The present invention relates to a new cocktail of bacteriophages with specific lytic activity against Salmonella enteritidis, Salmonella typhimurium and Salmonella paratyphi B., for reducing, eliminating and/or preventing them in farm animals and animals from the poultry sector, such as poultry, hens and breeding hens, in addition to eggs. It may be administered as an additive in the feed, in water or by spray. Moreover, the cocktail may be used as a disinfectant in work areas of farms and abattoirs, and in processed foods, without affecting the organoleptic properties of the product.

An object of the present invention is to provide a recombinant phage having high safety and excellent practicality and usefulness. Provided are a recombinant bacteriophage which is deprived of its proliferative capacity and can infect only once due to the fact that a bacteriophage genome in which a part of a virion constituent gene is deleted is stored in a head, and a method for preparing the same. In addition, provided are a recombinant bacteriophage which is deprived of its proliferative capacity and can infect only once due to the fact that a plasmid having a packaging site and encoding a target gene is stored in a head, and a method for preparing the same.

A composition comprising at least two different strains of isolated bacteriophages, each capable of infecting a bacteria of the species Klebsiella pneumoniae, wherein at least one of said at least two different strains of isolated bacteriophages has a genomic nucleic acid sequence at least 90% identical to one of the nucleic acid sequence as set forth in SEQ ID NOs: 1-30. Uses thereof are also disclosed.

Aggregation-induced emission-bacteriophage bioconjugate including a bacteriophage covalently bonded to at least one aggregation-induced emission luminogen via an optional linker, pharmaceutical compositions including the same, and methods of preparation and use thereof.

Described are compositions, methods, systems, and kits related to related to synthetic phages with a customized host range. Customized host range of the synthetic phage is imparted on the synthetic phage by one or more recombinant tail-spike proteins. For example, a recombinant tail-spike protein may include a combination of the N-terminal region and the C-terminal region is engineered in a laboratory.

A method of recovering viable phage from, for example, a crude phage preparation such as a lysate resulting from amplification of phage in bacterial cell culture is disclosed. The method may be universal; that is, applicable to the purification of a broad range of phage species and strains. The phage product resulting from the method may have an acceptably low endotoxin titer (e.g. less than 500 EU/ml) and sufficiently high phage titer (e.g. >1?10.sup.9 PFU/ml) for use in therapeutic applications.

The present invention relates to a new cocktail of bacteriophages with specific lytic activity against Salmonella enteritidis, Salmonella typhimurium and Salmonella paratyphi B., for reducing, eliminating and/or preventing them in farm animals and animals from the poultry sector, such as poultry, hens and breeding hens, in addition to eggs. It may be administered as an additive in the feed, in water or by spray. Moreover, the cocktail may be used as a disinfectant in work areas of farms and abattoirs, and in processed foods, without affecting the organoleptic properties of the product.

Recombinantly-modified Cutibacterium acnes-specific bacteriophage, and recombinantly modified bacteriophage-derived endolysin enzyme are provided. Such compositions, alone or in combination with other antimicrobial agents or immunomodulators, may be used in pharmaceutical compositions, particularly pharmaceutical compositions to treat acne, promote wound healing, inhibit the growth of biofilms and to decrease the likelihood of, prevent or treat surgical related infections. The present invention is particularly directed to such formulations that are compounded for topical administration to a subject or used for application to medical devices. In particular, such pharmaceutical compositions may be compounded for topical administration to a subject, or compounded for application to a medical device.

A method of recovering viable phage from, for example, a crude phage preparation such as a lysate resulting from amplification of phage in bacterial cell culture is disclosed. The method may be universal; that is, applicable to the purification of a broad range of phage species and strains. The phage product resulting from the method may have an acceptably low endotoxin titer (e.g. less than 500 EU/ml) and sufficiently high phage titer (e.g. >1?10.sup.9 PFU/ml) for use in therapeutic applications.

Provided herein are bacteriophages engineered to express an exopolysaccharide (EPS) depolymerase for treating bacterial infections. In some embodiments, the EPS depolymerase comprises alginate lyase. Also envisioned within the scope of the invention are compositions comprising one or more of the bacteriophages, methods for treating bacterial infections, and kits comprising the compositions described herein.