An engineered phage-derived particle (PDP) for expressing a transgene in a target cell transduced with a bacteriophage, the PDP includes (i) less than about 500 bp of DNA from the bacteriophage genome, (ii) an ITR-flanked therapeutic gene up to 20 kb, (iii) an endosomal escape sequence, (iv) a nuclear localization sequence, and (v) a cell-specific targeting moiety. The PDP may escape lysosomal degradation, traffic across the nuclear envelope and expressed a therapeutic gene in a mammalian cell.

The present invention relates to variants of the general amyloid interaction motif (GAIM) of bacteriophage gene 3 protein (g3p) and fusion proteins thereof. The GAIM variants and fusion proteins of the invention are partially or fully deimmunized and demonstrate superior binding and specificity to a diverse array of amyloid proteins, and exhibit enhanced amyloid remodeling and inhibition of amyloid aggregation. The present invention further relates to nucleic acids, vectors, host cells, and methods of making the GAIM variants and fusion proteins thereof. The present invention also relates to pharmaceutical compositions and methods of increasing bacteriophage infectivity, methods of detecting amyloid aggregates, and methods of diagnosing and/or treating a disease associated with misfolded and/or aggregated amyloid protein.

A composition can include a carbon nanofiber, wherein a precursor for the carbon nanofiber includes an alcohol and an aldehyde crosslinked by a primary amine. In certain embodiments, the carbon nanofiber can be biotemplated. Biotemplating enables precise control of morphology at the nanometer scale, while molecular templating allows control of carbon nanotexture and structure at the sub-nanometer scale.

Provided are amino acid sequences capable of binding to and inhibiting a Cas protein's ability to bind to a nucleic acid molecule, thereby inhibiting the Cas protein's function in genome editing. Such Cas protein inhibitors, which can be comprised of a major coat protein (G8P), an extracellular region of the G8P (G8P.sub.EX), or a biological equivalent, are useful in improving the specificity of Cas protein-based genome editing procedures.

Provided herein are lasso peptides libraries, and particularly phage display libraries of lasso peptides. Also provided herein are related methods and systems for producing the libraries and for screening the libraries to identify candidate lasso peptides having desirable properties.

Disclosed are recombinant bacteriophage constructs and related exogenous peptide sequences for generating immune responses against CD47. The disclosed recombinant phage constructs bind to antibodies against CD47 and can be administered to an animal to generate an immune response against CD47, including generating anti-CD47 antibodies. The disclosed recombinant phage may comprise an amino acid sequence of CD47, epitopic fragments, variants, or functional mimics thereof. Also disclosed are methods for making and selecting such recombinant phage constructs and compositions that comprise such constructs (e.g., compositions for inducing an immune response against CD47 including pharmaceutical or veterinary compositions used as vaccines). Also disclosed are recombinant polynucleotides comprising genomic nucleic acid of the recombinant phage constructs disclosed herein.

Compositions for a phage particle are disclosed. The phage particle is non-replicating and includes at least one heterologous nucleic acid sequence that is capable of being expressed in a target bacteria. The expressed heterologous nucleic acid sequence is non-lethal to the target bacteria.

The present invention relates to pharmaceutical compositions containing lipid-bacteriophage conjugates, wherein the bacteriophage:lipid ratio is in the range of 3:1 to 100:1 and wherein the lipid is an immunologically active lipid and the bacteriophage is a filamentous bacteriophage, and uses thereof. Preferably, the bacteriophage is engineered to stimulate an immune response and/or bind to a target cell.

The present invention relates to variants of the general amyloid interaction motif (GAIM) of bacteriophage gene 3 protein (g3p) and fusion proteins thereof. The GAIM variants and fusion proteins of the invention are partially or fully deimmunized and demonstrate superior binding and specificity to a diverse array of amyloid proteins, and exhibit enhanced amyloid remodeling and inhibition of amyloid aggregation. The present invention further relates to nucleic acids, vectors, host cells, and methods of making the GAIM variants and fusion proteins thereof. The present invention also relates to pharmaceutical compositions and methods of increasing bacteriophage infectivity, methods of detecting amyloid aggregates, and methods of diagnosing and/or treating a disease associated with misfolded and/or aggregated amyloid protein.

Cancer eradicating engineered bacteriophage are described that can display a high copy number of a targeting polypeptide that can bind a surface antigen of a cancer cell. The bacteriophage can also display a high copy number of a cancer therapy, one or more of a drug, a toxin, an inhibitor, a radionuclide, etc. The targeting polypeptides and the cancer therapies can be directly or indirectly fused to coat proteins of the phage. The engineered phage can exhibit high avidity for cancer cells and can deliver a large dose of a cancer therapy per particle to the cell.