Abstract: The present invention provides methods for validating results of a pre-implantation genetic screen. Methods of the invention increase the efficacy of the common PGS assay FAST-SeqS by taking advantage of single-nucleotide polymorphisms (SNPs) generated from the assay to confirm copy number calls, detect errors, identify samples, and recognize and identify sources of contamination. Methods of the invention increase the reliability of a PGS result, thereby making embryo selection more precise and improving outcomes of in vitro fertilization.

Abstract: The present invention generally relates to determining the clinical significance of a variant nucleic acid sequence. The invention can involve sequencing a nucleic acid to generate at least one sequence read, identifying a variant sequence within the sequence read, determining the equivalent insertion/deletion region (EIR) of the variant sequence, identifying a functional region including at least a portion of the EIR, and associating the EIR with the identified functional region, thereby to determine the clinical significance of the variant.

Abstract: The invention generally relates to methods for determining carrier status with respect to a condition or disease. In certain embodiments, the method involves exposing a sample to a plurality of molecular inversion probes capable of capturing DNA from at least one genomic region suspected of having an altered copy number and at least one internal control DNA known or suspected to have a stable copy number, capturing and sequencing DNA that binds to the molecular inversion probes, and determining a copy number state of the at least one genomic region based on the sequence results.

Abstract: The invention generally relates to methods of performing a capture reaction. In certain embodiments, the method involves obtaining a nucleic acid, fragmenting the nucleic acid, and capturing a target sequence on the nucleic acid fragment using a capture moiety, such as a molecular inversion probe.

Abstract: The invention generally relates to devices and systems for individually barcoding sample vessels. In certain embodiments, the devices comprise an attachment member and an extension member, where the extension member can accommodate an identifier, such as a barcode. When loaded into a substrate, the barcoded vials are scanned by a barcode reader.

Abstract: The invention generally relates to methods for analyzing nucleic acids to identify novel mutations associated with diseases. In certain embodiments, methods of the invention involve obtaining nucleic acid from a subject having a disease, identifying at least one mutation in the nucleic acid, and comparing the mutation to a database of mutations known to be associated with the disease, wherein mutations that do not match to the database are identified as novel mutations.

Abstract: The invention generally relates to methods of performing a capture reaction. In certain embodiments, the method involves obtaining a nucleic acid, fragmenting the nucleic acid, and capturing a target sequence on the nucleic acid fragment using a capture moiety, such as a molecular inversion probe.

Abstract: The invention generally relates to methods of performing a capture reaction. In certain embodiments, the method involves obtaining a nucleic acid, fragmenting the nucleic acid, and capturing a target sequence on the nucleic acid fragment using a capture moiety, such as a molecular inversion probe.

Abstract: The invention generally relates to methods for analyzing nucleic acids. In certain aspects, methods of the invention involve obtaining a sample including a nucleic acid template. A plurality of molecular inversion probes are tiled across a portion of the template. The probes are designed such that immediately adjacent probes hybridize to opposite strands of the nucleic acid template and probes on the same strand hybridize to the template in an overlapping manner. A region between targeting arms of a plurality of the molecular inversion probes is filled-in with nucleotides, and the filled-in region of a plurality of the probes is analyzed to obtain sequence information about the nucleic acid template.

Abstract: The invention relates to carrier screening and methods for describing a structural variant, such as a large rearrangement or chromosomal abnormality, in a person's genome using probes that are designed to determine the person's genetic sequence and reveal substitution mutations and small structural variants. Identifying a structural variant may include exposing a nucleic acid to a plurality of probes. Each probe has a linked pair of targeting arms designed to hybridize upstream and downstream of a target in a genome. The method includes hybridizing two of the probes to the nucleic acid and attaching the two probes together to create an inter-probe product as well as detecting the inter-probe product and reporting a structural variant of the genome in the nucleic acid.

Abstract: The invention generally relates to devices and systems for individually barcoding sample vessels. In certain embodiments, the devices comprise an attachment member and an extension member, where the extension member can accommodate an identifier, such as a barcode. When loaded into a substrate, the barcoded vials are scanned by a barcode reader.

Abstract: The invention generally relates to methods for analyzing nucleic acids to identify novel mutations associated with diseases. In certain embodiments, methods of the invention involve obtaining nucleic acid from a subject having a disease, identifying at least one mutation in the nucleic acid, and comparing the mutation to a database of mutations known to be associated with the disease, wherein mutations that do not match to the database are identified as novel mutations.

Abstract: The invention relates to carrier screening and methods for describing a structural variant, such as a large rearrangement or chromosomal abnormality, in a person's genome using probes that are designed to determine the person's genetic sequence and reveal substitution mutations and small structural variants. Identifying a structural variant may include exposing a nucleic acid to a plurality of probes. Each probe has a linked pair of targeting arms designed to hybridize upstream and downstream of a target in a genome. The method includes hybridizing two of the probes to the nucleic acid and attaching the two probes together to create an inter-probe product as well as detecting the inter-probe product and reporting a structural variant of the genome in the nucleic acid.

Abstract: The invention generally relates to devices and systems for individually barcoding sample vessels. In certain embodiments, the devices comprise an attachment member and an extension member, where the extension member can accommodate an identifier, such as a barcode. When loaded into a substrate, the barcoded vials are scanned by a barcode reader.

Abstract: The invention generally relates to methods for analyzing nucleic acids to identify novel mutations associated with diseases. In certain embodiments, methods of the invention involve obtaining nucleic acid from a subject having a disease, identifying at least one mutation in the nucleic acid, and comparing the mutation to a database of mutations known to be associated with the disease, wherein mutations that do not match to the database are identified as novel mutations.

Abstract: The invention generally relates to methods for analyzing nucleic acids. In certain aspects, methods of the invention involve obtaining a sample including a nucleic acid template. A plurality of molecular inversion probes are tiled across a portion of the template. The probes are designed such that immediately adjacent probes hybridize to opposite strands of the nucleic acid template and probes on the same strand hybridize to the template in an overlapping manner. A region between targeting arms of a plurality of the molecular inversion probes is filled-in with nucleotides, and the filled-in region of a plurality of the probes is analyzed to obtain sequence information about the nucleic acid template.

Abstract: The invention generally relates to methods for analyzing nucleic acids. In certain aspects, methods of the invention involve obtaining a sample including a nucleic acid template. A plurality of molecular inversion probes are tiled across a portion of the template. The probes are designed such that immediately adjacent probes hybridize to opposite strands of the nucleic acid template and probes on the same strand hybridize to the template in an overlapping manner. A region between targeting arms of a plurality of the molecular inversion probes is filled-in with nucleotides, and the filled-in region of a plurality of the probes is analyzed to obtain sequence information about the nucleic acid template.

Abstract: The invention generally relates to a method for determining carrier or disease status with respect to a particular disease or condition. In certain embodiments, methods of the invention involve obtaining a sample including nucleic acid from a subject. The nucleic acid includes a genomic locus that is diagnostic for an autosomal recessive disease. The nucleic acid is captured and isolated from the sample and further sequenced. The method further includes analyzing sequence reads to determine a copy number of the captured nucleic acid and further determine a disease status based upon the copy number.

Abstract: The invention generally relates to devices and systems for individually barcoding sample vessels. In certain embodiments, the devices comprise an attachment member and an extension member, where the extension member can accommodate an identifier, such as a barcode. When loaded into a substrate, the barcoded vials are scanned by a barcode reader.