Abstract: The present invention provides novel methods for exponential amplification of nucleic acid's fluorescence in situ hybridization (FISH) signal with high sensitivity and specificity. The present method thereby allows for FISH to be used in high-throughput screening methods and diagnostics. In one aspect, the invention comprises designing a primary click-amplifying FISH (clampFISH) probe for binding to a target sequence.

Abstract: The invention provides a high efficiency fluorescence in situ hybridization (FISH) method for detecting mutations on individual RNA transcripts, including both exonic and intronic RNA transcripts. In certain embodiments, the method is used to quantify allelic expression at the population and single cell level, and also to distinguish maternal chromosomes from paternal chromosomes in single cells.

Abstract: The present invention provides novel methods for exponential amplification of labeled nucleic acids with high sensitivity and specificity. In one aspect, the invention includes a method for exponentially amplifying the signal of a fluorescently labeled primary click-amplifying FISH (clampFISH) probe. In another aspect, the invention includes a method for labeling a target nucleic acid in a sample. In yet another aspect, the invention includes a method for detecting a fluorescently labeled target nucleic acid in a sample. The present invention also provides a kit for use with the methods of the invention.

Abstract: The present invention relates to systems and methods for measuring chromosome structure and gene expression. In one embodiment, the present invention includes an assay for determining the spatial organization of gene expression in the nucleus. The present invention also includes a method based on fluorescence in situ hybridization (FISH) that simultaneously yields information on the physical position and expression of individual genes. By lighting up a large number of targets on a particular chromosome using a bar-coding scheme, the large scale structure of an entire chromosome can be determined.

Abstract: A method for probing a target sequence of messenger ribonucleic acid molecules (mRNA's) in a fixed, permeabilized cell, said target sequence including at least 30 non-overlapping probe binding regions of 15-100 nucleotides, comprising immersing said cell in an excess of at least 30 nucleic acid hybridization probes, each singly labeled with the same fluorescent label and each containing a nucleic acid sequence that is complementary to a different probe binding region of said target sequence; washing said fixed cell to remove unbound probes; and detecting fluorescence from said probes.

Abstract: A method for probing a target sequence of messenger ribonucleic acid molecules (mRNA's) in a fixed, permeabilized cell, said target sequence including at least 30 non-overlapping probe binding regions of 15-100 nucleotides, comprising immersing said cell in an excess of at least 30 nucleic acid hybridization probes, each singly labeled with the same fluorescent label and each containing a nucleic acid sequence that is complementary to a different probe binding region of said target sequence; washing said fixed cell to remove unbound probes; and detecting fluorescence from said probes.

Abstract: The present invention provides a method for improved fluorescent in situ hybridization (FISH) methodology which allows for quantifiable signals to be obtained in a short period of time. In certain embodiments, the method provides for a shorter hybridization time, thereby allowing the present method to be used in screening and rapid diagnostic methods. The present invention also provides a device and reagents for use with the methods of the invention.

Abstract: The invention provides a high efficiency fluorescence in situ hybridization (FISH) method for detecting mutations on individual RNA transcripts, including both exonic and intronic RNA transcripts. In certain embodiments, the method is used to quantify allelic expression at the population and single cell level, and also to distinguish maternal chromosomes from paternal chromosomes in single cells.

Abstract: The present invention relates to systems and methods for measuring chromosome structure and gene expression. In one embodiment, the present invention includes an assay for determining the spatial organization of gene expression in the nucleus. The present invention also includes a method based on fluorescence in situ hybridization (FISH) that simultaneously yields information on the physical position and expression of individual genes. By lighting up a large number of targets on a particular chromosome using a bar-coding scheme, the large scale structure of an entire chromosome can be determined.

Abstract: A method for probing a target sequence of messenger ribonucleic acid molecules (mRNA's) in a fixed, permeabilized cell, said target sequence including at least 30 non-overlapping probe binding regions of 15-100 nucleotides, comprising immersing said cell in an excess of at least 30 nucleic acid hybridization probes, each singly labeled with the same fluorescent label and each containing a nucleic acid sequence that is complementary to a different probe binding region of said target sequence; washing said fixed cell to remove unbound probes; and detecting fluorescence from said probes.