Disclosures herein are directed to chemically defined animal-derived component free supplements designed for individual cell types that supports the ex vivo growth of cells as well or better than serum, in chemically defined conditions.

Methods of making neuronal stem cells and exosomes of diencephalon lineage are disclosed. Also provided are compositions comprising neuronal stem cells or exosomes of diencephalon lineage, which may be formulated as pharmaceutical formulations for the treatment and prevention of disorders associated with the neuroendocrine system and the control of behavioral and physiological processes.

The invention provides novel methods and compositions for microspore embryogenesis and the production of doubled haploid embryos. For example, the methods provided include the steps of sterilization of pepper buds, microspore isolation from sterilized buds, liquid culture of microspores, a double-layer subculture, embryo harvest for germination and conversion to plantlets, and acclimatization of cultured plantlets.

The present invention pertains to methods for manufacturing high titer antibody products. In particular, the invention pertains, in part, to improved serum-free animal cell culture medium, which can used for the production of a protein of interest. Additionally, the present invention further pertains to chromatographic procedures employed to successfully isolate the antibody product subject of the present disclosure.

A SMAC mimetic and pharmaceutical compositions thereof and methods of use.

Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.

The present invention relates to the production of cell cultures and tissues from undifferentiated pluripotent stem cells using three-dimensional biomimetic materials. The resultant cell cultures or tissues can be used in any of a number of protocols including testing chemicals, compounds, and drugs. Further, the methods and compositions of the present invention further provide viable cell sources and novel cell delivery platforms that allow for replacement of diseased tissue and engraftment of new cardiomyocytes from a readily available in vitro source. The present invention includes novel methods required for the successful production of cell cultures and tissues, systems and components used for the same, and methods of using the resultant cell and tissue compositions.

Provided herein are methods of producing β cells and precursors thereof utilizing a Wnt signaling inhibitor or PKC activator, or both. Also provided herein are in vitro cultures comprising said cells, methods of treating a subject with a disease characterized by high blood sugar levels over a prolonged period of time by administering said cells, and devices for encapsulating said cells.

Cell culture media are provided herein as are methods of using the media for cell culture and protein production from cells.

Cell culture media are provided herein as are methods of using the media for cell culture and protein production from cells.