The invention provides methods of using low coverage sequencing to assess the relative fraction of tumor versus normal DNA in a sample, and to assess copy number alterations present in the sample.

The invention provides methods of using low coverage sequencing to assess the relative fraction of tumor versus normal DNA in a sample, and to assess copy number alterations present in the sample.

Peptide-major histocompatibility (MHC) Class II nucleic acids and proteins are provided. Methods of their use, for example in methods of identifying antigen-specific T cells and adoptive cell therapy, are also provided.

Peptide-major histocompatibility (MHC) Class II nucleic acids and proteins are provided. Methods of their use, for example in methods of identifying antigen-specific T cells and adoptive cell therapy, are also provided.

The disclosure relates to compositions, methods, and processes for the preparation, use, and/or formulation of adeno-associated virus capsid proteins, wherein the capsid proteins comprise targeting peptide inserts for enhanced tropism to a target tissue.

The disclosure describes methods that include providing a first nucleic acid having a sequence encoding a first set comprising one or more transcription activator-like effector (TALE) repeat domains and/or one or more portions of one or more TALE repeat domains; contacting the first nucleic acid with a first enzyme, wherein the first enzyme creates a first ligatable end; providing a second nucleic acid having a sequence encoding a second set comprising one or more TALE repeat domains and/or one or more portions of one or more TALE repeat domains; contacting the second nucleic acid with a second enzyme, wherein the second enzyme creates a second ligatable end, and wherein the first and second ligatable ends are compatible; and ligating the first and second nucleic acids through the first and second ligatable ends to produce a first ligated nucleic acid, wherein the first ligated nucleic acid is linked to a solid support, and wherein the first ligated nucleic acid encodes a polypeptide comprising said first and second sets.

The disclosure describes methods that include providing a first nucleic acid having a sequence encoding a first set comprising one or more transcription activator-like effector (TALE) repeat domains and/or one or more portions of one or more TALE repeat domains; contacting the first nucleic acid with a first enzyme, wherein the first enzyme creates a first ligatable end; providing a second nucleic acid having a sequence encoding a second set comprising one or more TALE repeat domains and/or one or more portions of one or more TALE repeat domains; contacting the second nucleic acid with a second enzyme, wherein the second enzyme creates a second ligatable end, and wherein the first and second ligatable ends are compatible; and ligating the first and second nucleic acids through the first and second ligatable ends to produce a first ligated nucleic acid, wherein the first ligated nucleic acid is linked to a solid support, and wherein the first ligated nucleic acid encodes a polypeptide comprising said first and second sets.

The disclosure relates generally to the field of T-cell receptors or T-cell receptor mimics, and methods for obtaining novel T-cell receptors or novel T-cell receptor mimics. The compositions and methods described identify pairs of T-cell receptors and antigens. The compositions and methods allow high throughput analysis so that many antigens can be paired with a large repertoire of T-cell receptors.

The present invention concerns a novel method for the modification and/or custom-made design of artificial non-ribosomal peptide synthetases (NRPSs) from naturally available NRPSs. The artificial NRPSs are of predetermined length and amino acid composition and sequence. Via fusion of well-defined NRPS units (so-called “exchange units”) in a certain manner, using a specific sequence motif in the linker areas it is possible to construct artificial and/or modified NRPS assembly lines, which have the ability of synthesizing peptides of a desired structure.

The present invention concerns a novel method for the modification and/or custom-made design of artificial non-ribosomal peptide synthetases (NRPSs) from naturally available NRPSs. The artificial NRPSs are of predetermined length and amino acid composition and sequence. Via fusion of well-defined NRPS units (so-called “exchange units”) in a certain manner, using a specific sequence motif in the linker areas it is possible to construct artificial and/or modified NRPS assembly lines, which have the ability of synthesizing peptides of a desired structure.