The invention relates to C. acnes strains carrying DNA vectors for the production of recombinant C. acnes phages. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a template for recombination with C. acnes phage genome leading to the insertion of a gene of interest, for the production of recombinant phages that can lead to the transgene expression into C. acnes infected by the recombinant phage. The invention encompasses, C. acnes strains containing these vectors, C. acnes recombinant phages and methods of using these recombinant phages.

The present invention relates to Siphoviridae bacteriophage Vib-ANP-1(accession number KCTC 13075BP) having the ability to specifically kill Vibrio anguillarum bacteria and a genome represented by SEQ ID NO: 1 and isolated from nature, and a method for prevention or treatment of Vibrio anguillarum bacterial infection by using a composition containing the same bacteriophage as an effective ingredient.

The present invention relates to Siphoviridae bacteriophage Ent-FAP-4 (accession number KCTC 12854BP), separated from nature, which is capable of specifically killing Enterococcus faecium and has a genome expressed by sequence number 1, a pharmaceutical composition, which comprises same as an active ingredient, and a method for preventing or treating diseases, induced by Enterococcus faecium, by administering the pharmaceutical composition.

The present disclosure provides compositions and methods for introducing or enhancing Aca activity in prokaryotic cells. The provided compositions and methods can be used to inhibit Acr activity in prokaryotic cells, thereby enhancing endogenous or exogenous CRISPR-Cas activity. Cells, polynucleotides, plasmids, phage, and other elements for practicing the present methods are also provided.

The invention relates to C. acnes carrying DNA vectors with a C. acnes phage packaging signal and a gene of interest. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a C. acnes phage packaging signal and a gene of interest, for the production of phage-derived particles that can robustly transduce C. acnes receiver cell allowing transgene expression. The invention encompasses C. acnes phage-derived particles carrying these vectors, C. acnes containing these vectors or modified by transduction of these phage-derived particles, and methods of using these phage-derived particles.

Methods and compositions are provided for preventing or reducing symptoms or disease associated with Xylella fastidiosa or Xanthomonas axonopodis in a plant. The invention provides novel bacteriophages virulent to Xylella fastidiosa or Xanthomonas axonopodis, including XfaMija and XfaMijo, and further provides methods for treating or preventing Pierce's Disease or Citrus Canker in plants.

The present invention relates to novel bacteriophages that are specific for Acinetobacter baumannii (A. baumannii) and to methods for producing non-replicative transduction particles (NRTPs) derived from these bacteriophages and to the use of the NRTPs for detection of A. baumannii.

The present invention relates to Siphoviridae bacteriophage Lac-GAP-3 (Accession Number KCTC 12816BP) having the ability to specifically kill Lactococcusgarvieae bacteria and a genome represented by SEQ ID NO: 1 and isolated from nature, and a method for prevention and treatment of Lactococcusgarvieae bacterial infection by using a composition containing the same bacteriophage as an effective ingredient.

Engineered bacteriophage and methods of forming the bacteriophage are described. Multivalent bacteriophage are described that can include multiple different exogenous polypeptides that include specific binding agents for proteinaceous targets at a surface of the capsid head. Therapeutic compositions, e.g., antiviral compositions, and methods of forming are described. A therapeutic composition can include an engineered bacteriophage that includes a polypeptide binds a pathogen or binds a cellular receptor of a pathogen at a surface of the bacteriophage. The engineered bacteriophage are free of nucleic acids encoding the exogenous polypeptide(s).

A method of detecting a species, strain or type of bacteria includes mixing a labeled bacteriophage including a label that is detectible via a detection system with a bacterial culture including the species, strain or type of bacteria to which the labeled bacteriophage selectively binds and using the detection system to detect the labeled bacteriophage bound to the species, strain or type of bacteria.