Disclosed herein are embodiments of methods for oligonucleotide analysis using a novel solid-phase extraction and hydrophilic-interaction liquid chromatography. The unique polar-based retention methods provided herein provide a high-recovery extraction. The methods improve assay reliability and reproducibility and reach picomolar sensitivity with the demonstrably beneficial accurate mass platform. Also disclosed herein are systems and computer program products for performing these methods.

The present invention provides methods, compositions, and systems for distributing molecules and complexes into reaction sites. In particular, the methods, compositions, and systems of the present invention result in an active loading of molecules and complexes into reaction sites with improved efficiency over loading by passive diffusion methods alone.

The present disclosure pertains to methods of separating nucleic acid component compounds from one another. In some embodiments, the methods comprise: (a) loading a sample fluid comprising a plurality of nucleic acid component compounds onto a chromatographic column comprising a zwitterionic stationary phase contained inside the column; (b) flowing a mobile phase through the chromatographic column over a time period thereby forming an eluent in which at least some of the plurality of the nucleic acid component compounds are separated from each other, the mobile phase comprising a polar aprotic solvent, a protic solvent, and a volatile buffer salt, wherein flowing the mobile phase comprises varying a ratio of the protic solvent to the polar aprotic solvent over at least a portion of the time period and varying an ionic strength of the volatile buffer salt over at least a portion of the time period.

The present disclosure relates generally to the field of analyzing a nucleic acid, such as RNA, in particular to the determination of at least one parameter of a sample composition comprising a nucleic acid, especially RNA, and optionally particles.

Provided herein is a valve manifold comprising (a) an elastomer sheet attached to a plurality of magnetic pistons, wherein the magnetic pistons project from a first side of the elastomer sheet; (b) a foot component comprising a first surface and a plurality of shafts that orthogonally pass through the first surface; and (c) a body component comprising a second surface, a groove that laterally passes along the second surface, and a plurality of reservoir channels that orthogonally pass through the second surface, wherein the elastomer sheet is compressed between the foot component and the body component.

Provided herein are compositions and methods of use for mimicking miRNA activity. For example, these compositions can be effective in modulating expression of pro-inflammatory mediators, such as NLRP3. The compositions can be useful for treating musculoskeletal or connective tissue repair or degenerative conditions, for example, tendinopathy and tendon injury.

Methods of quantifying a N.sup.2-(1-carboxyethyl)-2′-deoxyguanosine (CEdG) levels in biological samples and comparing those levels to known normal levels can diagnose a number of metabolic disorders or complications associated therewith, including diabetes, its associated complications, and cancer. Methods can also determine whether therapies for disorders are effective by measuring CEdG levels before and after treatment. Measurement of CEdG levels is achieved by using liquid chromatography electrospray ionization tandem mass spectrometry.

The present invention relates to a method for separating a sample comprising a nucleic acid, the method comprising: (a) loading a sample comprising a nucleic acid onto an anion-exchange column; and (b) eluting the sample from the anion-exchange column using a salt gradient, wherein a mobile phase used in the eluting step comprises a mild ion-pairing cation, and wherein a column temperature of the anion-exchange column is greater than 30° C. The present invention also relates to a method for determining one or more calorimetric properties of a nucleic acid using anion-exchange chromatography.

Methods of LC-MS analysis of oligonucleotides free of ion-pairing reagents are disclosed herein. Historically, ion-pairing reagents have been used for acceptable extraction and chromatography prior to mass spectral analysis. The disclosure herein presents methods free of ion-pairing reagents at each stage, from extraction through the LC-MS endpoint. Also disclosed herein are systems for performing these methods.

Methods of LC-MS analysis of oligonucleotides free of ion-pairing reagents are disclosed herein. Historically, ion-pairing reagents have been used for acceptable extraction and chromatography prior to mass spectral analysis. The disclosure herein presents methods free of ion-pairing reagents at each stage, from extraction through the LC-MS endpoint. Also disclosed herein are systems for performing these methods.