Methods and compositions are provided for activating transcription in a mammalian cell.

The present invention relates to vectors and compositions for the treatment of glycogen storage disease III.

Provided herein, in some embodiments, are nucleic acid constructs encoding RNA molecules comprising one or more introns that can be regulated (e.g., autoregulated), and that are useful for delivery in a recombinant viral vector. Aspects of the application provide compositions and methods for delivering regulated (e.g., auto-regulated) gem expression constructs to a subject.

Provided herein are Class 2 Type V CRISPR:gNA systems comprising Class 2 Type V CRISPR polypeptides (e.g. CasX), guide nucleic acids (gNA), and optionally donor template nucleic acids useful in the modification of a RHO gene. The systems are also useful for introduction into cells, for example eukaryotic cells having mutations in the rhodopsin protein. Also provided are methods of using such systems to modify cells having such mutations and utility in methods of treatment of a subject with a RHO-related disease, such as retinitis pigmentosa.

This disclosure relates to mRNA therapy for the treatment of Crigler-Najjar Syndrome Type 1 (CN-1). mRNAs for use in the invention, when administered in vivo, encode uridine diphosphate glycosyltransferase 1 family, polypeptide A1 (UGT1A1). mRNA therapies of the disclosure increase and/or restore deficient levels of UGT1A1 expression and/or activity in subjects. mRNA therapies of the disclosure further decrease abnormal accumulation of bilirubin associated with deficient UGT1A1 activity in subjects.

The invention provides compositions and methods useful for the treatment and prevention of conditions associated with short telomere length.

Provided herein, in some embodiments, are materials and methods for treating hemophilia A in a subject ex vivo or in vivo. Also provided herein, in some embodiments, are materials and methods for knocking in a coding sequence encoding a synthetic FVIII having a B domain substitute into a genome.

An expression vector containing appropriate mitochondrion-targeting sequences (MTS) and appropriate 3′UTR sequences provides efficient and stable delivery of a mRNA encoding a protein (CDS) to the mitochondrion of a mammalian cell. The MTS and 3′UTR sequences guide the CDS mRNA from the nuclear compartment of the cell to mitochondrion-bound polysomes, where the CDS is translated. This provides an efficient translocation of a mature functional protein into the mitochondria. A method of targeting mRNA expressed in the nuclear compartment of a mammalian cell to the mitochondrion is also provided. The vector and methods can be used to treat defects in mitochondrial function.

The present invention is related to compositions and methods for gene therapy. Several approaches described herein utilize the Neisseria meningitidis Cas9 system that provides a hyperaccurate CRISPR gene editing platform. Furthermore, the invention incorporates full length and truncated single guide RNA sequences that permit a complete sgRNA-Nme1Cas9 vector to be inserted into an adeno-associated viral plasmid that is compatible for in vivo administration. Furthermore, Type II-C Cas9 orthologs have been identified that target protospacer adjacent motif sequences limited to between one-four required nucleotides.

The present invention relates to synthetic retinal ON-bipolar cell-specific promoter sequences and their use in therapeutic transgene delivery to the eye for the improvement and/or restoration of vision. The invention features metabotropic glutamate receptor 6 (mGluR6) promoters for an increased and more specific expression in ON-bipolar cells, in particular in cone ON-bipolar cells of the human macula.