Abstract: Described herein are various inventions and embodiments thereof, directed to systems, devices, and methods for separating a sample. Embodiments of sample collection devices disclosed herein may maintain separation of different volumes of sample during collecting, handling, and accessing of the sample. A sample collection device, in some embodiments, may comprise an enclosure defining a first chamber, a second chamber, and a partition therebetween configured to separate the first chamber and the second chamber. An assembly coupled to the partition may be configured to transition between an open configuration and a closed configuration based on fluid and gas flow through the assembly.

Abstract: The invention provides novel methods and kits for isolating nucleic acids from biological samples, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, and for extracting nucleic acids from the microvesicles and/or from the biological samples.

Abstract: The present disclosure provides compositions, methods and kits for internal controls of microvesicle isolations. The compositions, methods and kits can comprise enveloped viruses, including, but not limited to, inactive mouse hepatitis virus (MHV).

Abstract: The invention provides novel methods and kits for fully automated high-throughput method for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, novel methods and kits for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles that do not require the use of phenol or chloroform, and for extracting nucleic acids from the extracellular vesicles and/or from the biological samples.

Abstract: The invention provides novel methods for isolating microvesicles from a biological sample and for extracting nucleic acids from the microvesicles.

Abstract: The invention provides novel methods and kits for fully automated high-throughput method for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, novel methods and kits for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles that do not require the use of phenol or chloroform, and for extracting nucleic acids from the extracellular vesicles and/or from the biological samples.

Abstract: The invention provides a series of steps to distinguish RNA from DNA in assays downstream of a combined isolation. This enables a wide diversity of RNAs and/or DNAs, to be efficiently detected.

Abstract: The invention provides novel methods and kits for isolating nucleic acids from biological samples, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, and for extracting nucleic acids from the microvesicles and/or from the biological samples.

Abstract: The invention provides novel methods and kits for isolating nucleic acids from biological samples, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, and for extracting nucleic acids from the microvesicles and/or from the biological samples.

Abstract: The invention provides novel methods and kits for fully automated high-throughput method for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, novel methods and kits for isolation of extracellular vesicles and co-isolation of cell-free DNA from biofluids, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles that do not require the use of phenol or chloroform, and for extracting nucleic acids from the extracellular vesicles and/or from the biological samples.

Abstract: The present invention relates to compositions that include one or more control molecules known as artificial reference sequences and methods of using these control molecules for estimating rare nucleic acid sequence variants from low copy numbers in ultra-deep sequencing.

Abstract: The invention provides novel methods and kits for isolating nucleic acids from biological samples, including cell-free DNA and/or cell-free DNA and nucleic acids including at least RNA from microvesicles, and for extracting nucleic acids from the microvesicles and/or from the biological samples.

Abstract: The invention provides novel methods for isolating microvesicles from a biological sample and for extracting nucleic acids from the microvesicles.