Methods and products for identifying individuals who are likely to respond in a positive (benefit) or negative (harm) manner to a pharmacological drug treatment intended for treating or preventing a neuropsychiatric disorder, neurodegeneration, sleep-wake cycles such including and not limited to Alzheimer's disease, schizophrenia, autism and attention disorders based on single nucleotide polymorphisms (SNP) chromosome 2, 2:107,510,000-107,540,000 locus (as disclosed in the Genome Reference Consortium Human genome build 37 (GRCh37)).

Provided herein are methods and compositions for performing multiplex RT-PCR to amplify short nucleic acids.

Disclosed herein are methods and compositions for detecting Bordetella pertussis and Bordetella parapertussis by detecting the presence of the IS481 and IS1001 genomic insertion sequences, respectively.

The present invention relates to a digital multiplex method for detecting and/or quantifying multiple target biomolecules in a sample, said biomolecules being selected from DNA, RNA, and proteins. The present invention further relates to different applications of the digital multiplex method and to a kit.

Differentiating benign cutaneous lesions from melanoma is an imprecise and subjective endeavor. The use of micro-RNAs has been investigated, but results have not been consistent across studies and clinical applications are lacking. The invention provides new micro-RNA signatures for differentiating benign lesions from melanoma. The micro-RNA signatures are robust, being stable across detection platforms, diverse sample types, and patient populations. The diagnostic methods based on these signatures control for variations in lesion composition and sample diversity, and permit cross-platform comparisons. The micro-RNA signatures and methods are amenable to the use of samples from convenient non-invasive tape strip biopsy.

This application provides a bead with a covalently attached chemical compound and a covalently attached DNA barcode and methods for using such beads. The bead has many substantially identical copies of the chemical compound and many substantially identical copies of the DNA barcode. The compound consists of one or more chemical monomers, where the DNA barcode takes the form of barcode modules, where each module corresponds to and allows identification of a corresponding chemical monomer. The nucleic acid barcode can have a concatenated structure or an orthogonal structure. Provided are method for sequencing the bead-bound nucleic acid barcode, for cleaving the compound from the bead, and for assessing biological activity of the released compound.

The invention provides methods, systems, and computer readable medium for detecting ploidy of chromosome segments or entire chromosomes, for detecting single nucleotide variants and for detecting both ploidy of chromosome segments and single nucleotide variants. In some aspects, the invention provides methods, systems, and computer readable medium for detecting cancer or a chromosomal abnormality in a gestating fetus.

The invention is directed to methods for determining antigen-specific T cells generally and to T cell receptors which bind an epitope of the Wilms' tumor antigen-1 (WT1) protein specifically. The disclosure also provides polynucleotides encoding the TCRs, engineered cells exogenously expressing the TCRs, and methods of making and using the TCRs and/or cells expressing the TCRs.

Disclosed herein include systems, methods, compositions, and kits for multiplexing single-cell RNA-sequencing (scRNA-seq) samples. In some embodiments, the methods comprise chemically tagging cells with identifying sample tags (e.g., barcoded DNA oligonucleotides).

The present invention provides methods for diagnosing whether a human subject has a prostate carcinoma, methods for differentiating a high grade prostate cancer from a low grade prostate cancer in a human subject having a prostate carcinoma, and kits for detecting prostate cancer cells in a sample from a human subject.