The present disclosure belongs to the technical field of genetic modification of an enzyme preparation and particularly relates to a preparation method of a high-stability superoxide dismutase with a transmembrane capability. The method includes the following steps: extracting mRNA from Geobacillus stearothermophilus, synthesizing cDNA by a reverse transcription method, amplifying a large number of coding regions of the cDNA by designing a specific primer, ligating the coding regions to an E. coli expression vector, and transforming the coding regions into engineering bacteria BL21 (DE3). A point mutation technology is used to enhance stability of the superoxide dismutase and a flexible polypeptide linker GGGSGGGS (SEQ ID NO: 11) is designed, such that a soluble fusion expression of a transmembrane peptide YGRKKRRQRRR (SEQ ID NO: 10) and the superoxide dismutase is successfully realized.

An expression vector containing appropriate mitochondrion-targeting sequences (MTS) and appropriate 3′UTR sequences provides efficient and stable delivery of a mRNA encoding a protein (CDS) to the mitochondrion of a mammalian cell. The MTS and 3′UTR sequences guide the CDS mRNA from the nuclear compartment of the cell to mitochondrion-bound polysomes, where the CDS is translated. This provides an efficient translocation of a mature functional protein into the mitochondria. A method of targeting mRNA expressed in the nuclear compartment of a mammalian cell to the mitochondrion is also provided. The vector and methods can be used to treat defects in mitochondrial function.

In one aspect, the present invention jointly expresses SOD and NAMPT proteins. The activity of SOD and NAMPT expressed by silkworm pupae inoculated with viruses is higher than that of silkworm pupae that are not inoculated with viruses, which proves that it is feasible to jointly express SOD and NAMPT with silkworms. It is expected to prepare an effective anti-aging drug.

An expression vector containing appropriate mitochondrion-targeting sequences (MTS) and appropriate 3′UTR sequences provides efficient and stable delivery of a mRNA encoding a protein (CDS) to the mitochondrion of a mammalian cell. The MTS and 3′UTR sequences guide the CDS mRNA from the nuclear compartment of the cell to mitochondrion-bound polysomes, where the CDS is translated. This provides an efficient translocation of a mature functional protein into the mitochondria. A method of targeting mRNA expressed in the nuclear compartment of a mammalian cell to the mitochondrion is also provided. The vector and methods can be used to treat defects in mitochondrial function.

Described herein is a method for producing a transgenic cell product wherein the gene of interest is operably linked to an inducible promoter other than AOX1. Production of the transgenic cell product is activated when the host cell is grown on a non-repressing carbon source for de-repressing the inducible promoter and an amount of an inducer compound selected from the group consisting of: formaldehyde; S-formylglutathione; S-hydroxymethyl glutathione; formic acid; an alkali metal salt of formic acid; and an alkaline earth metal salt of formic acid; sufficient to induce the inducible promoter is added to the host cell culture.

The disclosure relates to double stranded ribonucleic acid (dsRNAi) agents and compositions targeting a SOD1 gene, as well as methods of inhibiting expression of a SOD1 gene and methods of treating subjects having a SOD1-associated neurodegenerative disease or disorder, e.g., Amyotrophic Lateral Sclerosis (ALS), Alzheimer's disease (AD), Parkinson's disease (PD), and Down's syndrome (DS), using such dsRNAi agents and compositions.

Described herein are compounds and methods for tethering proteins. For example, dimers of Protein X listed in Table 1 are described, where the dimers are formed by the covalent bonding of a cysteine on the first monomer to a cysteine on the second monomer via a cyclic disulfide linker. The covalently attached dimers exhibit increased stabilization and can be used to treat neurodegenerative diseases (such as, for example, Parkinson's Disease, ALS, Alzheimer's Disease, Huntington's Disease, Epilepsy, Frontotemporal Dementia, and/or DMD), cancer, autoimmune disease, and/or Celiac disease.

The present invention relates to adeno-associated viral (AAV) particles encoding siRNA molecules and methods for treating amyotrophic lateral sclerosis (ALS).

The present disclosure includes the use of a miRNA inhibitor for treating amyotrophic lateral sclerosis (ALS) associated with a decreased level of SIRT1 protein or SIRT1 gene expression, PGC-1α protein and/or PGC-1α gene expression, CD36 protein and/or CD36 gene expression, NRG1 protein and/or NRG1 gene expression, STMN2 protein and/or STMN2 gene expression, and/or NRXN1 protein and/or NRXN1 gene expression.

The invention relates to a method for enriching a biomass of a microalga of the species Tetraselmis chuii in superoxide dismutase (SOD) by placing said microalga under abiotic stress conditions. The invention also relates to a biomass enriched in SOD as well as to an extract of the microalga and to the uses thereof as a pharmaceutical composition, as a cosmetic or in foodstuff.