Novel processes and compositions are described which use viral capsid proteins resistant to hydrolases to prepare virus-like particles to enclose and subsequently isolate and purify target cargo molecules of interest including nucleic acids such as siRNAs and shRNAs, miRNAs, messenger RNAs, small peptides and bioactive molecules.

In certain embodiments, the present invention provides a DNA nanostructure nanorobot comprising: a single stranded DNA scaffold strand of about 5,000 to 10,000 bases in length; a plurality of staple strands of DNA, wherein each staple strands are about 20 to 40 bases in length, wherein each staple strand has a unique sequence and is hybridized to a specific position on the DNA scaffold strand, wherein the plurality of staple strands hybridized to the DNA scaffold form a sheet having a top surface and a bottom surface; and one or more fastener strands of DNA, wherein the one or more fastener strands of DNA is capable of fastening the sheet into an origami structure.

The invention relates to the production of phage and transduction particles using DNAs (eg, plasmids and helper phage, mobile genetic elements (MGEs) or plasmids with chromosomally integrated helper phage genes), as well as the phage, helper phage, kits, compositions and methods involving these.

Provided are a novel polypeptide having endolysin activity, a fusion protein comprising the polypeptide and an antibiotic active protein, and an antibiotic use against a gram-negative pathogen of the polypeptide and/or fusion protein and/or a use for prevention and/or treatment of gram-negative pathogen infection and/or disease or symptoms related to gram negative pathogen infection.

Novel processes and compositions are described which use viral capsid proteins resistant to hydrolases to prepare virus-like particles to enclose and subsequently isolate and purify target cargo molecules of interest including nucleic acids such as siRNAs and shRNAs, miRNAs, messenger RNAs, small peptides and bioactive molecules.

The invention relates to the production of transduction particles, such as phage, as well as compositions comprising the particles and use of these. The particles are particularly useful for delivering toxic payloads into target bacteria for antibacterial action. The invention is also useful for the production of wild-type (native) phage and phage cocktails comprising different types of phage. Embodiments enable production of compositions of such particles for use in medical, environmental or food production settings.

The invention relates to the production of transduction particles, such as phage, as well as compositions comprising the particles and use of these. The particles are particularly useful for delivering toxic payloads into target bacteria for antibacterial action. The invention is also useful for the production of wild-type (native) phage and phage cocktails comprising different types of phage. Embodiments enable production of compositions of such particles for use in medical, environmental or food production settings.