The invention discloses a method for inhibiting the growth of cancer cells by use of an anti-cancer composition containing a conditioned cell culture medium from mesenchymal stem cells and cytokines. It comprises the steps of applying a composition with a conditioned cell culture medium from stem cells and at least one cytokine to cancer cells for growth inhibition of the cancer cells. The cell culture medium can be conditioned with Wharton's Jelly mesenchymal stem cells (WJMSCs) as an WJMSCs-conditoned cell culture medium, and the at least one cytokine is selected from a group consisting of bone morphogenetic protein-4, Dickkopf-related protein, Interferon-β and tumor necrosis factor-related apoptosis-inducing ligand.

The present disclosure relates to a method of generating bioartificial reptile leather by in vitro culturing of isolated cells the chorioallantois of hatched reptile eggs. The disclosure allows production of reptile leather without the ethical issues of conventional reptile farming and the trapping and killing of reptiles for their skin. Furthermore the disclosure allows production of reptile leather from species that are not abundantly available as skin products, such as from endangered species.

The present invention relates to stem cells derived from villi adjacent to the chorionic plate (VCP), and a cell therapeutic agent comprising same. Stem cells derived from the tissue of VCP comprising, of the total villi, the region that is ⅓ of the distance from the area adjacent to the chorionic plate up to the villus distal part, and the basal region of the villi, according to the present invention, exhibit uniform growth characteristics, and proliferation characteristics superior to those of stem cells derived from other placental tissue, and exhibit remarkably excellent differentiation into cartilage, bone and fat, thereby being effectively usable in various tissue regeneration treatments requiring the regeneration of cartilage, bone and fat, and, particularly, in cartilage regeneration and osteoarthritis treatment.

Disclosed herein are chimeric blastocysts, such as chimeric blastocysts derived from a host blastocyst from a first mammalian species and having donor pluripotent stem cells from a second mammalian species, wherein the donor pluripotent stem cells have reduced expression or reduced biological activity of one or more proteins in the TLR/NF-kB signaling pathway or the p53 pathway. Methods of preparing chimeric blastocysts and methods of obtaining mammalian organs and tissues are also provided.

Compositions comprising unseparated amnion/chorion derived from the placenta and methods of preparing and using those compositions are provided. Washing or preservation of placental tissue according to the methods of the disclosure may allow for one or more benefits such as more efficient removal of blood remnants, retention of wound healing and tissue regeneration components, better handling characteristics, increased absorption potential, or improved healing capacity. The present invention also includes methods of healing a wound of the skin, eye, nerve, tendon, or dura comprising applying the compositions of the invention to the wound.

[Problem] To provide a supporting bath useful for three-dimensional tissue culture and a method for producing cultured three-dimensional tissue by using the supporting bath. [Solution] Use of a supporting bath for three-dimensional tissue culture, that comprises polymer and water, wherein a thixotropic gel is formed in the bath with the gel being dissolvable in solvent. Also, use of a method for producing the supporting bath.

The present disclosure provides a recombinant herpesvirus of turkeys (HVT) and a preparation method and use thereof. The present disclosure specifically provides a recombinant HVT, where an exogenous gene is inserted in a spacer region between an HVT005 region and an HVT006 region of an HVT genome; and the exogenous gene is selected from a gene derived from the group consisting of a Newcastle disease virus (NDV), an avian influenza virus (AIV), and an infectious bursal disease virus (IBDV); the spacer region between an HVT005 region and an HVT006 region of an HVT genome is located between 8,867 nt and 9,319 nt of the HVT genome, and has a nucleotide sequence set forth in SEQ ID NO: 1.

The present invention relates to a cell line, use of the cell line and a method for producing infectious viral particles using said cell line.

The method for automated cell positioning can include: sampling a video of a scene having a gamete, tracking the gamete, and positioning the gamete within a target region. The method can optionally include: determining attribute values for the gamete, selecting the gamete, reorienting the gamete, and/or manipulating the gamete, and/or any suitable steps.

Described herein are methods of enhancing chromosomal homologous recombination to stimulate a loss of heterozygosity at a gene locus of interest in a living cell. These methods are driven by an enhancer component and a target-specific endonuclease component and proceed through a mechanism whereby: exogenous donor DNA that is homologous to the gene locus of interest is not introduced into the living cell; the desired allele of the gene locus of interest remains uncleaved; and the undesired allele is either uncleaved, cleaved at a single location, or cleaved at multiple locations. These methods have numerous applications, including the repair of risk alleles for disease prevention, the correction of heterozygous mutations in dividing cells, the design of cancer therapeutics, and the design of novel gene-drive strategies.