Abstract: A method for the early diagnosis of pancreatic cancer and other gastrointestinal disease compares the gene expression patterns from a patient's peripheral blood monocytes-lymphocyte's gene system with either the similar gene expression patterns of a normal person, or with the similar gene expression patterns of a person known to have the condition being screened for. Differences between the patient's gene expression patterns for particular genes and the normal patterns indicates the presence of the condition with the number of differences indicating the probability of the condition. Similarities between the patient's gene expression patterns for those particular genes and the patterns of a person known to have the condition indicates the presence of the condition with the number of similarities indicating the probability of the condition. Particular genes for use in identifying pancreatic cancer are disclosed.

Abstract: The present invention provides comparative genomic hybridization methods for detecting and mapping chromosomal or genetic abnormalities associated with various diseases or with predisposition to various diseases, or to detecting the phenomena of large scale copy number variants. The method includes hybridization with one or more probes for detecting balanced translocations. Such probes may be complementary to the moving genomic segment which is translocated or may be complementary to the translocation break point.

Abstract: Methods and kits are provided for determining whether a subject is at risk of developing a neurological disease such as Alzheimer's disease and multiple sclerosis. The methods and kits are based on the detection of one or more nucleic acid variants in the MBL gene of the subject.

Abstract: The present invention generally relates to spatial and structural genomic analysis compositions, which can be used for the mapping of chromosomes and structural analyses of chromosomal rearrangements, including the entire chromosome, as well as specific portions or regions of interest of the chromosomes. In some embodiments, multiple portions of the genome can be distinguished, for instance, using a first detection entity and a second detection entity different from the first detection entity. The detection entities may be immobilized relative to oligonucleotides, which may be selected to bind to different locations within the chromosome. For instance, the oligonucleotides may be at least substantially complementary to the chromosome, e.g., substantially complementary to a specific location of the chromosome.

Abstract: Methods of predicting the phenotype of a trait in a bovine subject are provided. The methods include obtaining information about polynucleotide sequences specifically regarding the identity of the nucleotides present at one or more identified single nucleotide polymorphisms and using this information to make predictions regarding the trait in the subject. Also provided are kits for and methods of determining the nucleotide present in a bovine subject at a position in which a single nucleotide polymorphism is correlated with a trait.

Abstract: Methods for efficiently capturing a target nucleic acid from a sample by using a mixture that contains a capture probe specific for the target nucleic acid, the target nucleic acid, and a denaturant chemical, which mixture is incubated at elevated temperature for a short time, are disclosed. Compositions that include a capture probe that specifically binds to a target nucleic acid and a denaturant chemical, which when mixed with the target nucleic acid and incubated at elevated temperature for a short time, promote efficient hybridization of the capture probe and target nucleic acid are disclosed.

Abstract: The present invention provides for selection of livestock animals, including bovines, whose genotypes based in the STAT6 gene are correlated with phenotypes reflecting desirable carcass and feedlot traits. These phenotypes include back fat (BFAT), calculated yield grade (CALCYG), cutability (CUT), hot carcass weight (HCW), dry matter intake (DMI), days on feed (DOF), back fat rate (BFAT RATE) and average daily gain (ADG), based on the knowledge of the STAT6 genotypes. The predictive value is based in part on the discovery that certain single nucleotide polymorphisms (SNPs) within the STAT6 gene are linked to phenotypes of economically these important carcass and feedlot traits. Also provided are SNPs within the STAT6 gene useful in reliably distinguishing between a Bos taurus and a Bos indicus bovine.