Methods for detecting, identifying, and/or quantifying a target molecule in a complex fluid using thermal analysis are disclosed. Exemplary complex fluids include biofluids and environmental fluids. Exemplary target molecules include proteins, peptides, nucleic acids, lipids, carbohydrates, viruses, and combinations thereof. A method for using thermal analysis to determine whether purification affects one or more characteristics, such as binding characteristics, of a target molecule is also disclosed.

Compositions, methods, assays, and kits providing or incorporating derivatives of mitragynine, particularly as haptens and immunogens.

An isolated Methyl-CpG binding domain (MBD) variant may include an MBD core domain having at least 60% sequence homology relative to any one of SEQ ID Nos. 1-45 and comprising at least one amino acid substitution relative to the corresponding wildtype MBD in various positions. The isolated MBD variant or the conjugate may be used for determining the methylation state of cytosine residues and/or oxidation state of 5-methylated cytosine residues in a CpG dinucleotide of interest and its complement in a DNA molecule or for the enrichment of DNA molecules comprising a CpG dinucleotide of interest and its complement. At least one cytosine nucleobase in the CpG dinucleotide may be modified to be 5-methylcytosine (mC), 5-hydroxymethylcytosine (hmC), 5-formylcytosine (fC), or 5-carboxylcytosine (caC).

The invention relates to a fiber-optic wave guide sensor of aptamers having functions of in situ target enrichment and purification, and a method for detection of small molecules to realize the quantitative detection of small molecules targets based on that small molecules targets and the aptamers complementary short strand DNA competitively bind with aptamers tethered on the fiber surface. It synchronously realized specifically binding aptamers with targets and in situ target enrichment and purification of targets by modifying aptamers and solid micro extraction layer with silica fibers of the fiber-optic wave guide sensor, which can achieve the ultrasensitive and ultrahigh specific quick detection for all types of small molecule targets regardless of any signal amplification reaction based on enzyme. The detection limitation is very low with good generalizability.

The present disclosure in some aspects relates to methods and compositions for accurately detecting and quantifying multiple analytes present in a biological sample. In some aspects, the methods and compositions provided herein address issues associated with the heterogeneity of analyte abundance (e.g., gene expression levels) and variations among reactions at different locations of a sample (e.g., amplification reaction starting earlier at one location than another location). In some aspects, a method disclosed herein provides a tighter distribution of signal spot size and intensity in a sample, as compared to methods that result in a wide and heterogeneous size and intensity distribution of signal spots.

A method of detecting a biological sample includes the following steps. A magnetic sensor chip is provided, wherein the magnetic sensor chip includes a substrate and a magnetic sensing layer located on the substrate. Probes are connected to the magnetic sensor chip. A sample solution containing biological samples labeled with a first marker is provided on the magnetic sensor chip, so that the biological samples labeled with the first marker are hybridized with the probes. Magnetic beads labeled with a second marker are provided on the magnetic sensor chip, so that the magnetic beads labeled with the second marker are bound onto the biological samples labeled with the first marker. A signal sensed by the magnetic sensing layer is detected by a magnetic sensor.

Disclosed herein are methods for making a transcriptome-wide expression profile of a biological sample and identifying biomarkers that can be used to diagnose, monitor the onset, monitor the progression, and assess the recovery of a disease in a subject. The biomarkers can also be used to establish and evaluate treatment regimens.

Disclosed are methods of detecting and treating suspected B-cell lymphoma.

This invention relates to methods for molecular detection, particularly to methods utilizing target-specific molecular probes. In exemplary embodiments, target-specific molecular probes include single-stranded deoxyribonucleic acid (DNA) or ribonucleic acid (RNA) aptamers. In general, the molecular probe may bind with relatively high specificity to a given target. In one aspect, a method for molecular detection comprises a molecular probe paired to a reporter molecule wherein the molecular probe impairs the amplification of the reporter molecule in the absence of the target molecule.

Compositions that modulate the activity of signal transducer and activator of transcription-3 (STAT3) activity as well as their methods of use, such as treatment and imaging are provided. Compositions contain small molecules such as substituted pyrazoles and are useful in treatment of diseases related to the activity of STAT3 including, for example, cancer and other diseases.