The present invention relates to a method for amplifying at least one target RNA in a fixed and, optionally, expanded biological sample. In an embodiment of the invention, the method comprises incubating the fixed biological sample with a pair of polynucleotides complementary to non-overlapping and proximal sequences of a target RNA, wherein the polynucleotide pair hybridizes to the target RNA; ligating the polynucleotide pair using a ligase; and amplifying the ligation product. The invention further provides methods for detecting and optionally quantifying and/or sequencing the amplification product. As the method comprises hybridizing polynucleotide pairs to a target RNA in a fixed biological sample, the target RNA can be hybridized in situ.

The present invention provides detection systems and methods for detection of loci and genomic regions in a sample, including mixed samples, using hybridization to an array.

The present invention provides detection systems and methods for detection of loci and genomic regions in a sample, including mixed samples, using hybridization to an array.

Methods for multiplexed detection of a nucleic acid sequence in a sample including the use of a plurality of oligonucleotide target-specific probes (TSPs) configured to bind to a distinct target nucleic acid sequence, where each of the TSPs includes one or more copies of a first fluorescent probe (FP) binding region and one or more copies of a second FP binding region, and where a predetermined ratio of the one or more copies of the first FP binding region to the one or more copies of the second FP binding region is indicative of the distinct target nucleic acid sequence the TSP is configured to bind to.

Methods for multiplexed detection of a nucleic acid sequence in a sample including the use of a plurality of oligonucleotide target-specific probes (TSPs) configured to bind to a distinct target nucleic acid sequence, where each of the TSPs includes one or more copies of a first fluorescent probe (FP) binding region and one or more copies of a second FP binding region, and where a predetermined ratio of the one or more copies of the first FP binding region to the one or more copies of the second FP binding region is indicative of the distinct target nucleic acid sequence the TSP is configured to bind to.

The present invention concerns a method of sequencing immobilized polynucleotides in which beads which are tethered to the solid support are used as labels to identify bases within the polynucleotides. The beads carry sets of probes or bases which can bind to the polynucleotide allowing identification of the target base(s). Identification of the base(s) is achieved through sequential application of different cleavage means specific to different probes/bases carried on the beads. Also provided is an apparatus for performing the method and a kit comprising the apparatus and other components necessary for performing the method.

The present invention concerns a method of sequencing immobilized polynucleotides in which beads which are tethered to the solid support are used as labels to identify bases within the polynucleotides. The beads carry sets of probes or bases which can bind to the polynucleotide allowing identification of the target base(s). Identification of the base(s) is achieved through sequential application of different cleavage means specific to different probes/bases carried on the beads. Also provided is an apparatus for performing the method and a kit comprising the apparatus and other components necessary for performing the method.

The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more target nucleotide sequences in the sample is identified based on the detection

The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more target nucleotide sequences in the sample is identified based on the detection

The present invention relates to a method for selecting a target region of interest (ROI) in a target nucleic acid molecule using a nucleic acid probe comprising a 3′ sequence capable of hybridising to a target nucleic acid molecule and acting as a primer for the production of a complement of the target ROI (i.e. by target templated extension of the primer), and a sequence capable of templating the circularisation and ligation of the extended probe comprising the reverse complement of the target ROI and a portion of the probe. The circularised molecule thus obtained contains the reverse complement of the target ROI and may be subjected to further analysis and/or amplification etc. The probe may be provided as an oligonucleotide comprising a stem-loop structure or as a partially double-stranded construct and comprises a single-stranded 3′ end region containing the target-binding site. A second binding site provided in the probe serves as the ligation template for circularisation, and the stem-loop structure, if present, is cleaved to render the second binding site available for hybridisation to the target complement. Also provided are probes and kits for carrying out such a method.