Methods and system for identifying and/or quantifying a protein are provided herein.

The present invention relates generally to a method for extracting cannabis-derived proteins from cannabis plant material, including the preparation of samples of extracted cannabis-derived proteins for proteomic analysis and methods for analysing a cannabis plant proteome.

A method that includes introducing at least one analyte into a gas plasma; generating neutral species from atoms of the analyte in the gas plasma; preferentially transporting the neutral species downstream of the gas plasma relative to any ions produced in the gas plasma; and reacting the neutral species of the analyte with at least one reagent ion downstream of the plasma resulting in ion species of the analyte, wherein the at least one reagent ion is supplied by an independent ion source.

The present invention generally pertains to methods of quantitating therapeutic proteins co-administered to a subject using LC-MRM-MS. In particular, the present invention pertains to the use of dual enzymatic digestion to generate unique surrogate peptides allowing for the accurate quantitation of co-administered therapeutic proteins using LC-MRM-MS.

Systems and methods are provided for analyzing isotopes of a gas from a wellbore to determine geological information associated with the wellbore. A drill device can be used to drill rocks or particles in a wellbore, which can cause a gas to be released within the wellbore. Fluid can be pumped into the wellbore as the drill bit drills the rocks or particles and the fluid, along with the gas released, can flow through the wellbore and to a surface of the wellbore. A gas detector can be positioned near the wellbore for detecting an amount of gas and a type of gas in the fluid and gas mixture and transmitting data about the amount and type of the gas to a computing device. The computing device can output data based on the amount and type of gas in the mixture for determining geological information about the wellbore.

Systems and methods are provided for analyzing isotopes of a gas from a wellbore to determine geological information associated with the wellbore. A drill device can be used to drill rocks or particles in a wellbore, which can cause a gas to be released within the wellbore. Fluid can be pumped into the wellbore as the drill bit drills the rocks or particles and the fluid, along with the gas released, can flow through the wellbore and to a surface of the wellbore. A gas detector can be positioned near the wellbore for detecting an amount of gas and a type of gas in the fluid and gas mixture and transmitting data about the amount and type of the gas to a computing device. The computing device can output data based on the amount and type of gas in the mixture for determining geological information about the wellbore.

Processes for forming Mo and W containing thin films, such as MoS.sub.2, WS.sub.2, MoSe.sub.2, and WSe.sub.2 thin films are provided. Methods are also provided for synthesizing Mo or W beta-diketonate precursors. Additionally, methods are provided for forming 2D materials containing Mo or W.

Described is a method for detecting the presence of natural hydrocarbon compounds in drilling cuttings. The method includes introducing a chemical standard to an oil-based drilling fluid, producing a tagged drilling fluid. Gas chromatography-mass spectroscopy (GC-MS) is used to determine a concentration of hydrocarbon compounds in the tagged drilling fluid, which corresponds to a first hydrocarbon signal. The tagged drilling fluid is circulated in a borehole during drilling, and the drilling cuttings mixed with the tagged drilling fluid are recovered. Hydrocarbon compounds are then extracted from the drilling cuttings. GC-MS is used to determine a concentration of hydrocarbon compounds present in the drilling cuttings that were mixed with the tagged drilling fluid, which corresponds to a second hydrocarbon signal. Based on the difference between the first and second hydrocarbon signals, an initial concentration of natural hydrocarbons in the drilling cuttings prior to mixing with the tagged drilling fluid is determined.

Method and kits for detecting cancer, and in particular breast cancer, in a subject by measuring the levels of at least one of a series of biomarkers, as compared to a control sample lacking cancer. The expression of the biomarker either increases or decreases in samples from subjects with cancer, as compared to the expression level in subjects without cancer. The sample is optimally an ocular sample, such as an isolated tear sample or ocular wash, but can also be from saliva, or other bodily fluid. Kits can include a collection tube and protease inhibitors or protein stabilizers.

The present invention includes an apparatus and method for detecting the location of one or more sources of one or more target molecule, the apparatus comprising: a molecule detector; and a processor connected to the molecule detector and to a global position system, wherein the processor calculates the presence of the one or more target molecules, runs a computer code that determines a dynamic reverse gas stack model for the one or more target molecules, and triangulates the possible position for a source or effluent of the one or more target molecules based on the dynamic reverse gas stack model. The determined reverse gas stack model may have a Gaussian dispersion over one or more sampled locations.