Modified bacteriophage and compositions containing the modified bacteriophage are described. Exemplary compositions are useful for human treatment and may treat various conditions, including bacterial infections.

Modified bacteriophage, uses thereof, and compositions containing the modified bacteriophage are described. The compositions are useful for human treatment and may treat various conditions, including bacterial infections.

Provided herein, in some aspects are high efficiency gene editing methods in bacterial cells using single-stranded annealing proteins and/or single-stranded binding proteins.

A method of inhibiting growth of a bacterium including steps of: a) delivering a polynucleotide including a sequence of SEQ ID NO: 1 or a homologue thereof to the bacterium, and b) contacting the bacterium with an effective amount of an antibiotic; wherein the bacterium is Pseudomonas aeruginosa. A method of treating a subject suffering from an infection caused by a bacterium which is Pseudomonas aeruginosa and the method including steps of: i) delivering said polynucleotide to a tissue infected by the bacterium or a bacterial cell in the subject; and ii) administering an effective amount of an antibiotic to the subject. A composition and a recombinant plasmid containing said polynucleotide.

The present invention concerns a production bacterial cell for producing lytic phage particles or lytic phage-derived delivery vehicles, said production bacterial cell stably comprising at least one phage structural genes and at least one phage DNA packaging genes, said phage structural gene(s) and phage DNA packaging gene(s) being derived from a lytic bacteriophage, wherein the expression of at least one of said phage structural genes and/or at least one of said phage DNA packaging gene(s) in said production bacterial cell is controlled by an induction mechanism.

Modified bacteriophage, uses thereof, and compositions containing the modified bacteriophage are described. The compositions are useful for human treatment and may treat various conditions, including bacterial infections.

The invention provides hybrid and recombinant phagemid vectors for expressing a transgene in a target cell transduced with the vector. A recombinant phagemid particle comprises at least one transgene expression cassette which encodes an agent which exerts a biological effect on the target cell, characterised in that the phagemid particle comprises a genome which lacks at least 50% of its bacteriophage genome. The invention extends to the use of such phagemid expression systems as a research tool, and for the delivery of transgenes in a variety of gene therapy applications, DNA and/or peptide vaccine delivery and imaging techniques. The invention extends to in vitro, in vivo or in situ methods for producing viral vectors, such as recombinant adeno-associated viruses (rAAV) or lentivirus vectors (rLV), and to genetic constructs used in such methods.

A modified bacteriophage capable of infecting a plurality of different target bacteria, which bacteriophage includes a toxin gene encoding a toxin protein which is toxic to the target bacteria; wherein the bacteriophage is lytic; and wherein the bacteriophage expresses host range determinant proteins which have a plurality of bacterial host specificities.

Provided herein are methods and compositions for killing a target bacterium. Also disclosed are engineered bacteriophages.

The present invention is directed to methods for generating one or more genetically modified cells by using a circular single stranded DNA (CiSSD) as a donor template and targeting genome modification. These methods include transferring one or more DNA polynucleotides into the cell for site-specific nuclease-mediated DNA repair and selecting one or more cells having the transferred DNA incorporated into the cell's genome.