The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.

The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.

A method for detection of active form of analytes in a sample and/or for determination of ability of tested substances to bind to the active site of these analytes has the following steps: a) analyte or group of analytes from the sample is immobilized on the surface of a solid carrier; b) analyte or group of analytes is incubated with a detection probe; c) then the solid carrier is washed to remove unbound detection probe; and subsequently, the amount of bound detection probe is determined.

A method for detection of active form of analytes in a sample and/or for determination of ability of tested substances to bind to the active site of these analytes has the following steps: a) analyte or group of analytes from the sample is immobilized on the surface of a solid carrier; b) analyte or group of analytes is incubated with a detection probe; c) then the solid carrier is washed to remove unbound detection probe; and subsequently, the amount of bound detection probe is determined.

The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a sample of DNA from the mother of the fetus and from the fetus, and from genotypic data from the mother and optionally also from the father. The ploidy state is determined by using a joint distribution model to create a set of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. In an embodiment, the mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias.

The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a sample of DNA from the mother of the fetus and from the fetus, and from genotypic data from the mother and optionally also from the father. The ploidy state is determined by using a joint distribution model to create a set of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. In an embodiment, the mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias.

The present specification relates to methods, compositions, and kits for determining the presence of the number of copies of a gene. The present disclosure provides methods and compositions to determine zygosity in transgenic plants, number of transgenes in a plant or animal, karyotyping, determine CNV in human and animal samples, diagnose and detect diseases and conditions that are characterized by having variations in the number of copies of one or more genes.

The present specification relates to methods, compositions, and kits for determining the presence of the number of copies of a gene. The present disclosure provides methods and compositions to determine zygosity in transgenic plants, number of transgenes in a plant or animal, karyotyping, determine CNV in human and animal samples, diagnose and detect diseases and conditions that are characterized by having variations in the number of copies of one or more genes.

Provided herein are primers and primer systems having improved specificity and kinetics over existing primers, and methods of use thereof.

Provided herein are primers and primer systems having improved specificity and kinetics over existing primers, and methods of use thereof.