Improved methods and compositions for refining molybdenum mineral are provided, in particular for isolating a substance containing molybdenum which comprises contacting the substance containing molybdenum with a composition comprising a M13 phage. The M13 phage provides selectivity and recovery of the substance containing molybdenum.

Methods and compositions for bacterial production of pure single-stranded DNA (ssDNA) composed of custom sequence and size have been developed. The methods enable scalability and bio-orthogonality in applications of scaffolded DNA origami, offering one-step purification of large quantities of pure ssDNA amendable for immediate folding of DNA nanoparticles. The methods produce pure ssDNA directly from bacteria. In some embodiments the E. coli helper strain M13cp combined with a phagemid carrying only an f1-origin allows for, without the need for additional purification from contaminating dsDNA. This system is useful for generalized circular ssDNA synthesis, and here is applied to the assembly of DNA nanoparticles folded both in vitro and direct from phage.

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.

Provided are engineered phages populations, which are homogeneous in length, as well as methods of making and methods of using such phages. Also provided are engineered chlorotoxin-phages as well as their methods of making and using. The disclosed homogeneous phage populations and chlorotoxin-phages may be used, for example, for treating and/or imaging tumors, such as central nervous system tumors.

Compositions and methods for the storage, organization, access, and retrieval of information encoded by sequence controlled polymers such as data storage nucleic acids are provided. In some embodiments, organization, storage, and/or selective retrieval of the data is facilitated by hybridization of barcode sequence of the sequence controlled polymer to the reverse complementary sequence of an oligonucleotide. The plurality of oligonucleotides can be arrayed using a known organization scheme, and selectively capture and localize the corresponding sequence controlled polymer. In some embodiments, the compositions and methods utilize recombinant bacteriophage, typically featuring a minigenome having a bacteriophage origin of replication and packaging signal separated from a data storage sequence by barcodes.

Methods and compositions are provided for the display of genetically encoded macrocyclic peptides on a biological surface. Also provided are nucleic acid molecules, polypeptides, and methods for generating combinatorial libraries of macrocyclic peptides displayed on a biological surface. These methods can be used to produce and screen vast libraries of conformationally constrained peptides in a high-throuput manner, from which macrocyclic peptides with a desired property can be selected and identified.

Disclosed herein are novel synthetic bacteriophages and bacteriophage compositions, methods of production thereof, and therapeutic uses thereof.

The present invention relates to conjugate complexes, comprising at least one biological entity, at least one cargo moiety, and at least one effector moiety that is capable of converting, degrading, and/or modifying a given medium, wherein the at least one cargo moiety and the at least one effector moiety are directly or indirectly coupled to the biological entity. The present invention further relates to uses thereof and methods for facilitating the transport of a cargo moiety through a given medium.

Disclosed herein are novel synthetic bacteriophages and bacteriophage compositions, methods of production thereof, and therapeutic uses thereof.

The present disclosure relates to a phage-based matrix for inducing stem cell differentiation and a method for preparing the same. More specifically, the present disclosure relates to a composition for inducing differentiation of stem cells, which includes a phage-based matrix in which a gradient of stiffness is controlled by crosslinking a recombinant phage with a polymer, and a method for preparing a phage-based matrix for stem cell differentiation. According to the present invention, the method of the present disclosure provides a physical and mechanical niche environment created by the formation of a nanofibrous structure of the phage whose stiffness is controlled, thereby promoting the differentiation of stem cells into target cells. Therefore, it can be applied to a tissue matrix platform as a variety of conventional tissue engineering materials.