The present invention belongs to the field of biotechnology, in particular to a multivalent fusion protein AB-NAC-189, method for producing the same, and uses thereof. The protein AB-NAC-189 is a fusion of a polypeptide segment AB, nascent polypeptide-associated complex (NAC), and a protein 189 corresponding to amino acids 1-189 from the N-terminal of protein HarpinEa. The fusion has the properties of a multivalent plant immune protein, thus it can effectively stimulate the hypersensitive response of tobacco leaves and has good thermal stability. While stimulating the immune response of plants, it can also improve the disease resistance of plants and promote plant growth. The AB-NAC-189 multivalent vaccine shows higher activity per unit concentration, and greater ability to promote growth of wheat and tobacco; meanwhile it can significantly promote chlorophyll synthesis in Goji berry, thereby improving the yield and quality of Goji berries.

A method for producing a protein is provided. An objective protein is produced by culturing in a culture medium Talaromyces cellulolyticus having an objective protein-producing ability, which has been modified so that the activity of a Pep4 protein is reduced.

The present invention provides for a hybrid sugar transporter having an altered sugar transporter activity and comprising at least a first transmembrane domain (TMD) from a first sugar transporter and a second TMD from a second sugar transporter, wherein the first sugar transporter and the second sugar transporter are heterologous to each other.

The present invention provides for a hybrid sugar transporter having an altered sugar transporter activity and comprising at least a first transmembrane domain (TMD) from a first sugar transporter and a second TMD from a second sugar transporter, wherein the first sugar transporter and the second sugar transporter are heterologous to each other.

There is provided a cell culture matrix comprising a fungal derived protein. Also provided is a composition comprising the cell culture matrix as described herein, a cell culture system comprising the cell culture matrix as described herein, and a method of forming a cell culture matrix thereof.

There is provided a cell culture matrix comprising a fungal derived protein. Also provided is a composition comprising the cell culture matrix as described herein, a cell culture system comprising the cell culture matrix as described herein, and a method of forming a cell culture matrix thereof.

Compositions including an antibiotic factor from Malassezia are provided. In some examples, the compositions include a Malassezia exoproduct, a Malassezia cell-free supernatant, or a Malassezia cell and a pharmaceutically acceptable carrier. Methods of treating an infection in a subject, such as a Staphylococcus infection are also provided.

Compositions including an antibiotic factor from Malassezia are provided. In some examples, the compositions include a Malassezia exoproduct, a Malassezia cell-free supernatant, or a Malassezia cell and a pharmaceutically acceptable carrier. Methods of treating an infection in a subject, such as a Staphylococcus infection are also provided.

The subject invention pertains to compositions and methods for preparing and using recombinant proteins based on the fungal Coprinus comatus Y3 protein to control plant and animal viruses and microbes, and diagnose, prevent and treat cancers. Methods are disclosed using compositions comprising recombinant Y3 proteins to diagnose, prevent and/or treat cancer diseases based on recombinant Y3 protein interaction with glycans expressed on cancer cells.

The subject invention pertains to compositions and methods for preparing and using recombinant proteins based on the fungal Coprinus comatus Y3 protein to control plant and animal viruses and microbes, and diagnose, prevent and treat cancers. Methods are disclosed using compositions comprising recombinant Y3 proteins to diagnose, prevent and/or treat cancer diseases based on recombinant Y3 protein interaction with glycans expressed on cancer cells.