The invention relates to novel variants and mutants of HK022 bacteriophage integrase (HK-Int), systems, kits, compositions, methods and uses thereof for gene therapy using site-specific recombination. More specifically, the invention further provides donor cassettes comprising replacement sequences for targeted replacement of target nucleic acid sequences using the HK-Int variants of the invention.

Methods, systems, compositions and strategies for the delivery of RNA into cells in vivo, ex vivo, or in vitro via ARMMs are provided. In some aspects, ARMMs containing fusion proteins of ARRDC1 fused to an RNA binding protein or an RNA binding protein fused to a WW domain are provided. In some aspects, ARMMs containing binding RNAs associated with cargo RNAs are provided. In other aspects, cargo RNAs associated with a binding RNA, such as a TAR element, are loaded into ARMMs via ARRDC1 fusion proteins containing an RNA binding protein, such as trans-activator of transcription (Tat) protein.

Methods and compositions are provided for the use of anti-CRISPR (ACR) proteins in plants, including modulation of Cas endonuclease activity, improvement of frequency of homologous recombination, control of Cas endonuclease activity during various cell cycles, spatial and/or temporal regulation of Cas endonuclease activity in plants, usage in gene activation or repression, as well as reduction of off-target polynucleotide cleavage.

The present disclosure is directed to materials and methods for reducing heterologous DNA damage in bacteria (i.e., induce resistance to host restriction enzymes) by modifying the heterologous DNA to include one or more deazapurine bases.

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 disclosure provides a chimeric receptor binding protein (RBP) resistant to proteolytic digestion wherein said RBP comprises a portion of a receptor binding protein derived from a bacteriophage fused through a designed linker region consisting of 1 to 70 amino acids, to a portion of a receptor binding protein derived from a different bacteriophage, wherein said linker region is designed to be resistant to proteolytic digestion.

Provided herein, in some embodiments, are artificial ribosomes that synthesize nonribosomal peptides, polyketides, and fatty acids with full control over peptide sequence. Also provided herein are methods for programmed synthesis of nonribosomal peptides, polyketides, and fatty acids. In particular, provided herein are methods for scalable synthesis of a wide range of antibacterial, antifungal, antiviral, and anticancer compounds.

The present invention relates to a bacteriophage-derived recombinant protein having antimicrobial activity against gram-negative bacteria, and the bacteriophage-derived recombinant protein LysSS exhibits killing activity to gram-negative bacteria and thus can prevent or treat infectious diseases caused by bacteria, and can be widely used in antibiotics, disinfectants, food additives, feed additives, and the like, wherein the LysSS uses peptidoglycan, which is a component of the cell wall of bacteria, as a substrate, and exhibits bacterial killing ability due to peptidoglycan degradation and the peptidoglycan exists only in bacteria and not in humans or animals.

The present description relates to chimeric bacteriophage lysins useful for the identification and/or reduction of staphylococcal populations. For example, a chimeric bacteriophage lysin was engineered and shown to effectively kill all strains of staphylococci tested including antibiotic resistant methicillin-resistant S. Aureus and VISA.

The present disclosure relates generally to bacterial delivery vehicles for use in efficient transfer of a desired payload into a target bacterial cell. More specifically, the present disclosure relates to bacterial delivery vehicles with desired host ranges based on the presence of a chimeric receptor binding protein (RBP) composed of a fusion between the N-terminal region of a RBP derived from a lambda-like bacteriophage and the C-terminal region of a different RBP.