The present invention relates to a recombinant adeno-associated viral (r AAV) vector comprising neuropeptide Y (NPY) coding sequence and neuropeptide Y2 receptor (NPY2R) coding sequence. The invention further relates to a AAV particle comprising said vector, wherein the vector is encapsulated by adeno-associated virus (AAV) capsid proteins. Also, a pharmaceutical composition comprising said AAV particle, for use in the prevention or treatment of a neurological disorder in mammals, such as epilepsy.

The present disclosure provides vectors that allow efficient expression of transgenes. The vector of the present disclosure may be used to express proteins or peptides of interest into a host's cells and to trigger an immune response towards an antigenic portion of the proteins or peptides in a mammal. The vectors may be used for experimental research, for pre-clinical or clinical application. The vectors disclosed herein induce both cell-mediated and humoral immune responses and may be used in DNA vaccination.

The invention provides nucleic acids encoding acid a-glucosidase (GAA). In certain embodiments, nucleic acids have greater than about 86% sequence identity to a sequence selected from the group consisting of any of the sequences set forth as SEQ ID NOs:1-5. In certain embodiments, nucleic acids encoding acid a-glucosidase (GAA) contain less than 127 CpG dinucleotides. Expression cassettes, vectors, cells and cell lines and methods of using such nucleic acids encoding acid a-glucosidase (GAA) are also provided.

The present disclosure provides instruments, modules and methods for improved detection of edited cells following nucleic acid-guided nuclease genome editing. The disclosure provides improved automated instruments that perform methods—including high throughput methods—for screening cells that have been subjected to editing and identifying cells that have been properly edited.

A new promoter comprising: (i) an hCMV enhancer sequence; (ii) an hCMV promoter sequence; (iii) a splice donor region; (iv) a cell-derived enhancer sequence; and (v) a splice acceptor region.

Recombinant expression vectors are disclosed that include a control sequence for recombinant expression of proteins of interest; the control sequence combines a mCMV enhancer sequence with a rat EF-1alpha intron sequence. Some of the vectors are useful for tetracycline-inducible expression. Some of the vectors contain a 5′ PiggyBac ITR and a 3′ PiggyBac ITR to promote genomic integration into a host cell chromosome. A method of selecting a stable production cell line for manufacturing a protein of interest is also disclosed. Also disclosed are mammalian host cells comprising the inventive recombinant expression vectors and a method of producing a protein of interest, in vitro, involving the mammalian host cell.

The present disclosure provides instruments, modules and methods for improved detection of edited cells following nucleic acid-guided nuclease genome editing. The disclosure provides improved automated instruments that perform methods—including high throughput methods—for screening cells that have been subjected to editing and identifying cells that have been properly edited.

Disclosed are systems and methods that include and utilize engineered riboregulated switchable feedback promoters (rSFPs). The disclosed systems and methods include and utilize as a component one or more expression cassettes. At least one expression cassette of the disclosed systems and methods comprises a promoter operably linked to DNA encoding an RNA switch located 3′ of the promoter and a target gene or operon located 3′ of the DNA encoding the RNA switch, where the RNA switch regulates expression of the target gene. Suitable promoters may include stress responsive promoters. The disclosed systems and methods may include and utilize a second expression cassette that includes an inducible promoter for expressing an RNA effector of the RNA switch in the first expression cassette.

The present disclosure provides an adeno-associated viral (AAV) vector system for expressing a human ABCA4 protein in a target cell, the AAV vector system comprising a first AAV vector comprising a first nucleic acid sequence and a second AAV vector comprising a second nucleic acid sequence; wherein the first nucleic acid sequence comprises a 5′ end portion of an ABCA4 coding sequence (CDS) and the second nucleic acid sequence comprises a 3′ end portion of an ABCA4 CDS, and the 5′ end portion and the 3′ end portion together encompass the entire ABCA4 CDS; wherein the first nucleic acid sequence comprises a sequence of contiguous nucleotides corresponding to nucleotides 105 to 3597 of SEQ ID NO: 1; wherein the second nucleic acid sequence comprises a sequence of contiguous nucleotides corresponding to nucleotides 3806 to 6926 of SEQ ID NO: 1; wherein the first nucleic acid sequence and the second nucleic acid sequence each comprise a region of sequence overlap with the other; and wherein the region of sequence overlap comprises at least about 20 contiguous nucleotides of a nucleic acid sequence corresponding to nucleotides 3598 to 3805 of SEQ ID NO: 1. Also provided are uses of AAV vector systems in the prevention or treatment of disease.

The present disclosure provides instruments, modules and methods for improved detection of edited cells following nucleic acid-guided nuclease genome editing. The disclosure provides improved automated instruments that perform methods—including high throughput methods—for screening cells that have been subjected to editing and identifying cells that have been properly edited.