Abstract: The present invention relates to the use of gene activity markers for classification of patients suffering from infectious and non-infectious multiple organ failure, respectively. The present invention in particular relates to gene activity markers for classification of patients as “not infected without multiple organ failure” or as “not suffering from infectious multiple organ failure” or as “suffering from infectious multiple organ failure”, the gene activity markers being polynucleotides selected from the group consisting of: SEQ ID I.1, SEQ ID I.2, SEQ ID I.3, SEQ ID I.4, SEQ ID I.5, SEQ ID I.6, SEQ ID I.7, SEQ ID I.8 and SEQ ID I.9 or partial sequences thereof.

Abstract: This invention provides compositions and methods for HCV typing, e.g., genotyping and/or subtyping. The compositions and methods of the invention can be used to assign an HCV isolate to one of at least five HCV genotypes (for example, selected from genotypes 1, 2, 3, 4, 5 or 6), or assign an HCV isolate to one of at least six subtypes (for example, selected from subtypes 1a/b/c, 2a/c, 2b, 3a, 4a, 5a or 6a), where the methods of the invention use only a single typing probe to make the HCV type assignment.

Abstract: Disclosed is a single stranded primer-promoter-selector construct comprising (in 3? to 5? orientation) a primer subsequence annealing to the target, a T7 or other promoter subsequence (the template strand), and a selector subsequence. The primer can be extended by template mediated elongation, including reverse transcription, or ligation to another oligonucleotide. The promoter sequence is oriented to direct the in-vitro transcription (IVT) opposite to that of primer extension, where the selector subsequence serves as a template for IVT. The selector is associated with the target subsequence of interest and it, and the amplified product are unique subsequences, dissimilar to other sequence present in the sample. The construct's is useful for determination of the presence and relative abundance of designated subsequences in the sample, multiplex gene expression analysis, multiplex allele counting, determination of polymorphic/mutation site, and loss of heterozygosity.

Abstract: A thermocycler comprising a temperature control block (1,2,3) which is designed to receive several specimens and which is fitted with a control unit (6) that in consecutive cycles applies the different temperature levels (40° C., 70° C., 95° C.) of a PCR procedure to said block, said thermocycler being characterized in that said temperature controlling block is sub-divided into thermally separate segments (1,2,3) each of which is controlled separately and receives several specimens, the control unit (6) being designed to drive the said segments at different cycling rates (nine, seven, four).

Abstract: It is intended to provide novel primers for nucleic acid amplification to be used in detecting mRNA of a housekeeping gene, more particularly, confirming the amplification of ?-actin or GAPDH. More specifically speaking, primers containing oligonucleotides having nucleotide sequences represented by any of SEQ ID NOS: 2 and 4 to 49 (in the case of ?-actin) or oligonucleotides having nucleotide sequences represented by any of SEQ ID NOS: 52 to 96 (in the case of GAPDH) can be selected, combined and used.

Abstract: Biology-based processes for detecting toxic substances are provided. The processes comprise detecting mRNA that is expressed in the presence of toxic substances by a cell comprising a yeast gene as followed, or a gene that is homologous to the yeast genes and is derived from other species, wherein the mRNA corresponds to said yeast gene or said homologous gene thereof.

Abstract: A method for evaluating or selecting a substance capable of preventing or curing photodamage of skin is provided. Provided is a method for evaluating or selecting an agent for preventing or curing photodamage of skin, the method including: (A) contacting cells that are capable of expressing TIMP-1 gene or TIMP-1 protein, with a test substance; (B) measuring the expression level of the TIMP-1 gene or the TIMP-1 protein in the cells; (C) comparing the expression level obtained in (B), with the expression level of TIMP-1 gene or TIMP-1 protein in a control group in which the cells capable of expressing TIMP-1 gene or TIMP-1 protein have not been contacted with the test substance; and (D) evaluating or selecting the test substance which increases the expression level of TIMP-1 gene or TIMP-1 protein, as an agent for preventing or curing photodamage of skin, based on the results of (C).

Abstract: This invention relates to reagent comprising: any one of cells, viral particles, organelles, parasites, cells comprising organelles, cells comprising viral particles, cells comprising parasites, cells comprising bacterial cells and any combination thereof, the cells, viral particles, organelles or parasites comprising at least one nucleic acid sequence serving as an internal control (IC) target for nucleic acid testing (NAT) assay; wherein the reagent is suitable to be added to a test sample undergoing sample preparation to release, concentrate and/or purify nucleic acids and amplification and/or detection of nucleic acids so as to be used to verify: (i) the efficiency of sample preparation; and (ii) the efficiency of nucleic acid amplification and/or detection. The present invention also relates to a method to verify or validate the preparation and amplification and/or detection of a nucleic acid target sequence in a sample spiked with a reagent of the present invention.

Abstract: An object of the present invention is to discover an endogenous wheat sequence satisfying the conditions of: a) it is universally present in varieties of wheat, b) the amount present (detected amount) is not affected by the wheat variety, c) even if other grains are present, only wheat can be detected without cross-reactivity, and d) it is amplified quantitatively by the PCR reaction. A further object of the present invention is to provide a method of accurately detecting and quantitating endogenous wheat DNA in a test sample by the polymerase chain reaction.

Abstract: Methods and compositions are provided for repairing a polynucleotide so that it can be copied with improved fidelity and/or yield in, for example, an amplification reaction. This involves the use of a reaction mixture that includes a ligase and a cofactor selected from NAD+ or ATP and incubating the polynucleotide with the reaction mixture in the absence of Endonuclease VI. The reaction mixture may further contain an AP endonuclease and a polymerase. If used, these enzymes may be selected according to their ability to withstand high temperatures. For example, the reaction mixture may be used prior to a polynucleotide synthesis reaction in which case enzymes that are not thermophilic may be used. The repair reaction is not time sensitive with respect to seconds, minutes or hours of incubation in the enzyme mixture in as much as the repair is effected rapidly and prolonged incubation is not generally adverse.

Abstract: A process for detecting the presence of a mutation in an oligonucleotide strand such as a DNA strand from a gene without the need for DNA sequencing is provided. The inventive process provides a rapid pre-test to screen for the presence or absence of a mutation in a target gene of a subject to determine whether laborious sequencing protocols are required to further characterize a mutation. The inventive process provides a rapid screening protocol for identifying and detecting a genetic mutation in a patient who presents with a disease.

Abstract: Methods, devices, and systems for performing intermittent detection during analytical reactions are provided. Such methods facilitate collection of reaction data from disparate reaction times. Further, such methods are useful for reducing photo-induced damage of one or more reactants in an illuminated analytical reaction at a given reaction time. In preferred embodiments, the reaction mixture is subjected to at least one illuminated and non-illuminated period and allowed to proceed such that the time in which the reaction mixture is illuminated is less than a photo-induced damage threshold period.

Abstract: The present invention provides methods, compositions and kits for using an RNA polymerase for making transcription products corresponding to a target sequence by obtaining single-stranded DNA transcription substrates that comprise a single-stranded promoter that is operably joined to a single-stranded target sequence. The invention has broad applicability for research, diagnostic and therapeutic applications, such as preparing cDNA corresponding to full-length mRNA, making sense or anti-sense probes, detecting gene- or organism-specific sequences, cloning, cell signaling or making RNA for use in RNAi.

Abstract: The present invention provides kits and microarrays containing primer pairs for amplifying drug resistance genes and/or probes for detection of drug resistance genes. Also provided are methods of detecting drug resistance genes using kits and microarrays described herein.

Abstract: Disclosed is a non-invasive method for diagnosis, prognosis or monitoring of Epstein-Barr virus (EBV)-associated cancer by detecting and/or quantifying EBV associated nucleic acid fragments in a urine sample from an individual. Kits for diagnosis, prognosis or monitoring of cancer are also disclosed.

Abstract: In various embodiments this invention provides novel methods for discriminating two or more different target nucleic acids. In certain embodiments the methods comprise providing data amplification reactions comprising reagents to amplify two or more different target nucleic acids where the data comprise signals comprising an amplitude measurement representing the degree of amplification of each target nucleic acid in the amplification reaction and the time point in the amplification reaction at which the amplitude is measured; determining an efficiency related transform of the data, determining an efficiency related value for each target nucleic acid that is the maximum magnitude of the efficiency related transform; and outputting the efficiency related values in the amplification reaction for each target nucleic acid, where the relative amplitudes of the efficiency related values for each target nucleic acid is an indicator of the presence of each of said nucleic acids in said sample.

Abstract: Disclosed are compositions and methods for diagnosing, preventing, and treating prostate cancer and prostate intraepithelial neoplasia (PIN).

Abstract: The present invention provides methods, compositions, and kits for nucleic acid detection.

Abstract: Complex of an anti-cocaine aptamer and the dye diethylthiotricarbocyanine behaves as a calorimetric sensor with attenuation in absorbance at 760 nm for cocaine in the concentration range of 2-5000 ?M. Mechanistic studies indicate an intermolecular displacement of the dye as the mechanism of action of the sensor. As the dye is insoluble in buffer, cocaine binding can be detected as displaced dye precipitates and supernatant decolorizes.

Abstract: Provided herein are methods and materials for diagnosing a subject's predisposition for pulmonary infection in a CF subject by detecting a pulmonary infection genetic marker. Pulmonary infection markers have been identified in the IL-1 gene cluster and may be useful in predicting CF disease progression and assessing a CF subject's response to therapy.