The present invention provides for a composition, as disclosed herein, for delivery of an active agent. The composition includes a peptide coacervate, wherein the peptide coacervate includes one or more peptides derived from histidine-rich proteins, and an active agent encapsulated in the peptide coacervate. Further provided are a method for encapsulation of an active agent in a peptide coacervate, a method for delivery of an active agent, and a method for treating or diagnosing a condition or disease in a subject in need thereof.

The present invention relates to methods and compositions for stabilizing proteins. The invention provides compositions comprising at least one tardigrade disordered protein (TDP) and at least one heterologous polypeptide and/or peptide of interest. Further provided are methods for stabilizing proteins and for producing organisms and cells having increased tolerance to desiccation and/or drought.

Binding members for sodium channel Nav1.7 and their use in medicine including for treatment of pain or epilepsy. Binding members comprise a fusion protein containing a Nav1.7-binding peptide, e.g., venom toxin peptide or knottin (donor diversity scaffold domain) inserted within an antibody variable domain (recipient diversity scaffold domain), and a partner domain (e.g., antibody variable domain), optionally wherein the partner domain enhances specificity of binding to Nav1.7 over other sodium channels.

The present disclosure provides, inter alia, genetically encoded recombinant peptide biosensors comprising analyte-binding framework portions and signaling portions, wherein the signaling portions are present within the framework portions at sites or amino acid positions that undergo a conformational change upon interaction of the framework portion with an analyte.

Immunogenic proteins from Pseudomonas aeruginosa as well as nucleic acids, vectors and transformed cells useful for expression of the proteins. Also disclosed are methods for prophylaxis of infection with Pseudomonas aeruginosa using the proteins, nucleic acids, vectors or transformed cel

A method of disinfection of a surface of a subject of harmful microorganisms including pathogenic bacteria and viruses upon visible light irradiation using a hybridized fluorescent silk is provided. The method includes placing a predetermined quantity of the hybridized fluorescent silk i) directly on to a skin surface of a subject; or ii) on a medium and then placing the medium on the skin surface of the subject. The method further includes applying light in the visible spectrum for a predetermined amount of time to the placed quantity of hybridized fluorescent silk, wherein the hybridized fluorescent silk is one of KillerRed, SuperNova, KillerOrange, Dronpa, TurboGFP, mCherry, or any combination thereof.

A method of inactivating harmful microorganisms of a filtration medium including pathogenic bacteria and viruses is disclosed which includes placing a predetermined quantity of a hybridized fluorescent silk on to a filtration medium, applying light for a predetermined amount of time to the placed quantity of the hybridized fluorescent silk, and passing a fluid through the medium, wherein the fluid is one of substantially air or substantially water, wherein the hybridized fluorescent silk is one of KillerRed, SuperNova, KillerOrange, Dronpa, TurboGFP, mCherry, or any combination thereof.

The invention is directed to cell-targeted cytotoxic agents, including sortase serine protease constructs. Methods for targeted cell killing for treatment of proliferative diseases, for example, cancer, are provided. Exemplary embodiments comprise an R-spondin ligand for targeting the cytotoxic agents to effect the cell killing.

Structurally stabilized, e.g., stapled, peptides with the ability to translocate through microbial cell membranes to the interior of microbial cells and exert a biological activity there are provided, as are methods of designing, making and using such peptides.

The present disclosure provides, inter alia, genetically encoded recombinant peptide biosensors comprising analyte-binding framework portions and signaling portions, wherein the signaling portions are present within the framework portions at sites or amino acid positions that undergo a conformational change upon interaction of the framework portion with an analyte.