Immunocompatible pluripotent stem cells (pSCs), which include cells compatible with different patient populations or patient-specific cells, find wide application in regenerative medicine therapies. Described herein are immunocompatible pSCs generated using techniques such as parthenogenesis resulting in cells possessing desired haplotypes of reduced zygosity, antigenically compatible with multiple patient populations, or nuclear transfer allowing generation of patient-specific cells. Methods described herein related to parthenogenesis, nuclear transfer, or pSC cell line generation. Also described herein are compositions of immunocompatible pSCs and cell lines generated by the aforementioned techniques.

Methods of producing human stem cells are disclosed for parthenogenetically activating human oocytes by manipulation of O.sub.2 tension, including manipulation of Ca.sup.2+ under high O.sub.2 tension and contacting oocytes with serine threonine kinase inhibitors under low O.sub.2 tension, isolating inner cell masses (ICMs) from the activated oocytes, and culturing the cells of the isolated ICMs under high O.sub.2 tension. Moreover, methods are described for the production of stems cells from activated oocytes in the absence of non-human animal products, including the use of human feeder cells/products for culturing ICM/stem cells. Stem cells produced by the disclosed methods are also described.

Methods are provided of generating functional human oocytes following nuclear transfer of first polar body (PB1) genomes from metaphase II (MII) oocytes into enucleated donor MII cytoplasm (PBNT) and using mitochondrial replacement techniques to circumvent mother-to-child mtDNA disease transmission.

Provided is a method for culturing immature oocytes. The method can promote in vitro maturation of the immature oocytes, and specifically comprises using follicular cells and a culture medium for culturing same. The culture medium for culturing the follicular cells contains CNP or variants thereof or analogues thereof and an HDAC (histone deacetylase) inhibitor. Also provided are the in vitro maturation culture medium containing CNP or variants thereof or analogues thereof and the HDAC inhibitor, and related compositions thereof, and the use of the above medium, culture medium and compositions in the promotion of in vitro maturation of the immature oocytes.

Semen and sperm cell processing and preservation systems, and methods of producing a mammal and methods of producing mammalian embryos are disclosed. The present invention is directed to sperm cell preservation, fertilization, and insemination, maintaining or enhancing sperm quality and addressing one or more sperm cell characteristics, such as viability, motility, functionality, fertilization rates, and pregnancy rates. Further, sperm cell characteristics may be addressed within the context of various collection, handling, separation, storage, transportation, usage, fertilization, or insemination techniques.

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.

A method of providing a culture of oogonia stem cells comprising oogonia stem cells is provided. The method may further include culturing the oogonia stem cells with granulosa and theca cells to differentiate the oogonia stem cells into oocytes. In some embodiments, the culturing comprises including the oogonia stem cells in an in vitro follicle construct or a microcapsule comprising said granulosa and theca cells. Further described herein is a method of forming a bioengineered follicle construct capable of releasing a mature oocyte. An in vitro fertilization method using the mature oocyte is also provided.

Compositions and methods for improving embryo development, treating idiopathic male factor infertility, and enabling infertile/sub-fertile/sterile men to father their own genetic offspring are provided. Typically, the methods include administering into a male or female gamete or fertilized embryo an effective amount of a compound that increases bioavailability of a TET protein to improve development of an embryo resulting from fertilization of the female gamete by a male gamete. The compound can be administered into the gamete or embryo before, during, or after fertilization. The compound can be administered by an injection such as intracytoplasmic injection. The compound and the male gamete can be administered in combination by intracytoplasmic sperm injection. Methods of making male gametes, and methods of modifying the genome of a male gamete or embryo using an effective amount of a gene editing composition to correct a gene mutation or anomaly in the genome thereof are also provided.

The present invention provides a novel oocyte maturation medium or/and embryo culture medium with a chemically defined supplement to produce matured oocytes at high efficiency. The inventive medium or supplement comprises three growth factors, namely, fibroblast growth factor 2 (FGF2), leukemia inhibitory factor (LIF), and insulin-like growth factor 1 (IGF-1) in a synergistic combination. Methods for oocyte and embryo culture are also provided.

An embryo, gamete or stem cell culture medium comprising: a) acetyl-carnitine at a concentration of about 5 to about 50 μM; and b) lipoic acid or a derivative thereof at a concentration of about 2.5 to about 40 μM. The culture medium may optionally further comprises acetyl-cysteine at a concentration of about 5 to about 50 μM.