Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are products and processes for the quantitation of mitochondrial nucleic acid in a sample from a subject. In certain aspects are multiplex methods for determining dosage of mitochondrial nucleic acid relative to genomic nucleic acid for a sample from a subject including amplifying sets of mitochondrial polynucleotides and genomic polynucleotides from nucleic acid for a sample under amplification conditions. In certain aspects are multiplex methods for determining dosage of mitochondrial nucleic acid relative to genomic nucleic acid for a sample from a subject including amplifying sets of mitochondrial polynucleotides and amplifying sets of nuclear polynucleotides from nucleic acid for a sample under amplification conditions.

Abstract: Provided are compositions and processes that utilize genomic regions differentially methylated between a mother and her fetus to separate, isolate or enrich fetal nucleic acid from a maternal sample. The compositions and processes described herein are useful for non-invasive prenatal diagnostics, including the detection of chromosomal aneuploidies.

Abstract: Provided herein are products and processes for the quantitation of mitochondrial nucleic acid in a sample from a subject. In certain aspects are multiplex methods for determining dosage of mitochondrial nucleic acid relative to genomic nucleic acid for a sample from a subject including amplifying sets of mitochondrial polynucleotides and genomic polynucleotides from nucleic acid for a sample under amplification conditions. In certain aspects are multiplex methods for determining dosage of mitochondrial nucleic acid relative to genomic nucleic acid for a sample from a subject including amplifying sets of mitochondrial polynucleotides and amplifying sets of nuclear polynucleotides from nucleic acid for a sample under amplification conditions.

Abstract: Provided are compositions and processes that utilize genomic regions differentially methylated between a mother and her fetus to separate, isolate or enrich fetal nucleic acid from a maternal sample. The compositions and processes described herein are useful for non-invasive prenatal diagnostics, including the detection of chromosomal aneuploidies.

Abstract: Provided are compositions and processes that utilize genomic regions that are differentially methylated between a mother and her fetus to separate, isolate or enrich fetal nucleic acid from a maternal sample. The compositions and processes described herein are particularly useful for non-invasive prenatal diagnostics, including the detection of chromosomal aneuploidies.

Abstract: Provided herein are multiplex methods for detecting the presence or absence and amount of variants of a plurality of target nucleic acid species having low-abundance variants and high-abundance variants.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided are compositions and processes that utilize genomic regions that are differentially methylated between a mother and her fetus to separate, isolate or enrich fetal nucleic acid from a maternal sample. The compositions and processes described herein are particularly useful for non-invasive prenatal diagnostics, including the detection of chromosomal aneuploidies.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided herein are multiplex methods for detecting the presence or absence and amount of variants of a plurality of target nucleic acid species having low-abundance variants and high-abundance variants.

Abstract: Provided are compositions and processes that utilize genomic regions that are differentially methylated between a mother and her fetus to separate, isolate or enrich fetal nucleic acid from a maternal sample. The compositions and processes described herein are particularly useful for non-invasive prenatal diagnostics, including the detection of chromosomal aneuploidies.

Abstract: Provided herein are products and processes for the quantitation of mitochondrial nucleic acid in a sample from a subject. In certain aspects are multiplex methods for determining dosage of mitochondrial nucleic acid relative to genomic nucleic acid for a sample from a subject including amplifying sets of mitochondrial polynucleotides and genomic polynucleotides from nucleic acid for a sample under amplification conditions. In certain aspects are multiplex methods for determining dosage of mitochondrial nucleic acid relative to genomic nucleic acid for a sample from a subject including amplifying sets of mitochondrial polynucleotides and amplifying sets of nuclear polynucleotides from nucleic acid for a sample under amplification conditions.

Abstract: Provided herein are products and processes for detecting the presence or absence of minor nucleic acid species in a sample containing a mixture of minor nucleic acid species and one or more major nucleic acid species, where the amount (frequency or copy number) of the minor nucleic acid species is less than that of the major nucleic acid species. Certain methods include amplifying the mixture and extending the resulting amplicons using chain terminating reagents and extension primers that specifically hybridize to the amplicons, where a chain terminating reagent specific for the major nucleic acid species has a concentration that is less than a chain terminating reagent that is specific for a minor nucleic acid species.

Abstract: Provided are compositions and processes that utilize genomic regions that are differentially methylated between a mother and her fetus to separate, isolate or enrich fetal nucleic acid from a maternal sample. The compositions and processes described herein are particularly useful for non-invasive prenatal diagnostics, including the detection of chromosomal aneuplodies.