dysfunction and other mitochondrial disorders are provided. Also disclosed are a number of screening assays having utility for the identification of agents which modulate the phenotype associated with mitochondrial respiratory chain dysfunction.

The present invention provides an integrated microfluidic-based device for establishing a wound infection in vivo model suitable for high throughput bioassay such as potential drug screening, in vivo dosing optimization, host-microbe or microbe-microbe interactions under the influence of specific agents of interest, and studying regulatory mechanisms of certain inflammatory diseases relating to or arising from the wound infection. The present invention allows direct qualitative and quantitative assessments of specific markers expressed due to the wound infection by one or more microbes devoid of cell sorting, isolation, or labelling as in other conventional in vivo models or methods.

A method for extracting an analyte in a sample is described. A sample and a solution in a microwave-extraction vial are microwave-heated and agitated. A vapor produced in the vial can be extracted into a liquid-phase medium contained in a porous membrane bag situated in the vial. The liquid-phase medium containing the vapor extract may then be analyzed for an analyte with gas chromatography-mass spectrometry.

A method for extracting an analyte in a sample is described. A sample and a solution in a microwave-extraction vial are microwave-heated and agitated. A vapor produced in the vial can be extracted into a liquid-phase medium contained in a porous membrane bag situated in the vial. The liquid-phase medium containing the vapor extract may then be analyzed for an analyte with gas chromatography-mass spectrometry.

A method of preparing an aesculin sturgeon skin gelatin with antioxidant activity and Enterococcus faecalis detection ability includes: 1) mixing a sturgeon skin gelatin and distilled water in a ratio of 1:15-1:25 (w/v) at 50-70 C. and filtering to obtain a sturgeon skin gelatin solution; 2) adding aesculin and a glycerin solution to the sturgeon skin gelatin solution, stirring the resulted sturgeon skin gelatin solution at 30-50 C. for 30 minutes, and filtering; and 3) removing air bubbles from the sturgeon skin gelatin solution of step 2) under reduced pressure, placing the sturgeon skin gelatin solution on an acrylic glass, and drying the sturgeon skin gelatin solution at in a vented oven 25 C. and 45-55% relative humidity for 24 hours to obtain the aesculin sturgeon skin gelatin film.