Methods of enhancing fertility of a female subject by increasing the number of oogonia present in the ovary of the female subject are provided. Aspects of the methods include methods of in vivo expansion of oogonia as well as methods of ex vivo expansion of oogonia.

The present application provides methods and devices for the production and recovery of cell aggregates. In one embodiment, the device is a microwell device with a high density of microwells. The application also provides a device for extracting cell aggregates such as stem cells or embryoid bodies from well plates. Such cell aggregates are used for the differentiation of pluripotent stem cells such as embryonic stem cells, in the fields of developmental biology and regenerative medicine/tissue engineering.

Provides are approaches for anticancer and antiaging treatments by administration of reverse transcriptase (RT) activity inhibitors that function to inhibit RT encoded by ORF2 of LINE1, or any RT that can participate in transcriptional activation of retroelements. Also provided are approaches to discovery of new compounds that can inhibit RTs, and identifying individuals who would benefit from treatment with such RT inhibitors, and treating such individuals. The methods are applicable for use in populations of cancer cells, pre-cancerous cells, somatic cells, and combinations thereof. Also provided are methods for monitoring the efficacy of a treatment that inhibits development of resistance to pharmaceutical agents, methods for prophylaxis and/or therapy for a pathology correlated with accumulation of somatic cells capable of spontaneously generating genetic alterations independently of cell divisions, wherein such cells express functional LINE1 elements. Also provides are methods for treating and/or preventing age-related conditions in an individual by administering an agent capable of selectively killing the cells that exhibit genetic instability as evidenced by expression of functional LINE 1. Also provided are methods for sensitizing cancer cells to a chemotherapeutic agent by administering an RT inhibitor.

The present disclosure relates to methods of and systems for modifying the transcriptional regulation of stem or progenitor cells to promote their differentiation or reprogramming of somatic cells. Further, the labeling and editing of human genomic loci in live cells with three orthogonal CRISPR/Cas9 components allow multicolor detection of genomic loci with high spatial resolution, which provides an avenue for barcoding elements of the human genome in the living state.

The present disclosure provides populations of synchronized post-mitotic migratory cortical interneurons (cINS) derived from pluripotent stem cells and cell culture methods for generating said populations of cINs. The disclosure also provides efficient methods for cryopreservation of the derived cINs.

Disclosed is a small molecule compound composition that efficiently induces the differentiation of human pluripotent stem cells into myocardial cells. In particular, provided in the present invention is a small molecule compound composition. The small molecule compound composition comprises the following components: (i) an mTOR signaling pathway inhibitor; (ii) a Wnt pathway promoter; and (iii) optionally, a pharmaceutically acceptable carrier. The small molecule compound composition in the present invention can efficiently induce the differentiation of human pluripotent stem cells into myocardial cells. The preliminarily screened cardiomyocyte differentiation rate reaches up to 86%, and the optimized cardiomyocyte differentiation rate reaches up to 98.3%.

The present invention provides methods to promote the differentiation of pluripotent stem cells and the products related to or resulting from such methods. In particular, the present invention provides an improved method for the formation of pancreatic hormone expressing cells and pancreatic hormone secreting cells. In addition, the present invention also provides methods to promote the differentiation of pluripotent stem cells without the use of a feeder cell layer and the products related to or resulting from such methods. The present invention also provides methods to promote glucose-stimulated insulin secretion in insulin-producing cells derived from pluripotent stem cells.

Methods, systems, and compositions are provided for extracting bone marrow cells from bone obtained from deceased donors, for preparing the bone marrow for cryopreservation, and for obtaining desired cells from cryopreserved and fresh bone marrow.

The invention relates to dendritic cells, the NFκB signaling pathway of which has been manipulated by RNA transfection, to the manufacture Thereof and to use thereof.

Human corneal endothelial cells and/or human corneal endothelial precursor cells are preserved with a high survival rate of these cells being maintained, and the occurrence rate of contaminated cells in post-preservation culturing is suppressed. A storage method of human corneal endothelial cells and/or human corneal endothelial precursor cells is characterized in that human corneal endothelial cells and/or human corneal endothelial precursor cells that have been cultured using a culture medium that contains a ROCK inhibitor, and in which the content of epidermal growth factor (EGF) is less than a concentration that will cause a transformation are harvested at a timing when any one of or a plurality of the conditions (a)˜(d) have been met, and are placed in a suspension state and then preserved.