The present invention relates to a degenerative disease model Drosophila. More particularly, a technique is disclosed for alleviating the phenotypes of a degenerative disorder symptom of Drosophila. Using this technique, illumination with low dose radiation on a degenerative disease model Drosophila alleviates symptoms of the degenerative disease.

Residual, refractory or relapsed cancer is treated by immunostimulation in the presence of allogeneic immune effector cells, optimally in combination with radiation therapy. The methods of the disclosure induce a systemic allogeneic anti-tumor immune response that results in tumor regression in untreated sites of disease, i.e. non-injected, non-irradiated, etc.

The present invention relates to a method for generating sterile Zeugodacus scutellata males by emitting an electron beam at a dose of 150 Gy (inclusive) to 250 Gy (exclusive) to pupae of Zeugodacus scutellata and a method for controlling Zeugodacus scutellata by releasing the generated sterile males and normal males at a ratio of 9:1. In the present invention, electron beams are used instead of radioactive beams and suitable doses of electron beams are determined to generate sterile males of domestic native Zeugodacus scutellata. The generated sterile Zeugodacus scutellata males and normal males are released at a ratio of 9:1 to effectively control Zeugodacus scutellata through a sterile insect release technique (SIT).

The present disclosure relates to a composition for preventing, treating, or alleviating graft-versus-host disease, containing monoclonal stem cells obtained by subfractionation culture of stem cells, and to a graft-versus-host disease treatment method using the same. According to a method of subfractionation culture and proliferation of stem cells of the present disclosure, it is possible to obtain a large quantity of desired monoclonal stem cells in a short time by rapid proliferation of monoclonal stem cells, and the monoclonal stem cells obtained thereby are stem cells with enhanced therapeutic effects on graft-versus-host disease, and thus can be beneficially used as a graft-versus-host disease therapeutic agent.

The present disclosure relates to methods of targeting specific cell types within the cochlea using optimized gene therapy vectors. In particular, the disclosure provides gene therapy vectors to specifically target cochlear cells and methods of treating hearing impairment and hearing-loss related disorders.

Disclosed are nucleic acid constructs comprising a nucleic acid sequence encoding a vitelliform macular dystrophy-2 (VMD2) promoter operably linked to a nucleic acid sequence encoding Rap1a. Disclosed are vectors comprising the nucleic acid constructs disclosed herein. Disclosed are compositions comprising the disclosed nucleic acid constructs or vectors. Also disclosed are methods of treating a subject having age-related macular degeneration comprising administering one or more of the disclosed nucleic acid constructs, vectors, or compositions to a subject in need thereof.

The invention provides novel engineered CRISPR/Cas effector enzymes, such as Cas13 (e.g., Cas13e) that substantially maintain guide-sequence-specific endonuclease activity and substantially lack guide-sequence-independent collateral endonuclease activity compared to the corresponding wild-type Cas. Also provided are polynucleotides encoding the same, vectors or host cells comprising the polynucleotides or engineered Cas, and method of use, such as in RNA-based target gene transcript knock down.

A pharmaceutical composition contains Nkx3.2 and a fragment thereof as an active ingredient. The Nkx3.2 and/or the fragment thereof inhibit(s) retinal degeneration caused by oxidative stress and preserve(s) visual function. In addition, the Nkx3.2 and/or the fragment thereof inhibit(s) cell death due to the oxidative stress of retinal pigment epithelial cells and inhibit(s) choroidal neovascularization and retinal edema. Therefore, a composition containing the Nkx3.2 and/or the fragment thereof as active ingredient(s) can be effectively used for preventing or treating retinal dystrophies or macular degeneration.

Residual, refractory or relapsed cancer is treated by immunostimulation in the presence of allogeneic immune effector cells, optimally in combination with radiation therapy. The methods of the disclosure induce a systemic allogeneic anti-tumor immune response that results in tumor regression in untreated sites of disease, i.e. non-injected, non-irradiated, etc.

The present disclosure relates to light emitting devices, systems and methods for use in animal nests, such as mink nests or piglet nests, for enhancing the formation of ND3 in animals and minimizing the microbial pressure in the animal nest, while providing the animals with an improved resting condition. A light emitting device comprises at least one UVB light source, wherein the light emitting device is configured such that UV light below 285 nm is not emitted from the device, visible light between 380 and 750 nm is not emitted from the device, and light in a wavelength interval of 290 nm-315 nm is emitted from the device.