Antibody particles are disclosed comprising polypeptides comprising an (Fc) binding domain, a helical polypeptide monomer, and an oligomer domain, and either Tie2 antibodies or dimers, or tumor necrosis factor receptor superfamily antibodies, and uses thereof.

A method of modifying a glycosylation pattern of a polypeptide-of-interest in a plant or plant cell is provided. The method comprising expressing in a plant or plant cell transformed to express at least one glycosidase in a subcellular compartment, a nucleic acid sequence encoding the polypeptide-of-interest, such that the at least one glycosidase and the polypeptide-of-interest are co-localized to the subcellular compartment of the plant or plant cell, thereby modifying the glycosylation pattern of the polypeptide-of-interest in the plant or plant cell.

Fusion polypeptides including at least one Fc binding domain linked to at least one integrin binding domain are provided. In some embodiments, the at least one Fc binding domain is one or more Fc binding domains from Protein A, Protein G, or Protein Z and the at least one integrin binding domain comprises one or more fibronectin type III domains (for example repeats 12-14 of fibronectin type III domains and optionally the connecting segment of fibronectin). Protein complexes including the polypeptide and one or more antibodies are also provided. Methods of using the polypeptide and/or polypeptide:antibody complex are provided, including treating a subject with a tumor, inducing an immune response to a tumor, and/or targeting an antibody to a tumor cell.

The invention relates to antibody conjugates (e.g., a bispecific antibody), drug and nanoparticle compositions and methods and compositions for generating them. This invention further relates to methods of using these compositions for imaging, diagnosing or treating a disease.

The invention relates to antibody conjugates (e.g., a bispecific antibody), drug and nanoparticle compositions and methods and compositions for generating them. This invention further relates to methods of using these compositions to image, diagnose or treat a disease.

The technology described herein is directed to structural analysis, particularly of small proteins via cryo-EM.

The present disclosure is generally directed to an anucleated cell-based platforms for encapsulation and delivery of agricultural compounds. Disclosed herein are compositions for the stable and targeted delivery of agricultural compounds within achromosomal and/or anucleated cells. The present disclosure also provides methods of improving encapsulation and retention of agricultural compounds in achromosomal and/or anucleated cells.

The invention relates to truncated growth factors and variants thereof. The invention also relates to methods of making and using the truncated growth factors. The invention further relates to compositions including a protease and a growth factor comprising a bone morphogenic protein (BMP) or a variant thereof. The invention also relates to methods of using the composition.

The present invention pertains to engineered extracellular vesicles (EVs) for use in a variety of research, diagnostic, imaging and therapeutic applications. The EVs are engineered to enable incorporation and surface display of various proteins of interest, which may be exogenous and/or endogenous in nature. The coating of EVs is achieved through inventive protein engineering of EV polypeptides, and the present invention thus relates to methods for coating of EVs, EVs per se, as well kits, detection methods, diagnostic applications, imaging and delivery methods based on said engineered EVs.

The A method of modifying a glycosylation pattern of a polypeptide-of-interest in a plant or plant cell is provided. The method comprising expressing in a plant or plant cell transformed to express at least one glycosidase in a subcellular compartment, a nucleic acid sequence encoding the polypeptide-of-interest, such that the at least one glycosidase and the polypeptide-of-interest are co-localized to the subcellular compartment of the plant or plant cell, thereby modifying the glycosylation pattern of the polypeptide-of-interest in the plant or plant cell.