Abstract: This invention provides method and media suitable for inducing and supporting the differentiation of stem cells into erythroid cells.

Abstract: The present invention provides methods of achieving directed evolution of viruses by in vivo screening or “panning” to identify viruses comprising scrambled AAV capsids having characteristics of interest, e.g., tropism profile and/or neutralization profile (e.g., ability to evade neutralizing antibodies). The invention also provides scrambled AAV capsids and virus particles comprising the same.

Abstract: This invention relates to transgenic pig models of cystic fibrosis, cells that can be used to make such animals, and methods of making and using these pigs and cells.

Abstract: The present invention relates to a technique for inducing epilepsy and a non-human animal model of epilepsy. More particularly, the present invention relates to a method for inducing epilepsy in an animal, a non-human animal model of epilepsy, and a method for manufacturing the same.

Abstract: Mice that comprise a replacement of endogenous mouse IL-6 and/or IL-6 receptor genes are described, and methods for making and using the mice. Mice comprising a replacement at an endogenous IL-6R? locus of mouse ectodomain-encoding sequence with human ectodomain-encoding sequence is provided. Mice comprising a human IL-6 gene under control of mouse IL-6 regulatory elements is also provided, including mice that have a replacement of mouse IL-6-encoding sequence with human IL-6-encoding sequence at an endogenous mouse IL-6 locus.

Abstract: Research into neuroprotective mechanisms has at its heart the goal of developing new therapeutic strategies to treat patients. For example, the compositions and induction strategies disclosed herein have use for acute injuries such as stroke or trauma, and would be extremely useful in treating patients undergoing cardiac bypass surgery, neurosurgery or other surgical cohorts where ischemia is a risk. Further, patients with subarachnoid hemorrhage, transient ischemic attacks, soldiers at risk for blast injury or patients suffering from chronic neurodegenerative diseases would also benefit from enhanced neuronal survival based upon the techniques and compositions disclosed herein. In addition, protecting against cell death by, for example, interfering with PAR polymer signaling via the compositions and processes disclosed herein, offers new therapeutic strategies for the treatment of neurologic disorders.

Abstract: It is an object of the present invention to provide a method for producing pluripotent cells that are free of the risk of cellular canceration and that can be applied to regenerative medicine with a high degree of safety. The present invention provides a method for producing pluripotent cells from somatic cells comprising a step of bringing bacteria having fermentation ability or a component or secretory product thereof into contact with somatic cells.

Abstract: The present invention provides a prosthetic tissue or sheet capable of withstanding implantation operations, which can be used in actual operation and can be produced by culture. The present invention also provides a novel therapy which can substitute for cell therapy. Particularly, the present invention provides a method for producing a prosthetic tissue comprising a cell derived from a part other than myocardium and capable of withstanding implantation operation. The above-described objects of the present invention were partially achieved by finding that by culturing cells under specific culture conditions, the cells are unexpectedly organized into a tissue, and the resultant prosthetic tissue is capable of being detached from culture dishes. The present invention also provides a three-dimensional structure applicable to heart, comprising a cell derived from a part other than the myocardium of an adult.

Abstract: 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.

Abstract: Methods of disrupting germ cell migration and development in a fish embryo by inducing targeted expression of Sdf-1a or Lif and disruption of the Sdf-1a gradient or a Lif signaling pathway in the fish embryo have been developed. Plasmid constructs containing a gene encoding Sdf-1a or Lif and a gene encoding a signaling sequence for targeted expression of Sdf-1a or Lif have been generated. The plasmids will be administered to a fish or a population of fish to reproductively sterilize the population with efficacy of up to 100%. Transgenic fish of this invention are reproductively incompetent of genetically contaminating a wild fish population.

Abstract: The invention provides a method of improving the efficiency of establishment of induced pluripotent stem cells by increasing, in a nuclear reprogramming step of somatic cell, the level of activated form of one or more proteins selected from the group consisting of Ras family members, PI3 kinase, RalGEF, Raf, AKT family members, Rheb, TCL1 and S6K. The invention also provides a method of producing induced pluripotent stem cells by contacting a somatic cell with a nuclear reprogramming substance and one or more of such proteins and nucleic acids that encode such proteins. The invention further provides an induced pluripotent stem cell that has an exogenous nucleic acid encoding such a protein, as well as agents for use in the aforesaid methods.

Abstract: The invention describes methods and agents for improving cosmetic appearance, for promoting, improving or restoring health of cells and tissues, preferably skin, and more preferably, for restoring aged or damaged skin to a healthy appearance. In preferred embodiments, the methods and agents comprise active extracts produced from fish eggs. The invention further provides processes for making active fish egg extracts.

Abstract: The invention relates to a method for reprogramming cells from aged donors or senescent cells to pluripotent cells that have lost marks of senescence. In particular, the invention relates to an ex vivo method for preparing induced pluripotent stem cells (iPSCs) from a target cell population comprising cells from aged donors or senescent cells, said method comprising the steps of culturing said target cell population under appropriate conditions for reprogramming said cells into iPSCs, wherein said appropriate conditions comprises increasing expression in said target cells, of at least the following reprogramming factors: Oct4, Klf4, Sox2, c-Myc, Lin28 and, optionally Nanog.

Abstract: The invention relates to the field of cell culture, specifically, the derivation of retinal pigmented epithelial cells from pluripotent cells. The invention comprises the use of various cell culture medium supplements, medium formulations, and methods of using such medium supplements and formulations, in order to effect the rapid differentiation of pluripotent cells into retinal pigmented epithelial cells with very high yields. The invention further includes cell culture media formulations for the efficient maintenance, propagation, and maturation of cultured retinal pigmented epithelial cells.

Abstract: The present invention involves the identification of Bright/ARID3a as involved in the regulation of pluripotency in cells, and the targeting of that function for the regulation of pluripotency. Thus, methods of de-differentiating cells into pluripotent cells are provided, as well as methods for re-differentiating such cells in a controlled fashion.

Abstract: The present invention provides a method for selecting dopaminergic neuron progenitor cells, which comprises detecting any one or more of markers selected from the group consisting of CD15 (SSEA-1), CD24, CD46, CD47, CD49b, CD57, CD58, CD59, CD81, CD90, CD98, CD147, CD184, Disalogangliosid GD2, SSEA-4, CD49f, SERINC4, CCR9, PHEX, TMPRSS11E, HTR1E, SLC25A2, Ctxn3, Ccl7, Chrnb4, Chrna3, Kcnv2, Grm2, Syt2, Lim2, Mboat1, St3gal6, Slc39a12, Tacr1, Lrtm1, Dscam and CD201.

Abstract: The invention relates to compositions and methods for treating C. difficile associated disease (CDAD) through the administration to a subject in need thereof at least one nucleic acid encoding at least a portion of at least one of toxin A and toxin B.

Abstract: The present invention provides a method for producing recombinant prothrombin. The method comprises: providing a vector DNA into which a gene encoding a tag and a gene encoding prothrombin are incorporated, wherein the tag is selected from the group consisting of MBP, SUMO, and NusA; and expressing a tag fusion type prothrombin in a lepidopteran insect or cultured cells of the lepidopteran insect.

Abstract: The invention provides inter alia methods for differentiating embryonic stem cells into insulin producing cells, as well as compositions comprising such cells, and therapeutic uses of such compositions.

Abstract: The present invention provides modified oocytes having a nuclear genome derived from a first oocyte and cytoplasm derived from a second oocyte from a different subject, and methods for making and using such modified oocytes. The methods and compositions of the present invention can be useful in a variety of settings including, but not limited to, in in vitro fertilization (“IVF”) procedures.