Provided herein is a thermolabile proteinase and methods of using the same. In some embodiments, the thermolabile proteinase may comprise an amino acid sequence that is at least 90% identical to any of SEQ ID NOs:1-11 and at least one amino acid substitution in helix 3. The thermolabile proteinase is active at a temperature in the range of 4° C.-40° C. and is inactivated by raising the temperature to above 50° C., where the proteinase is substantially inactive at 65° C.

The invention provides fabrics that incorporate protease enzymes that inactivate viruses and bacteria. The fabrics of the invention may be used in the production of various items of self-sterilizing protective equipment including protective facemasks.

The present invention provides engineered protease polypeptides and compositions thereof. The engineered protease polypeptides have been optimized to provide improved activity, improved thermostability, protease stability, autolytic stability, and stability under a range of pH conditions, including acidic (pH<7) and basic (pH>7) conditions. The invention also relates to the use of the compositions comprising the engineered protease polypeptides for therapeutic and/or nutritional purposes. The present invention also provides polynucleotides encoding the engineered protease polypeptides, as well as methods for making the engineered polynucleotides and protease polypeptides.

An enzyme composition containing a protease combination or a protease mixture having neutral metalloprotease and serine alkaline protease activity, and an amylase. Feed compositions, additives and formulations containing the enzyme composition in methods for improving digestibility of proteins in an animal diet or animal feed, as well as optimizing the nutritional value of an animal diet or animal feed.

The invention provides fabrics that incorporate protease enzymes that inactivate viruses and bacteria. The fabrics of the invention may be used in the production of various items of self-sterilizing protective equipment including protective facemasks.

In one aspect, the invention provides methods of inhibiting the effects of MASP-2-dependent complement activation in a living subject. The methods comprise the step of administering, to a subject in need thereof, an amount of a MASP-2 inhibitory agent effective to inhibit MASP-2-dependent complement activation. In some embodiments, the MASP-2 inhibitory agent inhibits cellular injury associated with MASP-2-mediated alternative complement pathway activation, while leaving the classical (C1q-dependent) pathway component of the immune system intact. In another aspect, the invention provides compositions for inhibiting the effects of lectin-dependent complement activation, comprising a therapeutically effective amount of a MASP-2 inhibitory agent and a pharmaceutically acceptable carrier.

The present invention provides a novel method for the recombinant production of Factor C protein from horseshoe crab using a parasitic protozoan expressing the Factor C protein. In particular, the present invention provides a parasitic protozoan host cell harbouring a polynucleotide encoding horseshoe crab Factor C protein, and a method for producing Factor C protein comprising culturing said parasitic protozoan host cell under conditions such that the cells express the horseshoe crab Factor C protein. Furthermore, the present invention provides recombinant Factor C protein produced by the novel method and its use in the detection and/or removal of endotoxin.

The present invention relates to a method for the recombinant production of a serine protease comprising (a) culturing a host cell comprising one or more vectors, wherein the one or more vectors encode in expressible form the serine protease and a proteinaceous inhibitor of the serine protease, wherein the proteinaceous inhibitor of the serine protease is heterologous with respect to the serine protease, under conditions wherein the serine protease and the proteinaceous inhibitor of the serine protease are expressed; or (a′) culturing a host cell the genome of which encodes in expressible form the serine protease and a proteinaceous inhibitor of the serine protease, wherein the proteinaceous inhibitor of the serine protease is heterologous with respect to the serine protease, and wherein the coding sequences of the serine protease and/or the proteinaceous inhibitor have been introduced into the host cell genome by applying a CRISPR technology, under conditions wherein the serine protease and the proteinaceous inhibitor of the serine protease are expressed; and (b) isolating the serine protease expressed in step (a) or (a′) from the host cell. The present invention also relates to a host cell comprising one or more vectors, wherein the one or more vectors encode in expressible form a serine protease and a proteinaceous inhibitor of the serine protease.

A hybridoma cell stain and a monoclonal antibody secreted therefrom and application thereof belong to the technical field of prevention and treatment of Trichinella spiralis (T. spiralis). Aiming at the technical problem of how to specifically diagnose trichinellosis, the disclosure provides a hybridoma cell strain deposited under an accession number of CGMCC No. 18317. Tests show that the monoclonal antibody Ts-ZH68-2A4-Ab secreted by the hybridoma cell strain can compete with the positive serum of pigs infected with T. spiralis for binding to Ts-ZH68 antigen, and the recognition peptide is .sup.222GVDRSATCQGDSGGP.sup.236. The monoclonal antibody of the disclosure and the Ts-ZH68 protein B cell epitope polypeptide recognized by the monoclonal antibody can be used to prepare a reagent or a vaccine for diagnosing or preventing infection of T. spiralis, laying the foundation for establishment of a serological diagnosis method of T. spiralis.

To provide a method for producing a horseshoe crab recombinant Factor C. The horseshoe crab recombinant Factor C is produced through expression thereof by use of mammalian cells such as CHO DG44 and HEK293 as host cells.