Abstract: The present disclosure provides methods of generating germ layers from stem cells comprising culturing the stem cells in a culture medium having an osmolality less than 340 mOsm/kg. The present disclosure also includes a method to generate different cell lineages from the germ layers as well as to detect them by immunological methods. The present disclosure further provides methods for the generation, isolation, cultivation and propagation of committed progenitor cells and for the production of differentiated cells from the three germ layers. The present disclosure also provides culture media for use in inducing the three germ layers.

Abstract: The present disclosure provides methods of generating germ layers from stem cells comprising culturing the stem cells in a culture media having osmolality ranges that promote the generation of specific germ layer progenitor cells. The present disclosure also includes a method to generate different cell lineages from the germ layers as well as to detect them by immunological methods. The present disclosure further provides methods for the generation, isolation, cultivation and propagation of committed progenitor cells and for the production of differentiated cells from the three germ layers. The present disclosure also provides culture media and kits for use in inducing the three germ layers.

Abstract: The present disclosure provides methods of generating germ layers from stem cells comprising culturing the stem cells in a culture medium having an osmolality less than 340 mOsm/kg. The present disclosure also includes a method to generate different cell lineages from the germ layers as well as to detect them by immunological methods. The present disclosure further provides methods for the generation, isolation, cultivation and propagation of committed progenitor cells and for the production of differentiated cells from the three germ layers. The present disclosure also provides culture media for use in inducing the three germ layers.

Abstract: A neural colony forming cell (NCFC) assay is described. The assay allows one to distinguish neural stem cells from neural progenitor cells. In one embodiment, the present invention provides a method for identifying neural stem cells or neural progenitor cells comprising: (a) suspending neural cells in a semi-solid medium which supports the growth of neural cells; (b) plating the cells in the semi-solid medium at a density that allows for the production of colonies; (c) culturing the plated cells until size differences can be discerned between the colonies; and (d) estimating colony size wherein the larger colonies are likely produced by neural stem cells and wherein the small colonies are likely produced by neural progenitor cells In alternate embodiments, NSC can be distinguished from neural progenitor cells by determining the morphology or antigen expression of the colonies.

Abstract: A neural colony forming cell (NCFC) assay is described. The assay allows one to distinguish neural stem cells from neural progenitor cells. In one embodiment, the present invention provides a method for identifying neural stem cells or neural progenitor cells comprising: (a) suspending neural cells in a semi-solid medium which supports the growth of neural cells; (b) plating the cells in the semi-solid medium at a density that allows for the production of colonies; (c) culturing the plated cells until size differences can be discerned between the colonies; and (d) estimating colony size wherein the larger colonies are likely produced by neural stem cells and wherein the small colonies are likely produced by neural progenitor cells In alternate embodiments, NSC can be distinguished from neural progenitor cells by determining the morphology or antigen expression of the colonies.

Abstract: Improved colony forming cell (CFC) assays are described. The improved assay comprises modifications to the standard CFC assay that enable analysis of temporal, real-time changes in antigen expression during colony development without need to fixate or destroy the culture. The improved assay is applicable to hematopoietic CFC assays as well as to CFC assays for other cells, such as neural cells and mammary cells. In one embodiment, the invention comprises adding a detection reagent, most likely a fluorescently labeled antibody, that is specific for antigens (most likely a cell-surface antigen) expressed on progenitors or on specific mature cell types to a culture at the start or during culture. The invention also comprises modifications to the culture medium and cell preparations used in standard CFC assays to selectively promote the development of one colony type while preventing or suppressing the development of other colony types.

Abstract: A neural colony forming cell (NCFC) assay is described. The assay allows one to distinguish neural stem cells from neural progenitor cells. In one embodiment, the present invention provides a method for identifying neural stem cells or neural progenitor cells comprising: (a) suspending neural cells in a semi-solid medium which supports the growth of neural cells; (b) plating the cells in the semi-solid medium at a density that allows for the production of colonies; (c) culturing the plated cells until size differences can be discerned between the colonies; and (d) estimating colony size wherein the larger colonies are likely produced by neural stem cells and wherein the small colonies are likely produced by neural progenitor cells In alternate embodiments, NSC can be distinguished from neural progenitor cells by determining the morphology or antigen expression of the colonies.

Abstract: A Write Broadcast system and method uses a base station to write sent data to all or some selected number (sub group) of tags in a base station field simultaneously. By unselecting the tags that have been successfully written to, and requesting a response from the remaining tags in the field (or sub group), the system determines, by receiving a response to the request, that there are tags in the field (sub group) that were unsuccessfully written to. Another Write Broadcast signal is sent to these tags. The system is useful for quickly (simultaneously) “stamping” information on the tag memory of a large number of tags in the field of the base station.