Disclosed herein is a method of providing a metabololipidomic profile and SPM signature on the progress of the innate host defense response following blood clotting. The method can include the step of taking one or more measurements in a patient's blood sample, wherein the sample is obtained during the time-course of clotting or coagulation or following clotting or coagulation, of pro-thrombotic and pro-inflammatory mediators (eicosanoids) and specialized pro-resolving mediators SPMs. From these measurements, a personalized metabololipidomic profile can be obtained. By comparing the measurement to that taken from normal or reference blood, a comparison profile can be developed. The profile comparison profile can then be used to make a medical or therapeutic decision.

A kit or composition for in situ simultaneously derivatization of 14 phenol and carboxylic acid metabolites of benzene, toluene, ethylbenzene, and xylene (BTEX) in a urine sample is disclosed. The derivatization imparts a positive charge to phenol and carboxylic acid for subsequent LC-MS analysis. Limit of detection reached part-per-trillion levels for o-Cresol and part-per-billion levels for the remaining BTEX metabolites. BTEX metabolites can be detected in less than 35 mins according to one embodiment of the invention. Methods, kits and compositions disclosed herein can be used for in situ simultaneous derivatization of phenol and carboxylic acid in aqueous solution in general.

Disclosed is a novel means for accurate qualitative and quantitative analyses for each N-glycosylation site. The method of analyzing N-linked sugar chain(s) of glycoprotein according to the present invention comprises: treating a part of a glycopeptide-containing sample to be analyzed with endo-β-N-acetylglucosaminidases to cleave off sugar chains while leaving one GlcNAc of the chitobiose core on the Asn at the N-glycosylation site; subjecting the obtained sugar chain-cleaved sample to preliminary liquid chromatography/mass spectrometry; predicting the retention time of the glycopeptide of interest and the mass-to-charge ratio (m/z) of the precursor ion in main analysis based on the results of the preliminary liquid chromatography/mass spectrometry; and carrying out the main analysis. By this method, the binding sites and structures of N-linked sugar chains in a glycoprotein can be analyzed. By using the sugar chain-cleaved sample as an internal standard in the main analysis, quantitative analysis of sugar chains at each glycosylation site also becomes possible.

Provided herein are newly discovered methods of analyzing abaloparatide samples for abaloparatide isomers. Additionally, methods of storing and treating with abaloparatide in view of the newly discovered abaloparatide isomers are described.

Disclosed herein is a process for the preparation and purification of Valsartan. The process according to the invention is capable of removing the toxic nitroamine impurities and providing substantially pure Valsartan.

An automated system for lipid exchange-mass spectrometry, e.g., measuring affinity of a membrane protein for lipids. The automated systems herein can measure the specificity of membrane protein-lipid interactions, detect remodeling of the membrane environment, and determine optimal lipid composition for membrane proteins.

A first attachment portion to which a packed column is attachable and a second attachment portion to which a chip column is attachable are housed in a column oven. Designation of a temperature of the column oven is received by a designated temperature receiver. In a case in which the chip column is not attached to the second attachment portion, an upper limit temperature of the column oven is set to a first temperature by a setter. An upper limit temperature of the column oven is set to a second temperature lower than the first temperature in a case in which the chip column is attached to the second attachment portion. A temperature of the column oven is adjusted to a received temperature by a temperature adjuster in a case in which the received temperature is equal to or lower than an upper limit temperature.

A mass spectrometry method includes detecting, in a first mass spectrometry of a sample containing a glycan having a plurality of sialic acids each modified differently, a plurality of oxonium ions derived from each of the plurality of sialic acids, and calculating relative values of intensities of the plurality of oxonium ions based on data obtained by the detection.

[Problem to be solved] To provide a method for analyzing amino acids capable of easily analyzing D/L-amino acids in a sample with high reproducibility, particularly a simultaneous analytical method for L-amino acids and D-amino acids constituting a protein.

[Solution] A method for analyzing amino acids by liquid chromatography, in which a sample containing a plurality of kinds of amino acids is derivatized with a derivatization reagent, and the obtained derivatized sample is circulated on a column together with a mobile phase, wherein the mobile phase is composed of a plurality of mobile phases, and at least one mobile phase is a mixed solvent system, wherein two or more kinds of derivatized samples are prepared using two or more kinds of derivatization reagents, wherein different analytical conditions in which mixing ratio of the plurality of the mobile phases is changed with a passage of time are set for each kind of the derivatization reagent, and a solvent mixing ratio in the mobile phase being the mixed solvent system is set for the each kind of the derivatization reagent, and wherein the two or more kinds of derivatized samples are analyzed by automatically switching between the different analytical conditions and the solvent mixing ratio to separate and quantify derivatized L-amino acids and derivatized D-amino acids.

A system for sampling a sample material includes a probe which can have an outer probe housing with an open end. A liquid supply conduit within the housing has an outlet positioned to deliver liquid to the open end of the housing. The liquid supply conduit can be connectable to a liquid supply for delivering liquid at a first volumetric flow rate to the open end of the housing. A liquid exhaust conduit within the housing is provided for removing liquid from the open end of the housing. A liquid exhaust system can be provided for removing liquid from the liquid exhaust conduit at a second volumetric flow rate. A droplet dispenser can dispense drops of a sample or a sample-containing solvent into the open end of the housing. A sensor and a processor can be provided to monitor and maintain a liquid dome present at the open end.