The invention relates to vectors and methods for de-repressing Cas systems in host cells.

The invention relates to methods, uses, systems, arrays, engineered nucleotide sequences and vectors for inhibiting bacterial population growth or for altering the relative ratio of sub-populations of first and second bacteria in a mixed population of bacteria. The invention is particularly useful, for example, for treatment of microbes such as for environmental, medical, food and beverage use. The invention relates inter alia to methods of controlling microbiologically influenced corrosion (MIC) or biofouling of a substrate or fluid in an industrial or domestic system.

The present invention relates to bacteriophage therapy. More particularly, the present invention relates to novel bacteriophages having a high specificity against Escherichia coli strains, their manufacture, components thereof, compositions comprising the same and the uses thereof in phage therapy.

Bacteriophage covalently attached to a carrier particle with an average diameter of from 0.1 microns to 15 microns, are used in topical treatment of bacterial infection. Bacteriophage covalently attached to a carrier particle of average diameter 7 microns or less are used in systemic treatment of bacterial infection. A plurality of bacteriophages lytic against different bacterial strains gives wide antibacterial activity. A combination therapy comprises administration of antibiotic and bacteriophage covalently attached to a carrier particle.

In alternative embodiments, provided are compositions, products of manufacture and methods for treating, ameliorating and preventing infections, disorders and conditions in animals including: delivering a (i) bacteriophage (ii) prophage, the phagemid or phage-like particle, (iii) general transducing agent (GTA), or small, tailed bacteriophage-like particle, (iv) Metamorphosis Associated Contractile structure (MACs) or (v) phage-derived product into a tissue, or the blood stream or lymphatic system of the animal, e.g., the mammal; or delivering to a tissue or organ of the animal; or treating a bacterial or viral infection in the animal; generating an immune response in the animal; or treating a disease or condition in an individual in need thereof; or delivering a payload or a composition, e.g., in vivo, to the animal, or labelling, tagging or coating a cell in vivo in the animal.

Compositions and methods are provided for preventing, ameliorating, or treating a disease caused by a species of bacterial genus Vibrio, for example, cholera caused by V. cholerae, the compositions containing two or more strains of lytic bacteriophage that infect and kill Vibrio cells. The bacteriophage are virulent, which replicate intracellularly and lyse and kill the bacteria. Use of two or more strains in a single treatment, as a result of a rate of mutation of the bacteria to simultaneous resistance to all of the bacteriophage to be so low as to be negligible, reduces appearance of phage-resistant bacteria to statistical negligibility. Normal human microbial flora species were not affected. In alternative embodiments of the method and the composition, antibiotic agents or other treatment agents can be administered with a cocktail of the plurality of bacteriophage strains.

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.

The present invention provides a virulent Pseudomonas fluorescens (P. fluorescens) phage Pf1901, and a phage Pf1901 preparation and an application thereof, and relates to the technical field of phage. The virulent P. fluorescens phage Pf1901 has an accession number of CCTCC M2019447. The virulent phage Pf1901 has a titer of (1.43)10.sup.10 PFU/mL. The virulent phage Pf1901 has an optimal multiplicity of infection (MOI) value of 0.0001. The virulent P. fluorescens phage Pf1901 provided by the present invention exhibits very high specificity and lytic ability to P. fluorescens, which can be used to control P. fluorescens, with strong lytic and scavenging effects on a host.

The present invention relates to bacteriophage therapy. More particularly, the present invention relates to novel bacteriophages having a high specificity against Pseudomonas aeruginosa strains, their manufacture, components thereof, compositions comprising the same and the uses thereof in phage therapy.

The present invention provides new bacteriophages, their selection, compositions, cocktails and formulations thereof, and their administration for the prevention of opportunistic infections in livestock, such as Avian Pathogenic E. Coli (APEC) infections in poultry.