Abstract: Disclosed are 3′-deoxyribonucleotide derivatives represented by the following general formula [I]: Q—V—(CH2)n—NH—R  [I] wherein Q represents a 3′-deoxyribonucleotide residue, n represents an integer not less than 4, V represents —C≡C— or —CH═CH—, and R represents a fluorescent group. The above 3′-deoxyribonucleotide derivatives are derivatives with improved rates for incorporation using RNA polymerases, which are useful as terminators in the DNA sequence determination methods utilizing RNA polymerases.

Abstract: Provided is a method of nucleic acid amplification. In one embodiment, the method comprises performing nucleic acid amplification on a target polynucleotide using a nucleic acid polymerase having 5′ to 3′ nuclease activity, a primer capable of hybridizing to the target polynucleotide, and an oligonucleotide probe under amplification conditions such that the probe hybridizes to the target polynucleotide 3′ relative to the primer and the probe does not hybridize with itself to form a hairpin structure. The oligonucleotide probe has at one end a fluorescent reporter and at the other end a quencher that quenches the fluorescence of the reporter molecule when both the fluorescent reporter and quencher are attached to the probe. Digestion of the oligonucleotide probe by the polymerase during amplification is effective to separate the reporter from the quencher, whereby a fluorescence signal of the reporter is increased.

Abstract: Methods for determining the presence of a target polynucleotide sequence using chemical hybridization in sequential probe and displacement complex formation with potential for signal gain prior to detection are disclosed.

Abstract: The invention comprises a multi-color, comparative hybridization assay method using an array of nucleic acid target elements attached to a solid support for the simultaneous detection of both gene expression and chromosomal abnormalities in a tissue sample. The method of the invention employs a comparative hybridization of a tissue mRNA or cDNA sample labeled in a first fluorescent color, a tissue chromosomal DNA sample labeled in a second fluorescent color, and at least one reference nucleic acid labeled in a third fluorescent color, to the array. The fluorescent color presence and intensity at each of at least two target elements are detected and the fluorescent ratios (i) of the first and third colors and (ii) the second and third colors determined. Gene expression and chromosomal abnormalities are thus simultaneously detected.

Abstract: A protein having a labeling compound attached to its C-terminal, in which the compound comprises a label portion comprising a label substance and an acceptor portion comprising a compound having an ability of binding to a C-terminal of a synthesized protein when protein synthesis is carried out in a cell-free protein synthesis system or in a living cell is provided. Also, a method for producing the protein comprising the step of performing synthesis of a protein in a cell-free protein synthesis system or in a living cell in the presence of a labeling compound comprising a label portion comprising a label substance and an acceptor portion comprising a compound having an ability of binding to a C-terminal of a synthesized protein when protein synthesis is carried out in the cell-free protein synthesis system or in the living cell, the labeling compound being present at a concentration effective for the labeling compound to bind to the C-terminal of the synthesized protein is provided.

Abstract: Direct determination of the sequence of an RNA sample is performed under isothermal conditions. An RNA sample containing a target nucleic acid is combined in a single reaction vessel with a reaction mixture containing two polynucleotide primers, a first primer that specifically hybridizes with a target sequence near the 3′ end of the target nucleic acid, and a second primer that specifically hybridizes to the 3′ end of an antisense copy of the target nucleic acid. At least one of the primers is labeled with a detectable label, and at least one of the first or second primer has an RNA polymerase transcription initiation signal at its 5′ end, which signal does not specifically hybridize to the RNA target.

Abstract: The invention describes a new method to sequence DNA. The improvements over the existing DNA sequencing technologies are high speed, high throughput, no electrophoresis and gel reading artifacts due to the complete absence of an electrophoretic step, and no costly reagents involving various substitutions with stable isotopes. The invention utilizes the Sanger sequencing strategy and assembles the sequence information by analysis of the nested fragments obtained by base-specific chain termination via their different molecular masses using mass spectrometry, as for example, MALDI or ES mass spectrometry. A flirter increase in throughput can be obtained by introducing mass-modifications in the oligonucleotide primer, chain-terminating nucleoside triphosphates and/or in the chain-elongating nucleoside triphosphates, as well as using integrated tag sequences which allow multiplexing by hybridization tag specific probes with mass differentiated molecular weights.

Abstract: Dibenzorhodamine compounds having the structure are disclosed, including nitogen- and aryl-substituted forms thereof. In addition, two intermediates useful for synthesizing such compounds are disclosed, a first intermediate having the structure including nitrogen- and aryl-substituted forns thereof, and a second intermediate having the structure including nitrogen- and aryl-substituted forms thereof, wherein substituents at positions C-14 to C18 taken separately are selected from the group consisting of hydrogen, chlorine, fluorine, lower alky, carboxylic acid, sulfonic acid, —CH2OH, alkoxy, phenoxy, linking group, and substituted forms thereof. The invention further includes energy transfer dyes comprising the dibenzorhodamine compounds, nucleosides labeled with the dibenzorhodamine compounds, and nucleic acid analysis methods employing the dibenzorhodamine compounds.

Abstract: The invention concerns metallocene-phosphoramidite conjugates comprising one or a plurality of metallocenes and one or a plurality of phosphoramidites. The invention further concerns a process for preparing the metallocene-phosphoramidite conjugates and their use.

Abstract: This invention provides a duplex comprising an oligonucleotide primer and a template, wherein the primer is coupled chemically to a chromophore or fluorophore so as to allow chain extension by a polymerase. In one embodiment, the primer is extended by a polymerase to generate the complement of the template. In a further embodiment, the extended primer is separated from the template for use in a number of methods, including sequencing reactions. Methods of generating these compositions of matter are further provided.

Abstract: A nucleoside/tide compound having the structure NUC-L-S-LB/LG is described wherein NUC is a nucleoside/tide having a nucleobase portion B, L is a rigid linkage, S is a spacer; and LB/LG is a member of a linkage pair or a label. NUC is attached to L through B such that when B is a purine, L is attached to the 8-position of the purine, when B is 7-deazapurine, L is attached to the 7-position of the 7-deazapurine, and when B is pyrimidine, L is attached to the 5-position of the pyrimidine. In an important aspect of the invention, L has the structure wherein each of n, o and p are integers ranging from 0 to 3, and the sum of n, o and p is at least 2, and each of W, X, Y and Z is selected from the group consisting of carbon and nitrogen. The invention further includes polynucleotide compounds comprising the nucleoside/tide, and primer extension methods utilizing the nucleoside/tide, particularly when used in combination with certain mutant polymerase enzymes.