Provided is an enzymatic process that hydrolyzes spinach plant material to form a salt-enhancing ingredient, the formed salt-enhancing ingredient, food products comprising said salt-enhancing ingredient and a method of enhancing the salty taste of food products.

The present disclosure relates to processes for producing antihypertensive peptide compositions from milk compositions. It also relates to peptide compositions producible by the processes, as well as dosage forms, food products, supplements, powdered milk formula and beverages containing the peptide compositions, and to therapeutic methods and uses of the peptide compositions.

The present invention relates to protease variants and methods for obtaining protease variants. The present invention also relates to polynucleotides encoding the variants; nucleic acid constructs, vectors, and host cells comprising the polynucleotides; and methods of using the variants.

The present disclosure relates to serine proteases and variants thereof. Compositions containing the serine proteases are suitable for use in cleaning fabrics and hard surfaces, as well as in a variety of industrial applications.

The present disclosure relates to a novel serine protease variant.

In one aspect, the present disclosure provides targeted complement-activating molecules comprising a target-binding domain and a complement-activating serine protease effector domain. In some embodiments, the target-binding domain is derived from an antibody or an antigen-binding fragment thereof. Also provided are compositions and methods for treating cancer, autoimmune disease, or microbial infection, including bacterial, viral, fungal, or parasitic infection, using targeted complement-activating molecules.

Compositions containing microparticles loaded with one or protease enzymes and optionally auxiliary therapeutic agents and methods of treating conditions such as keloids therewith are disclosed. The biodegradable polymer and the protease enzyme therein form a controlled release matrix for extended release of the enzyme after administration to a mammal in need thereof.

The present disclosure provides modified proteins that are capable of being cleaved by the protease OmpT1. The proteins can be modified in an exposed surface motif to incorporate OmpT1 cleavage sites. Also provided are nucleic acids encoding the modified proteins, bacterial cells that express the modified proteins, and cell free synthesis systems containing modified RF1. The disclosure further provides methods for reducing the deleterious activity of a modified protein in a cell free synthesis system by contacting the modified protein with OmpT1. Also provided are methods for reducing RF1 competition at an amber codon in the cell free synthesis system, and methods for expressing a protein in the cell free synthesis system. The modified proteins of the invention can be used to increase the yield of proteins having non-natural amino acids incorporated at an amber codon.

The invention provides compositions and methods for treatment of Chromosome 10-driven age-related macular degeneration, including gene therapy to increase HTRA1 expression in retinal pigmented epithelial cells in the eye.

A peptide sequence of a guide protein for the production of a peptide of interest; a peptide sequence that has a similarity of at least 90% to SEQ. ID. NO 1; a nucleotide sequence encoding the guide protein; an expression vector comprising the nucleotide sequence; a host cell that expresses a fusion protein comprising a peptide of interest; a method of production of a peptide of interest, comprising the steps of A) constructing an expression vector; B) inserting the expression vector into a host cell; C) expressing the fusion protein, culturing the host cell in a culture medium; D) recovering the accumulated fusion protein in the host cell; E) cleaving the fusion protein; F) purifying the peptide of interest.