The disclosure is related to compositions comprising a cell and a spherical nucleic acid (SNA) comprising a nanoparticle, an oligonucleotide on the surface of the nanoparticle, and an antigen; and to methods for production of such compositions and their applications, including but not limited to adoptive cell therapy.

The disclosure is related to compositions comprising a cell and a spherical nucleic acid (SNA) comprising a nanoparticle, an oligonucleotide on the surface of the nanoparticle, and an antigen; and to methods for production of such compositions and their applications, including but not limited to adoptive cell therapy.

The disclosure is related to compositions comprising a cell and a spherical nucleic acid (SNA) comprising a nanoparticle, an oligonucleotide on the surface of the nanoparticle, and an antigen; and to methods for production of such compositions and their applications, including but not limited to adoptive cell therapy.

According to various embodiments, a system and method for characterizing protein and nucleic acid content of a plurality of individual particles. The method includes encapsulating individual particles into compartments also containing analyte specific binding complements with oligonucleotide tags comprising a unique molecular identifier sequence, a sequence to identify the analyte specific binding complement, and a homology domain sequence. Allowing the oligonucleotide tags to hybridize on homology domain to form initial tag pairs, amplifying the tag pairs, using an enzyme to cut at the homology domain, allowing tags to re-hybridize, pooling the compartments, and sequencing. Finally, predicting co-encapsulated analytes by computational identification of clusters based on more frequently found oligonucleotide tag pairs.

Methods for extracting high quality nucleic acids from a heterogenous collection of nucleic acid-containing materials from a biological sample are disclosed. The heterogenous collection of nucleic-acid containing materials may contain cells or microvesicles, or both. The extractions obtained by the methods described herein are characterized by high yield and high integrity, making the extracted nucleic acids useful for various applications in which high quality nucleic acid extractions are preferred, e.g., a diagnosis, prognosis, or therapy evaluation for a medical condition.

Methods for extracting high quality nucleic acids from a heterogenous collection of nucleic acid-containing materials from a biological sample are disclosed. The heterogenous collection of nucleic-acid containing materials may contain cells or microvesicles, or both. The extractions obtained by the methods described herein are characterized by high yield and high integrity, making the extracted nucleic acids useful for various applications in which high quality nucleic acid extractions are preferred, e.g., a diagnosis, prognosis, or therapy evaluation for a medical condition.

According to various embodiments, a system and method for characterizing protein and nucleic acid content of a plurality of individual particles. The method includes encapsulating individual particles into compartments also containing analyte specific binding complements with oligonucleotide tags comprising a unique molecular identifier sequence, a sequence to identify the analyte specific binding complement, and a homology domain sequence. Allowing the oligonucleotide tags to hybridize on homology domain to form initial tag pairs, amplifying the tag pairs, using an enzyme to cut at the homology domain, allowing tags to re-hybridize, pooling the compartments, and sequencing. Finally, predicting co-encapsulated analytes by computational identification of clusters based on more frequently found oligonucleotide tag pairs.

A method for tagging items comprising applying a plurality of non-coding DNA tags, wherein the selection of the particular taggants corresponds with a binary or nonbinary code sequence containing information about the tagged items.

A method for tagging items comprising applying a plurality of non-coding DNA tags, wherein the selection of the particular taggants corresponds with a binary or nonbinary code sequence containing information about the tagged items.

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