Abstract: Methods for detecting Mycoplasma pneumoniae, Chlamydophila pneumoniae, and Legionella spp. are disclosed. A sample suspected of containing a nucleic acid of one or more of M. pneumoniae, C. pneumoniae, and Legionella spp. is screened for the presence or absence of that nucleic acid. Determining whether the M. pneumoniae, C. pneumoniae, or Legionella spp. nucleic acid is present in the sample can be accomplished by detecting hybridization between a M. pneumoniae probe (such as a CARDS toxin probe), a C. pneumoniae probe (such as a ArgR probe), or a Legionella spp. probe (such as a SsrA probe) and a nucleic acid in a sample. Also disclosed are probes and primers for the detection of M. pneumoniae, C. pneumoniae, and Legionella spp., and kits that contain the disclosed probes and/or primers.

Abstract: It is an object of the present invention to identify a gene that exhibits behavior which is characteristic of carcinomas such as thyroid carcinoma, so as to provide a method for detecting carcinoma and a cell growth suppressing agent. The present invention provides a method for detecting carcinoma, which comprises detecting malignant transformation by detecting at least one alteration of gene existing in chromosomal regions 1q41, 3q28, 7q31.2, 8p12, 8q22.2, 8q24.21, 11q4.1, 17q12, 20q11, 9p21.3, 16q13.2, and 16q23.1 in a specimen.

Abstract: Alterations in ERG gene expression can be observed in patients with prostate cancer. Specific ERG isoforms are associated with, or involved in, prostate cancer. Compositions comprising these isoforms provide therapeutic benefit and can be used in methods of detecting, diagnosing, prognosing, and treating prostate cancer. These compositions provide biomarkers for detecting the expression of combinations of the PSA/KLK3, PMEPA1, NKX3.1, ODC1, AMD1, and ERG genes.

Abstract: The present invention provides a polymorphism detection probe that can identify a different polymorphism in a K-ras gene easily with high reliability and use of the polymorphism detection probe.

Abstract: Disclosed is a method for determining the presence of Mycobacterium tuberculosis complex nucleic acids in a test sample. In particular, regions of the IS6110 preferential locus (ipl) 3?-flanking region of the Mycobacterium tuberculosis complex genome are amplified and detected. In addition, oligonucleotides that can be used as primers to amplify the ipl 3?-flanking region and probe oligonucleotides are described.

Abstract: Provided are DNA microarray techniques that allow hybridization without RNA amplification, without using cDNA, and without labeling the nucleic acid prior to hybridization. Referred to as the Double-stranded Exonuclease Protection (DEP) assay, the technique permits the sample RNA to be used directly for hybridization, without manipulation in any way. Further provided is a microarray technique for high-throughput miRNA gene expression analyses, termed the RNA-primed, Array-based, Klenow Enzyme (RAKE) assay. The RAKE assay is a sensitive and specific technique for assessing single-stranded DNA and RNA targets, and offers specific advantages over Northern blots.

Abstract: Methods for determining the genetic predisposition of a human subject to developing renal disease, such as focal segmental glomerulosclerosis (FSGS) or end-stage kidney disease are provided herein. These methods include methods for detecting renal disease, or determining the risk of developing renal disease in a human subject, such as a subject of African ancestry. The methods utilize the detection of one or more haplotype blocks comprising at least two tag single nucleotide polymorphisms (SNPs) in a non-coding region of a MYH9 gene or detecting the presence of at least one tag SNP in a non-coding region of a MYH9 gene. An array for detecting a genetic predisposition to renal disease using probes complementary to the tag SNPs in the non-coding region of the MYH9 gene are also disclosed.

Abstract: The invention provides methods and compositions for rapid, sensitive, and highly specific nucleic acid-based (e.g., DNA based) detection of a BK virus in a sample. In general, the methods involve detecting a target nucleic acid having a target sequence of a conserved region of BK viral genomes. The invention also features compositions, including primers, probes, and kits, for use in the methods of the invention.

Abstract: The disclosure describes alterations in ERG gene expression. ERG isoforms and promoter sequence of the ERG gene that are involved in, or associated with, prostate cancer are provided. The disclosure further provides therapeutic compositions and methods of detecting, diagnosing, prognosing, and treating prostate cancer, including biomarkers for detecting the expression of two or more of the following genes: PSA/KLK3, PMEPA1, NKX3.1, ODC1, AMD1, and ERG.

Abstract: The present invention provides oligonucleotide probes and oligonucleotide probe collections for detecting or localizing a plurality nucleic acid target genes within a cell or tissue sample. Specifically, the invention provides collections of oligonucleotide probes for use in in situ hybridization analyses in which each probe has a label-domain with the sequence formulas of (CTATTTT)nCT, (AAAATAG)n or (TTTTATC)n or (GATAAAA)n in which all cases “n” would equal 1 or greater. The present invention also provides collections or “cocktails” of oligonucleotide probes for detecting or localizing specific nucleic acid target genes within a cell or tissue sample.

Abstract: The invention provides haplotypes and SNPs of the HPCAL1 and SV2C genes which predict the risk for developing schizophrenia or bipolar disorder and predict which patients are likely to respond to a given treatment or are more likely to experience negative side effects.

Abstract: There is disclosed the cloning and identification of human IL-23R splice variants caused by alternative splicing of the IL-23R mRNA in human. Alternative mRNA forms occur through skipping one, multiple full exons or partial exons, within the IL-23R gene. A total of twenty-five (25) different IL-23R transcripts were identified. A novel exon deletion (exon 9) isoform in the interleukin 23 receptor is disclosed, denoted as ?9. The present application also describes a quantitative assay to measure different IL-23R isoform. Detection of ?9 isoform of IL-23R is predominantly present in colon and cervical tissues. A decrease in ?9 is observed in inflamed colon tissues in Crohn's patients. There is disclosed a method of predicting Crohn's disease by measuring ?9 isoform of IL-23R.

Abstract: A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NO. 55 or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium.

Abstract: Disclosed is a method for determining the presence of Mycobacterium tuberculosis complex nucleic acids in a test sample. In particular, regions of the IS6110 preferential locus (ipl) 3?-flanking region of the Mycobacterium tuberculosis complex genome are amplified and detected. In addition, oligonucleotides that can be used as primers to amplify the ipl 3?-flanking region and probe oligonucleotides are described.

Abstract: The present invention provides oligonucleotide probes and oligonucleotide probe collections and protein labeling for detecting or localizing a plurality nucleic acid target genes or antigens within a cell or tissue sample. Specifically, the invention provides collections of oligonucleotide probes for use in in situ hybridization analyses in which each probe has a label-domain with the sequence formulas of (CTATTTT)nCT, (AAAATAG)n or (TTTTATC)n or (GATAAAA)n in which all cases “n” would equal 1 or greater. The present invention provides collections or “cocktails” of oligonucleotide probes for detecting or localizing specific nucleic acid target genes within a cell or tissue sample.

Abstract: This invention relates to the use of genetic probes for detection of the presence of the SCCmec cassette in Staphylococcus aureus. In one aspect, the invention allows specific detection and identification of methicillin-resistant S. aureus (MRSA) in a clinical sample without interference from the presence of other non-S. aureus methicillin-resistant staphylococci. In another aspect, the invention allows specific detection and identification of methicillin-resistant coagulase negative staphylococci (MRCNS) originating from a clinical sample without interference from the presence of methicillin-resistant S. aureus.

Abstract: A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 90 to 91 and complementary or modified sequences thereof or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium.

Abstract: A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 59 to 61 or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium.

Abstract: The present invention relates to a method of identifying an increase in risk for type II Diabetes mellitus, venous thrombosis, or pulmonary embolism in a subject, wherein the presence of an amino acid exchange at position 286 from valine (Val) to alanine (Ala) in the EDG5 protein in a biological sample taken from the subject.

Abstract: A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 62 to 64 or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium.