Provided are a novel medium for expressing glycoproteins by culturing cells and a method for producing glycoproteins by culturing cells in the medium. Further provided are a medium comprising uridine and N-acetyl-D-mannosamine for the use of expression of a glycoprotein by culturing cells and a method for producing glycoproteins by culturing cells in the medium.

The present invention pertains to a cell culture medium comprising media supplements that are shown to control recombinant protein glycosylation and/or cell culture in a controlled or modulated (shifted) temperature to control recombinant protein glycosylation and/or cell culture with controlled or modulated seed density to control recombinant protein glycosylation, and methods of using thereof. The present invention further pertains to a method of controlling or manipulating glycosylation of a recombinant protein of interest in a large scale cell culture.

A cell reprogramming composition and method wherein the composition includes a base molecule, ?-nicotinamide mononucleotide, trichostatin A and zwitterionic liposomes and wherein the method includes receiving a cell and reprogramming agents, wherein the reprogramming agents comprise Oct-4, Sox 2 and Klf4, to reprogram the cell to an embryonic state.

Described herein are cell culture media, kits and methods for preparing cell culture media, and methods for culturing cells, for example, cells of the female reproductive tract, and tumor cells.

The present invention provides methods and compositions for inducing pluripotency in differentiated mammalian cells. In particular, the methods include mechanically aggregating the cells into discrete masses or embryoid-like bodies and treated them with a small molecule compound. Provided herein are the compositions of the compounds which are derived from programin (e.g., reversine).

The present invention relates to chemically defined culture medium comprising at least glutamine, cysteine and/or cystine, adenine, guanine, aminobenzoic acid, nicotinaminde adenine dinucleotide and an iron salt for the rapid detection of a broad range of microorganisms comprising prokaryotes and eukaryotes.

The current teachings are directed to novel virus free cells lines derived from virus-contaminated staring material, such as an organism or a cell line. Methods for obtaining virus free cell lines obtained from virus-contaminated starting material are also provided. Exemplary virus free cell lines include: novel cell lines derived from a Spodoptera frugiperda cell line contaminated with Sf-rhabdovirus, wherein the novel cell lines lack Sf-rhabdovirus; and novel cell lines derived from a Trichoplusia ni cell line contaminated with an alphanodavirus, wherein the novel cell line lacks an alphanodavirus.

The present invention relates to adipose-derived stem cells (ASCs) and compositions, as well as methods for preparing and using such ASCs and compositions for therapy.

In one embodiment, the present application discloses a cell culture medium for culturing cell lines suitable for producing a therapeutic protein, comprising an amino acid selected from a group consisting of L-arginine, L-asparagine, L-proline, L leucine and L hydroxyproline and a mixture thereof; a vitamin selected from a group consisting of ascorbic acid Mg.sup.2+ salt, biotin, pyridoxine HCL, folic acid, riboflavin and D-calcium pantothenate, and a mixture thereof; an element selected from a group consisting of ammonium meta vanadate, sodium meta vanadate, germanium dioxide, barium acetate, aluminum chloride, rubidium chloride, cadmium chloride, ammonium molybedate, stannous chloride, cobalt chloride, chromium sulfate, silver nitrate, sodium metasilicate, zinc sulfate, manganese sulfate H.sub.2O, manganous chloride, ferric nitrate 9H.sub.2O, ferrous sulfate 7H.sub.2O, ferric ammonium citrate, magnesium chloride anhydrous, and magnesium sulfate anhydrous, and a mixture thereof; a nucleoside selected from a group consisting of uridine and cystidine; a sugar selected from a group consisting of galactose, mannose and N-Acetyl-D-Mannosamine; and a triple buffering system comprising sodium carbonate, sodium bicarbonate and HEPES; wherein the cell culture medium is animal component-free, plant component-free, serum-free, growth factors-free, recombinant protein-free, lipid-free, steroid-free, and free of plant or animal hydrolysates and/or extracts.

The present invention relates to compositions, methods and kits using cell phenotype altering polynucleotides, cell phenotype altering primary transcripts and cell phenotype altering mmRNA molecules.