The present invention is directed generally to eukaryotic cells comprising single-celled organisms that are introduced into the eukaryotic cell through human intervention and which transfer to daughter cells of the eukaryotic cell, and methods of introducing such single-celled organisms into eukaryotic cells. The invention provides single-celled organisms that introduce a phenotype to eukaryotic cells that is maintained in daughter cells. The invention additionally provides eukaryotic cells containing magnetic bacteria. The invention further provides eukaryotic cells engineered with single-celled organisms to allow for multimodal observation of the eukaryotic cells. Each imaging method (or modality) allows the visualization of different aspects of anatomy and physiology, and combining these allows the imager to learn more about the subject being imaged.

An all male Culicide mosquito population is created by knocking down its Transformer-2 gene, causing the dysfunction of X chromosome-bearing sperm, hence producing severe biased male progenies. Unlike previous methods, we recently discovered that the Tra-2 knockdown also results in female-specific zygotes lethality (XX). This art is therefore also designed to kill early female zygotes (XX) that may have survived the previous knockdown, and the all male progenies are created only when an antibiotic substance has been added into food and drink to feed mosquitoes. The strict limit of the antibiotic exposure time allows mosquito-adapted Wolbachia bacteria to survive. Selected Wolbachia bacteria may induce cytoplasmic incompatibility (CI) of up to 100%. All the progenies are therefore genetically males, which cause sterility when outcrossing with females infected by another Wolbachia strain (bidirectional CI) or are uninfected (unidirectional CI) in natural environment.

Provided is an improved design of shRNA based on structural mimics of miR-451 precursors. These miR-451 shRNA mimics are channeled through a novel small RNA biogenesis pathway, require AGO2 catalysis and are processed by Drosha but are independent of DICER processing. This miRNA pathway feeds active elements only into Ago2 because of its unique catalytic activity. These data demonstrate that this newly identified small RNA biogenesis pathway can be exploited in vivo to produce active molecules.

According to the embodiments described herein, a series of biological materials for treatment/therapy of DMD and/or BMD through the recovery of sarcolemmal nNOS is provided. The biological material comprises the complete dystrophin repeats R16 and R17 or certain domains, sections, or fragments of the dystrophin repeats R16 and R17. In some aspects, such domains, sections, or fragments may be selected from sequence motifs including dystrophin R17 1 helix, 2 and 3 helices of both R16 and R17, or a combination thereof.

The invention provides polynucleotides and methods for expressing light-activated proteins in animal cells and altering an action potential of the cells by optical stimulation. The invention also provides animal cells and non-human animals comprising cells expressing the light-activated proteins.

The invention provides a previously uncharacterized protein (gamma secretase activating protein or gSAP) that activates -secretase to produce -amyloid protein (A). Deposition of A has been associated with Alzheimer's disease and other pathologies. The invention thus additionally provides, e.g., screening methods and novel research tools, inhibitors of this novel protein, and methods of diagnosis, treatment and control of Alzheimer's disease and other neurodegenerative conditions associated with deposition of A.

Provided herein are methods of sterilizing fish by contacting an embryonic or juvenile fish with a compound of formula (I). In some embodiments, the compound is primordazine or a derivative thereof.

The invention in some aspects relates to isolated nucleic acids, compositions, and kits useful for identifying adeno-associated viruses in cells. In some aspects, the invention provides kits and methods for producing somatic transgenic animal models using recombinant AAV (rAAV) to an animal having at least one transgene that expresses a small interfering nucleic acid or at least one binding site for a miRNA.

Methods, agents, and compositions for promoting milk production in a mammal are provided. Agents useful for promoting milk production may include an agent that inhibits NOTCH4 activity. The agent may inhibit NOTCH4 activity by binding to ROBO2 and/or by binding to NOTCH4. The agent may inhibit NOTCH4 by competing with ROBO1 for binding to ROBO2, thereby making ROBO1 available to inhibit NOTCH4 activity. The agent may be a soluble ROBO1 extracellular domain or an anti-NOTCH4 antibody that inhibits NOTCH4 activity. The agent may be an RNAi construct that inhibits expression of NOTCH4 or an RNAi construct that inhibits expression of ROBO2. Also provided herein are transgenic mammals genetically modified for expression of a soluble ROBO1 extracellular domain; inhibition of expression of ROBO2; and/or inhibition of expression of NOTCH4. Methods for promoting milk production in such transgenic mammals by administering one or more of the agents disclosed herein are also provided.

Disclosed herein are methods and compositions for genome editing of a Rosa locus, using fusion proteins comprising a DNA binding domain and a cleavage domain or cleavage half-domain. Polynucleotides encoding said fusion proteins are also provided, as are cells comprising said polynucleotides and fusion proteins.