The present invention provides agents and compositions for modulating expression (e.g., enhanced or reduced expression) of a forkhead box P3 (FOXP3) gene by targeting a FOXP3 expression control region and methods of use thereof for treating a FOXP3 associated disorder, such as an autoimmune disease, e.g., IPEX syndrome.

Disclosed are adeno-associated virus (AAV) vectors comprising a nucleotide sequence encoding RP2 or RPGR-ORF15 and related pharmaceutical compositions. Also disclosed are methods of treating or preventing X-linked retinitis pigmentosa, increasing photoreceptor number in a retina of a mammal, and increasing visual acuity of a mammal using the vectors and pharmaceutical compositions.

Disclosed herein are contiguous DNA sequences encoding highly compact multi-input genetic logic gates for precise in vivo cell targeting, and methods of treating disease using a combination of in vivo delivery and such contiguous DNA sequences.

Provided herein are genetically engineered gas vesicle expression systems (GVES) that are configured to express gas vesicles (GVs) in a mammalian cell, related gas vesicle polynucleotide constructs, gas vesicle reporting genetic circuits, vectors, genetically engineered mammalian cells, non-human mammalian hosts, compositions, methods and systems, which in several embodiments can be used together with contrast-enhanced imaging techniques to detect and report biological events in an imaging target site comprising a mammalian cell and/or organism.

Provided is a light-switchable gene expression system, comprising: a) a recombinant light-switchable transcription factor-encoding gene, said recombinant light-switchable transcription factor comprising a first polypeptide as the DNA bonding domain, a second polypeptide as the photosensitive domain, and a third polypeptide as the transcription regulatory domain; b) a target transcription unit comprising at least one reaction element recognized and bound by the first polypeptide, a promoter regulated by the third polypeptide and a nucleotide sequence to be transcribed. Also provided is an eukaryotic expression vector comprising said light-switchable gene expression system, and a method for regulating gene expression in a host cell by using the light-switchable gene expression system. Also provided is a reagent kit containing different elements of the light-switchable gene expression system. The light-switchable gene expression system has a quick, effective and powerful induction with little or no toxicity. It is safer than other inducers, and can spatiotemporally control gene expression.

The present disclosure provides a nucleic acid sequence for regulating the transcription of a nucleic acid fragment of interest, wherein the nucleic acid sequence comprises at least 2 copies of TetO-operator sequences capable of binding to a transactivator rtTA regulatable by tetracycline or a derivative thereof, and 1 copy of minimal promoter sequence containing a TATA box sequence, and at least 1 copy of a CuO-operator sequence capable of binding to a transcription repressor CymR regulatable by cumate. The present disclosure also provides a vector and a host cell containing the nucleic acid sequence, and a method for inducing the expression of a nucleic acid fragment of interest in a host cell.

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.

Expression vectors ideal for use in vaccinating individuals against disease based on vaccinia virus and other chordopoxviruses having high expression of recombinant genes and low expression of vector genes in target animals, and low expression of recombinant genes and high expression of vector genes in cells used for propagation.

A conditional rescue system generally includes a gene transfer system, a polynucleotide including a nuclease-resistant target coding region, and a coding region encoding a conditionally-lethal polypeptide. The gene transfer system is effective to integrate into host cell DNA. The polynucleotide including the nuclease-resistant target coding region is under transcriptional control of an inducible promoter. The coding region encoding a conditionally-lethal polypeptide is transcriptionally linked to the target coding region.

The present invention is directed to a single input multiplex decision expression system, and a method of using same, such as for expressing a reporter protein.