Abstract: The present invention relates to detection of nucleic acids and provides a composition comprising a Signal Generating Complex, wherein the composition comprises: (A) a pair of target probes (TPs), wherein a first TP of the pair of TPs comprises a nucleic acid sequence comprising two segments; (B) a pair of base PPAs comprising the first and second base PPAs, wherein the first base PPA comprises a nucleic acid sequence comprising three segments; (C) a set of extension PPAs comprising the first and second extension PPAs, wherein the first extension PPA comprises a nucleic acid sequence comprising two segments; (D) a plurality of pre-amplifiers (PAs), wherein the PAs comprise a nucleic acid sequence comprising three segments; (E) a plurality of amplifiers (AMPs), wherein the AMPs comprise a nucleic acid sequence comprising two segments; and (F) a plurality of label probes (LPs), wherein the LPs comprise a nucleic acid sequence comprising two segments.

Abstract: The invention provides methods for detecting target double stranded nucleic acids, including for in situ hybridization assays. The invention also provides samples of fixed and permeabilized cells with a detected target double stranded nucleic acids as well as slides containing such samples. The invention additionally provides kits for detecting target double stranded nucleic acids.

Abstract: The invention relates to methods of multiplex detection of a plurality of target nucleic acids by contacting a sample comprising a cell with target probe sets that specifically hybridize to target nucleic acids, with pre-amplifiers or pre-pre-amplifiers specific for each target probe set, with amplifiers specific for the pre-amplifiers, and with label probes specific for the amplifiers, resulting in specific labeling of multiple target nucleic acids. The invention also relates to samples, slides and kits relating to detection of multiple target nucleic acids.

Abstract: The invention relates to methods of in situ detection of a nucleic acid variation of a target nucleic acid in a sample, including single nucleotide variations, multi-nucleotide variations or splice sites. The method can comprise the steps of contacting the sample with a probe that detects the nucleic acid variation or splice site and a neighbor probe; contacting the sample with pre-amplifiers that bind to the nucleic acid variation probe or splice site probe and neighbor probe, respectively; contacting the sample with a collaboration amplifier that binds to the pre-amplifiers; and contacting the sample with a label probe system, wherein hybridization of the components forms a signal generating complex (SGC) comprising a target nucleic acid with the nucleic acid variation or splice site, the probes and amplifiers; and detecting in situ signal from the SGC on the sample.

Abstract: The invention relates to methods of detecting nucleic acids, including methods of detecting one or more target nucleic acid sequences in multiplex branched-chain DNA assays, are provided. Nucleic acids captured on a solid support or suspending cells are detected, for example, through cooperative hybridization events that result in specific association of a label with the nucleic acids. The invention further relates to methods to improve probe hybridization specificity and their application in genotyping. The invention also relates to in situ detection of mis-joined nucleic acid sequences. The invention relates to reducing false positive signals and improve signal-to-background ratio in hybridization-based nucleic acid detection assay. The invention further relates to method to improve specificity in hybridization based nucleic acid using co-location probes. Compositions, tissue slides, sample of suspended cells, kits, and systems related to the methods are also described.

Abstract: Disclosed is a method for in situ detection of one or more target nucleic acids based on a combination of an in situ hybridization (ISH) assay method and a general ISH signal amplification method. This new method produces high signal intensity and while keeps low background noise of signal amplification. The result can be consistently reproduced and the method can be easily adopted for routine clinic diagnostic use. Further, the invention relates to a kit, comprising the components of the ISH assay and a general ISH signal amplification assay, for sensitive detection of one or more target nucleic acids.

Abstract: Methods of detecting nucleic acids, including methods of detecting two or more nucleic acids in multiplex branched-chain DNA assays, are provided. Nucleic acids captured on a solid support are detected, for example, through cooperative hybridization events that result in specific association of a label with the nucleic acids. Compositions, kits, and systems related to the methods are also described.

Abstract: The invention relates to methods of categorizing a cervical tissue or cytology sample by performing an in situ hybridization assay using an antisense E6 or E7 probe on a cervical tissue sample, wherein the antisense E6 or E7 probe can simultaneously detect HPV DNA and HPV RNA; detecting the presence of HPV nucleic acid; and categorizing the cervical tissue sample based on HPV nucleic acid expression.

Abstract: Disclosed is a method for in situ detection of one or more target nucleic acids based on a combination of RNAscope® method and a general ISH signal amplification method. This new method produces high signal intensity and while keeps low background noise of signal amplification. The result can be consistently reproduced and the method can be easily adopted for routine clinic diagnostic use. Further, the invention relates to a kit, comprising the components of RNAscope® assay and a general ISH signal amplification assay, for sensitive detection of one or more target nucleic acids.

Abstract: The invention provides a method for detecting immunoglobulin light chain restriction and clonality in B cells by obtaining a sample of B cells from a subject; conducting a duplex in situ hybridization assay on the sample using (i) at least one probe set which is designed to specifically hybridize to immunoglobulin kappa chain constant region (IGKCR) RNA; and (ii) at least one probe set which is designed to specifically hybridize to immunoglobulin lambda chain constant region (IGLCR) RNA; detecting signal associated with hybridized IGKCR probe and signal associated with hybridized IGLCR probe in a population of B cells in the sample; and determining a pattern of signal associated with hybridized IGKCR probe and hybridized IGLCR probe within individual cells in the B cell population, wherein the pattern of signal within individual cells indicates the presence or absence of light chain restriction and clonality of the B cells.

Abstract: Disclosed is a method for in situ detection of one or more target nucleic acids based on a combination of an in situ hybridization (ISH) assay method and a general ISH signal amplification method. This new method produces high signal intensity and while keeps low background noise of signal amplification. The result can be consistently reproduced and the method can be easily adopted for routine clinic diagnostic use. Further, the invention relates to a kit, comprising the components of the ISH assay and a general ISH signal amplification assay, for sensitive detection of one or more target nucleic acids.

Abstract: Methods of detecting nucleic acids, including methods of detecting two or more nucleic acids in multiplex branched-chain DNA assays, are provided. Nucleic acids captured on a solid support are detected, for example, through cooperative hybridization events that result in specific association of a label with the nucleic acids. Compositions, kits, and systems related to the methods are also described.

Abstract: The invention provides an apparatus for securing an object on a frame, wherein the object comprises a surface for displaying a sample. The apparatus can comprise a first clamping member movably mounted on a frame, wherein the first clamping member changes from an open position to a closed position to secure an object on the frame.

Abstract: Disclosed is a method for in situ detection of one or more target nucleic acids based on a combination of RNAscope® method and a general ISH signal amplification method. This new method produces high signal intensity and while keeps low background noise of signal amplification. The result can be consistently reproduced and the method can be easily adopted for routine clinic diagnostic use. Further, the invention relates to a kit, comprising the components of RNAscope® assay and a general ISH signal amplification assay, for sensitive detection of one or more target nucleic acids.

Abstract: Disclosed is a method for diagnosing melanoma in a human subject, as well as a method for providing a prognosis to a human subject who is at risk of developing melanoma recurrence, and a method for determining the stage of melanoma in a human subject, comprising the step of determining the level of expression of phosphatase and actin regulator 1 (PHACTR1) gene, or fragments thereof, either alone or in combination with the level of expression of secreted integrin-binding phosphoprotein (SPP1), preferentially expressed antigen in melanoma (PRAME), growth differentiation factor 15 (GDF 15), and chemokine C-X-C motif ligand 10 (CXCL10) genes. Further, the invention relates to a diagnostic kit, comprising at least one substance for detection of the expression of PHACTR1, or fragments thereof, either alone or in combination with the detection of SPP1, PRAME, GDF15, and CXCL10, for the diagnosis or prognosis of melanoma.

Abstract: Methods of detecting nucleic acids, including methods of detecting two or more nucleic acids in multiplex branched-chain DNA assays, are provided. Nucleic acids captured on a solid support are detected, for example, through cooperative hybridization events that result in specific association of a label with the nucleic acids. Compositions, kits, and systems related to the methods are also described.

Abstract: Methods of detecting nucleic acids, including methods of detecting two or more nucleic acids in multiplex branched-chain DNA assays, are provided. Nucleic acids captured on a solid support are detected, for example, through cooperative hybridization events that result in specific association of a label with the nucleic acids. Compositions, kits, and systems related to the methods are also described.

Abstract: Methods of detecting nucleic acids, including methods of detecting two or more nucleic acids in multiplex branched-chain DNA assays, are provided. Nucleic acids captured on a solid support are detected, for example, through cooperative hybridization events that result in specific association of a label with the nucleic acids. Compositions, kits, and systems related to the methods are also described.