Provided is a kit or a system including two elements or components. The first component (i) is a selective component including a nucleic acid sequence and at least one proto-spacer. The second component (ii) includes at least one sensitizing component including at least one cas gene and at least one CRISPR array. At least one spacer of the CRISPR targets a proto-spacer included within a pathogenic gene of a bacterium so as to specifically inactivate said pathogenic gene in said bacterium and wherein at least one spacer of said CRISPR targets a proto-spacer included within said selective component of (i) so as to specifically inactivate said selective component. Further provided is a method using the components or kits of the invention for interference with a horizontal transfer of a pathogenic gene between bacteria and for preventing a pathologic condition in a mammalian subject caused by a bacterial infection.

The invention relates to the methods for modifying the methylation pattern of bacteriophage DNA and phagemid DNA and to methods for selective killing of bacteria using lysogenic bacteriophages comprising bacteriophage DNA or phagemid DNA comprising components of an engineered CRISPR-Cas system.

The present invention relates to the delivery of a payload by bacterial delivery vehicle, i.e. the encapsulation and the delivery of a single plasmid by different bacterial virus particles. More specifically, the present invention concerns a pharmaceutical composition comprising a payload packaged in at least two different bacterial delivery vehicles and a method of production thereof.

The present disclosure relates to a system for and a method of incorporating SARS-CoV-2 genes and proteins into T4 phages. The present disclosure also relates to vaccine against SARS-CoV-2 containing recombinant T4 phages created using the method provided in the present disclosure.

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

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

Disclosed herein are methods and systems for rapid detection of microorganisms such as Listeria spp. in a sample. A genetically modified bacteriophage is also disclosed which comprises an indicator gene in the late gene region. The specificity of the bacteriophage, such as Listeria-specific bacteriophage, allows detection of a specific microorganism, such as Listeria spp. and an indicator signal may be amplified to optimize assay sensitivity.

Described is an “artificial virus” (AV) programmed with biomolecules that can enter human cells and carry out precise human genome modification. The AVs comprise: at least one viral vector, such as bacteriophage T4; at least one therapeutic molecule, such as DNA, RNA, protein and their complex; and a lipid coating. Also described is a method of human genome modification, using such an AV, and a method of program such an AV.

Described is an “artificial virus” (AV) programmed with biomolecules that can enter human cells and carry out precise human genome modification. The AVs comprise: at least one viral vector, such as bacteriophage T4; at least one therapeutic molecule, such as DNA, RNA, protein and their complex; and a lipid coating. Also described is a method of human genome modification, using such an AV, and a method of program such an AV.

The invention related to a kit or a system comprising two elements or components. The first component (i) is a selective component comprising a nucleic acid sequence comprising at least one proto-spacer. The second component (ii) comprises at least one sensitizing component comprising at least one cas gene and at least one CRISPR array. It should be noted that at least one spacer of the CRISPR targets a proto-spacer comprised within a pathogenic gene of a bacterium so as to specifically inactivate said pathogenic gene in said bacterium and wherein at least one spacer of said CRISPR targets a proto-spacer comprised within said selective component of (i) so as to specifically inactivate said selective component. The invention further provides method using the components or kits of the invention for interference with a horizontal transfer of a pathogenic gene between bacteria and for preventing a pathologic condition in a mammalian subject caused by a bacterial infection.