An engineered phage-derived particle (PDP) for expressing a transgene in a target cell transduced with a bacteriophage, the PDP includes (i) less than about 500 bp of DNA from the bacteriophage genome, (ii) an ITR-flanked therapeutic gene up to 20 kb, (iii) an endosomal escape sequence, (iv) a nuclear localization sequence, and (v) a cell-specific targeting moiety. The PDP may escape lysosomal degradation, traffic across the nuclear envelope and expressed a therapeutic gene in a mammalian cell.

An engineered phage-derived particle (PDP) for expressing a transgene in a target cell transduced with a bacteriophage, the PDP includes (i) less than about 500 bp of DNA from the bacteriophage genome, (ii) an ITR-flanked therapeutic gene up to 20 kb, (iii) an endosomal escape sequence, (iv) a nuclear localization sequence, and (v) a cell-specific targeting moiety. The PDP may escape lysosomal degradation, traffic across the nuclear envelope and expressed a therapeutic gene in a mammalian cell.

Provided herein is a recombinant AAV (rAAV) comprising an AAV capsid and a vector genome packaged therein, wherein the vector genome comprises an AAV 5′ inverted terminal repeat (ITR), an engineered nucleic acid sequence encoding a functional hSGSH, a regulatory sequence which direct expression of hSGSH in a target cell, and an AAV 3′ ITR. Also provided is a pharmaceutical composition comprising a rAAV as described herein in a formulation buffer, and a method of treating a human subject diagnosed with MPS IIIA.

Provided herein is a recombinant AAV (rAAV) comprising an AAV capsid and a vector genome packaged therein, wherein the vector genome comprises an AAV 5′ inverted terminal repeat (ITR), an engineered nucleic acid sequence encoding a functional hSGSH, a regulatory sequence which direct expression of hSGSH in a target cell, and an AAV 3′ ITR. Also provided is a pharmaceutical composition comprising a rAAV as described herein in a formulation buffer, and a method of treating a human subject diagnosed with MPS IIIA.

The invention relates to a unit dose of a dengue vaccine composition and methods and uses for preventing dengue disease and methods for stimulating an immune response to all four dengue virus serotypes in a subject or subject population. The unit dose of a dengue vaccine composition includes constructs of each dengue serotype, such as TDV-1, TDV-2, TDV-3 and TDV-4, at various concentrations in order to improve protection from dengue infection.

The invention relates to a unit dose of a dengue vaccine composition and methods and uses for preventing dengue disease and methods for stimulating an immune response to all four dengue virus serotypes in a subject or subject population. The unit dose of a dengue vaccine composition includes constructs of each dengue serotype, such as TDV-1, TDV-2, TDV-3 and TDV-4, at various concentrations in order to improve protection from dengue infection.

A method of treating cancer in a subject in need thereof includes administering in situ to the cancer a therapeutically effective amount of a virus or virus-like particle.

A method of treating cancer in a subject in need thereof includes administering in situ to the cancer a therapeutically effective amount of a virus or virus-like particle.

The present invention relates to a Myoviridae bacteriophage Lac-GAP-1 that is isolated from the nature and can kill specifically Lactococcus garvieae cells, which has a genome represented by the nucleotide sequence of SEQ. ID. NO: 1 (Accession NO: KCTC 12686BP), and a method for preventing and treating the infections of Lactococcus garvieae using the composition comprising said bacteriophage as an active ingredient.

The present invention relates to a Myoviridae bacteriophage Lac-GAP-1 that is isolated from the nature and can kill specifically Lactococcus garvieae cells, which has a genome represented by the nucleotide sequence of SEQ. ID. NO: 1 (Accession NO: KCTC 12686BP), and a method for preventing and treating the infections of Lactococcus garvieae using the composition comprising said bacteriophage as an active ingredient.