Abstract: The disclosure relates to methods for reducing symptoms of major depressive disorder, including suicidality, in a human patient assessed to be at imminent risk for suicide comprising the administration of esketamine in addition to standard of care treatment. In certain embodiments, the methods comprise determining if the patient has previously attempted suicide, and, if so, treating such patient with a standard of care treatment and a therapeutically effective amount of esketamine, whereas patients determined not to have previously attempted suicide are administered standard of care treatment without treating the patient with esketamine.

Abstract: The present application is directed to the use of genetic polymorphism in the ErbB4 gene to predict whether a patient is likely to respond to psychotic medication Paliperidone. The polymorphism in the ErbB4 gene is also used to predict whether a patient is likely to display placebo effect among patients in need of psychotic treatment. A method of treating patients with antipsychotic medication Paliperidone using the polymorphism in the ErbB4 gene and a kit of are also provided.

Abstract: The invention provides a method for genotyping interfering polymorphic loci in a target polynucleotide, such as a strand of genomic DNA, in a multiplex hybridization-based assay. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays. In one aspect, the method of the invention is carried out by providing for each interfering polymorphic locus one or more probes so that at least one probe is capable of forming a perfectly match duplex at the locus regardless of the characteristic sequence of an adjacent polymorphism.

Abstract: The invention provides a method for genotyping interfering polymorphic loci in a target polynucleotide, such as a strand of genomic DNA, in a multiplex hybridization-based assay. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays. In one aspect, the method of the invention is carried out by providing for each interfering polymorphic locus one or more probes so that at least one probe is capable of forming a perfectly match duplex at the locus regardless of the characteristic sequence of an adjacent polymorphism.

Abstract: The invention provides a method for genotyping interfering polymorphic loci in a target polynucleotide, such as a strand of genomic DNA, in a multiplex hybridization-based assay. The invention also provides nucleic acid standards for validating the performance of such hybridization-based assays. In one aspect, the method of the invention is carried out by providing for each interfering polymorphic locus one or more probes so that at least one probe is capable of forming a perfectly match duplex at the locus regardless of the characteristic sequence of an adjacent polymorphism.

Abstract: Methods for detecting target nucleic acid molecules in a sample are provided. The methods involve hybridizing the nucleic acids or nucleic acids which represent complementary or homologous sequences of the target to an array of nucleic acid probes. These probes include a double-stranded portion, a single-stranded portion and a variable sequence within the single-stranded portion, where the single-stranded region of the probes includes a sequence complementary or homologous to a sequence of the target nucleic acid to be detected. The molecular weights of the hybridized nucleic acids of the set are determined by mass spectroscopy, and from the molecular weights of the hybridized probes, the presence of the target nucleic acid is detected by the presence of its sequence in the sample.

Abstract: Methods for detecting and sequencing of target double-stranded nucleic acid molecules, nucleic acid probes and arrays of probes useful in these methods, and kits and systems that contain these probes are provided. The methods involve hybridizing the nucleic acids or nucleic acids which represent complementary or homologous sequences of the target to an array of nucleic acid probes. These probes include a single-stranded portion, an optional double-stranded portion and a variable sequence within the single-stranded portion. The molecular weights of the hybridized nucleic acids of the set can be determined by mass spectroscopy, and the sequence of the target determined from the molecular weights of the fragments.

Abstract: Methods for detecting and sequencing of target double-stranded nucleic acid molecules, nucleic acid probes and arrays of probes useful in these methods, and kits and systems that contain these probes aer provided. The methods involve hybridizing the nucleic acids or nucleic acids which represent complementary or homologous sequences of the target to an array of nucleic acid probes. These probes include a single-stranded portion, an optional double-stranded portion and a variable sequence within the single-stranded portion. The molecular weights of the hybridized nucleic acids of the set can be determined by mass spectroscopy, and the sequence of the target determined from the molecular weights of the fragments.

Abstract: This invention relates to methods for detecting and sequencing of target double-stranded nucleic acid sequences, to nucleic acid probes and arrays of probes useful in these methods, and to kits and systems which contain these probes. Useful methods involve hybridizing the nucleic acids or nucleic acids which represent complementary or homologous sequences of the target to an array of nucleic acid probes. These probe comprise a single-stranded portion, an optional double-stranded portion and a variable sequence within the single-stranded portion. The molecular weights of the hybridized nucleic acids of the set can be determined by mass spectroscopy, and the sequence of the target determined from the molecular weights of the fragments. Nucleic acids whose sequences can be determined include nucleic acids in biological samples such as patient biopsies and environmental samples.

Abstract: The invention provides fast and highly accurate mass spectrometer based processes for detecting a particular nucleic acid sequence in a biological sample. Depending on the sequence to be detected, the processes can be used, for example, to diagnose a genetic disease or chromosomal abnormality; a predisposition to a disease or condition, infection by a pathogenic organism, or for determining identity or heredity.