In order to develop tools and methods useful in a variety of applications, including the research and development of medical treatments which involve the modification of collagen protein and use of the same, the present invention provides a modified collagen protein expressed in a transformed cell and capable of forming collagen fibers outside of the cell, wherein the transformation is performed by introducing, into the cell, polynucleotides coding the modified collagen protein.

Disclosed herein are antibody molecules binding specifically to C-KIT, antigen-binding portions thereof and medical uses therefor.

A method for producing a dual function protein includes a biologically active protein and an FGF21 mutant protein. The method allows stable production of a target protein by effectively preventing decomposition of the target protein, and thus has a high potential for commercial usage.

A preparation method of an interfering peptide targeting SARS-CoV-2 N protein includes the following steps: designing an interfering peptide segment targeting amino acids located in a dimerization domain of the SARS-CoV-2 N protein; fusing the interfering peptide segment with HIV-TAT; modifying the interfering peptide segment fused with HIV-TAT into a reverse isomer to obtain an amino acid sequence of a final interfering peptide NIP-V; and synthesizing the interfering peptide NIP-V using D-amino acids as raw materials. The above-mentioned interfering peptide drug NIP-V is able to interact with the dimerization domain of the SARS-CoV-2 N protein, inhibit the oligomerization of N protein, and then relieve the inhibition for innate immunity by the N protein, so as to achieve the purpose of inhibiting the replication of SARS-CoV-2 virus in cells and animals.

The present invention relates to, inter alia, compositions and methods, including chimeric proteins that find use in the treatment of disease, such as immunotherapies for cancer and autoimmunity. In part, the invention provides, in various embodiments, fusions of extracellular domains of transmembrane proteins that can have stimulatory or inhibitory effects.

The present invention relates to, inter alia, compositions and methods, including chimeric proteins that find use in the treatment of disease, such as immunotherapies for cancer and autoimmunity. In part, the invention provides, in various embodiments, fusions of extracellular domains of transmembrane proteins that can have stimulatory or inhibitory effects.

The present disclosure relates to an exosome comprising a photocleavable protein and a use thereof, and the exosome according to the present disclosure contains a fusion protein comprising a blue fluorescent protein (TagBFP), a photocleavable protein (mMaple3), and an exosome-specific marker protein (CD9), and it has been found that when light of 405 nm is irradiated to the exosome, the photocleavable protein, mMaple3 is cleaved and thereby the blue fluorescent protein in the exosome can be delivered into a target cell. In addition, it has been found that Cre protein in the exosome can be delivered into an animal organ, when light of 405 nm is irradiated to an exosome containing Cre fusion protein (Cre-mMaple3-CD9). Therefore, the exosome containing the photocleavable protein according to the present disclosure is expected to be useful in the protein treatment field by safely and efficiently delivering various therapeutic proteins into cells.

Provided are compositions and methods useful in regenerating damaged tissue, especially cardiac tissue, by delivering to the site of injury an miRNA that can reduce, for example, the expression of phosphatase and tensin homolog (PTEN). The compositions and methods of the disclosure may be generally applied to deliver an miRNA to a cell or tissue such as, but not limited to, a neuron, a smooth muscle cell, or a tumor cell. The compositions comprise a transmembrane carrier peptide conjugated, optionally by a linker, to an oligonucleotide complementary to an miRNA. The carrier peptide facilitates the entry of the miRNA into cells and for delivery to a tissue of an animal or human may be mixed with an extracellular matrix-derived hydrogel carrier.

Provided are an anti-B7-H3 antibody and preparation thereof and a use thereof. Further provided is a drug conjugate and recombinant protein containing the antibody. The antibody of the present invention can be effectively endocytosed by cells, and an antibody-conjugated drug prepared by using the antibody of the present invention shows a tumor inhibition effect.

Described herein are agents that inhibit CBL autoinhibition, agents that activate CBL, SLAP and/or SLAP2 mimetics, and recombinant SLAP and/or SLAP2 or variants and/or fragments thereof that inhibit CBL autoinhibition. Also described are fusion proteins comprising these molecules as well as methods of inhibiting CBL autoinhibition and related uses thereof.