Provided herein are methods of detecting target analytes, such as nucleic acids, for example microRNAs using an enhanced Tyramide Signal Amplification (TSA) method that employs probes tagged with tyramide-binding groups to amplify the effects of the TSA. The accessibility of the tyramide-binding groups, such as hydroxyphenyl groups, provides for large improvements in signal due to faster reaction with the radicals. The present invention further includes the application of the assay for detecting specific microRNAs.

A method for identifying a target organism includes extracting a nucleic acid from a sample to form an extracted nucleic acid, amplifying the extracted nucleic acid to form a nucleic acid amplicon, tagging the nucleic acid amplicon with a capture probe and a detector probe to form a detector probe-nucleic acid amplicon-capture probe complex, and performing a detection assay on the detector probe-nucleic acid amplicon-capture probe complex to identify whether the target organism is present in the sample.

A method for identifying a target organism includes extracting a nucleic acid from a sample to form an extracted nucleic acid, amplifying the extracted nucleic acid to form a nucleic acid amplicon, tagging the nucleic acid amplicon with a capture probe and a detector probe to form a detector probe-nucleic acid amplicon-capture probe complex, and performing a detection assay on the detector probe-nucleic acid amplicon-capture probe complex to identify whether the target organism is present in the sample.

The invention relates to a method for detecting various analytes, characterized by the following steps: a) providing separation particles containing, on their surface, firstly means of binding the analyte to be identified and secondly means of separating the analyte bound to the particles; b) providing identification particles firstly having, on their surface, means for binding the analyte to be identified and secondly containing on their surface or enclosed therein, means which are capable, after they have been detached or released from the particles, by virtue of their labeling, of generating a signal which serves for identification of the analyte; c) combining analyte, separation particles and identification particles; d) removing and washing the identification particles bound via the analyte by means of the separation particles; e) releasing the means which serve to identify the analyte, characterized in that the means which serve to identify the analyte are coupled reversibly to the identification particles and in that the identification molecules serve simultaneously for identification of the analyte and for detection.

The invention relates to a method for detecting various analytes, characterized by the following steps: a) providing separation particles containing, on their surface, firstly means of binding the analyte to be identified and secondly means of separating the analyte bound to the particles; b) providing identification particles firstly having, on their surface, means for binding the analyte to be identified and secondly containing on their surface or enclosed therein, means which are capable, after they have been detached or released from the particles, by virtue of their labeling, of generating a signal which serves for identification of the analyte; c) combining analyte, separation particles and identification particles; d) removing and washing the identification particles bound via the analyte by means of the separation particles; e) releasing the means which serve to identify the analyte, characterized in that the means which serve to identify the analyte are coupled reversibly to the identification particles and in that the identification molecules serve simultaneously for identification of the analyte and for detection.

A method for detecting a target nucleic acid comprising: forming a three-component association product by allowing the association of at least a nucleic acid molecule, a first nucleic acid probe having a first marker bound thereto, and a second nucleic acid probe having a second marker bound thereto; forming at least one covalent bond between the target nucleic acid molecule and the first nucleic acid probe and between the target nucleic acid molecule and the second nucleic acid probe; and binding the three-component association product to a solid phase carrier through the second marker; recovering the three-component association product bound to the solid phase carrier; releasing the first marker from the recovered three-component association product; and detecting the target nucleic acid molecule by detecting the free first marker.

A method for detecting a target nucleic acid comprising: forming a three-component association product by allowing the association of at least a nucleic acid molecule, a first nucleic acid probe having a first marker bound thereto, and a second nucleic acid probe having a second marker bound thereto; forming at least one covalent bond between the target nucleic acid molecule and the first nucleic acid probe and between the target nucleic acid molecule and the second nucleic acid probe; and binding the three-component association product to a solid phase carrier through the second marker; recovering the three-component association product bound to the solid phase carrier; releasing the first marker from the recovered three-component association product; and detecting the target nucleic acid molecule by detecting the free first marker.

Methods and reagents for detection and analysis of nucleic acids are provided. The methods employ proximity extension assays for detection of a target nucleic acids of interest, e.g., a target RNA. The method can additionally be used in multiplex assays with a protein proximity extension assay to detect protein.

Methods and reagents for detection and analysis of nucleic acids are provided. The methods employ proximity extension assays for detection of a target nucleic acids of interest, e.g., a target RNA. The method can additionally be used in multiplex assays with a protein proximity extension assay to detect protein.

The present invention relates to methods for detecting and quantifying intact protein-polynucleotide conjugate molecules in various sample matrices. In particular, the methods utilize triplex forming oligonucleotides in combination with protein-specific binding partners to respectively detect the polynucleotide and protein components of the conjugate molecules.