A method for optogenetics experiments, based on wavefront shaping and including: calculating the transmission matrix between an input end and an output end of the multimode fiber under a fixed shape; implanting the output end into an intracranial space of an experimental subject; and performing wavefront compensation to a light to be input into the input end, according to the spatial position of the optical stimulation and the transmission matrix of the multimode fiber, to form a compensated expanded light, and inputting the compensated expanded light from the input end into the multimode fiber, such that the compensated expanded light, after being transmitted by the multimode fiber to the output end and output from the output end, is capable of focusing at the spatial position of the optical stimulation.

Provided is use of thiamine pyrophosphokinase TPK as a target in the treatment of Alzheimer's disease; and AD symptoms due to the inhibited TPK can be prevented by promoting the kinase activity and/or expression level of TPK protein in brain with TPK as a target.

A system for batch production of the heterogametic sex of a biological species generally includes a first strain of a biological species genetically engineered to include a conditional Y-linked (or Z-linked) genetic lethal circuit and a second strain of the biological species genetically engineered to include a conditional X-linked (or W-linked) genetic lethal circuit.

One variation of a method includes: during an initial period, modifying a population of insects to produce a target compound responsive to application of a stressor; during a growth period succeeding the initial period, cultivating the population of insects according to a set of growth conditions; and, during a treatment period succeeding the growth period, applying a dosage of the stressor to the population of insects to trigger production of the target compound. The method further includes, during a harvest period succeeding the treatment period: harvesting the population of insects; homogenizing the population of insects to form a blend including a set of secondary components and an amount of the target compound; extracting the amount of the target compound from the blend; and mixing the first amount of the first target compound with a set of stabilizing agents configured to stabilize the target compound.

A method of restoring lysosomal function of retinal pigment epithelial (RPE) cells and a method of preventing and/or treating age-related macular degeneration (AMD), Stargardt's macular retinal degeneration, neurodegenerative disease, or diabetic retinopathy in a subject are provided. The methods comprise administering (i) a nucleic acid encoding a polypeptide comprising a constitutively active form of transcription factor EB (TFEB) or (ii) the polypeptide to a subject in need thereof. Associated polypeptides, nucleic acids, vectors, and compositions thereof also are provided.

The invention discloses a method for screening a therapeutic target of acute radiation-induced gastrointestinal syndrome and use of TIGAR target in the preparation of a medicine for treating radiation-induced gastrointestinal syndrome. The CreERT-loxP transgenic mouse model is used, in which quiescent intestinal crypt stem cells are effectively promoted to proliferate after exposure to high-dose ionizing radiation, to screen a therapeutic target that still has a therapeutic effect for radiation-induced gastrointestinal syndrome 18-24 h after ionizing radiation. Gene splicing occurs in particular cells in the CreERT-loxP transgenic mice only after the injection of tamoxifen, thereby regulating gene expression. The actual situation of initial exposure and then treatment after a nuclear accident is well simulated, so the invention is of great practical significance. The screened therapeutic target is developed into a medicine for treatment after nuclear accidents, to save precious time for the treatment after nuclear accidents.

Nucleic acids encoding modified myosin heavy-chain-associated RNA transcripts are provided. The modified myosin heavy-chain-associated RNA transcripts belongs to a cluster of long noncoding RNAs (lncRNA) and bind to chromatin remodeler Brg1 to inhibit Brg1's genomic targeting and gene regulation function. The modified myosin heavy-chain-associated RNA transcripts expressed in an individual inhibit Brg1's gene regulation function and protect the heart of the individual from myopathy and failure. One of the modified heavy-chain-associated RNAs is a 400 base pair fragment segmented from a natural 779 base pair sequence of Mhrt (Mhrt779) and has the same cardioprotective effects as the Mhrt779.

An object of the present invention is to provide a method of conveniently producing a genetically modified non-human mammal with high efficiency using a CRISPR-Cas9 system and particularly a production method whereby gene knock-in can be achieved with high efficiency regardless of the gene size. The method of producing a genetically modified non-human mammal comprises introducing a Cas9 protein, a crRNA fragment comprising a nucleotide sequence complementary to a target DNA region, and a tracrRNA fragment into a non-human mammalian oocyte to genetically modify the target DNA.

A genetically modified rodent is provided that comprises a modified Acvr1 gene that comprises a conditional altered exon 7 encoding R258G in antisense orientation, flanked by site-specific recombinase recognition sites, wherein the altered exon is inverted to sense orientation upon action of a recombinase, resulting in ectopic bone formation.

The present disclosure relates to the field of commercial scale production and processing of pharmaceutical liquid or solid compositions derived from insects, wherein the compositions include a purified recombinant protein, vaccine, antibody, peptide, or chemical. Systems and methods to produce the insects and a purified insect-derived recombinant protein, vaccine, antibody, peptide, insecticide, fungicide, or chemical within a bioreactor are also described.