Add to ORKGTo harness the potential of ES (embryonic stem) cells for human therapy, technology to develop the large-scale expansion and differentiation of these cells is required. In the present study, we tested various conditions for the expansion and neural commitment of mouse ES cells, using a cell line with a fluorescent re-porter, which allows the monitoring of these processes by flow cytometry. The expansion of the 46C ES cell line in the presence of two different media [serum-free ESGRO CompleteTM and DMEM (Dulbecco’s modified Eagle’s medium) containing 10 % (v/v) fetal bovine serum] was compared. Both media yielded similar cell fold increases at two different initial cell densities and were able to maintain neural commitment potential during e...
Pluripotent murine embryonic stem (ES) cells can differentiate into all cell types both in vivo and ...
Chinese Kunming mice (Mus musculus Km), widely used as laboratory animals throughout China, remain v...
Microcarrier expansion of mouse embryonic stem cell-derived neural stem cells in stirred bioreactor
Running Head: Large-scale expansion of mouse ES cells 2 A large-scale stirred culture system for the...
Most stem cell laboratories still rely on old culture methods to support the expansion and maintenan...
Embryonic cells inside the blastocyst, which divide and differentiate into cells of all tissues of o...
Most stem cell laboratories still rely on old culture methods to support the expansion and maintenan...
The ability to differentiate mouse embryonic stem cells (ESC) to neural progenitors allows the study...
Mouse embryonic stem (ES) cells are competent for production of all fetal and adult cell types. Howe...
The objective of this research was to determine the appropriate cell culture conditions for embryoni...
Abstract only availableThe transplantation of neuralized stem cells holds the promise of providing n...
Pluripotent embryonic stem cells (ESCs) have recently been considered as a primary material for rege...
Abstract Background Human stem cells are cellular resources with outstanding potential for cell ther...
The realization of many stem cell-based therapies will rely on the development of methods for the ex...
In this chapter we illustrate protocols to investigate growth and neurotrophic factors in humans and...
Pluripotent murine embryonic stem (ES) cells can differentiate into all cell types both in vivo and ...
Chinese Kunming mice (Mus musculus Km), widely used as laboratory animals throughout China, remain v...
Microcarrier expansion of mouse embryonic stem cell-derived neural stem cells in stirred bioreactor
Running Head: Large-scale expansion of mouse ES cells 2 A large-scale stirred culture system for the...
Most stem cell laboratories still rely on old culture methods to support the expansion and maintenan...
Embryonic cells inside the blastocyst, which divide and differentiate into cells of all tissues of o...
Most stem cell laboratories still rely on old culture methods to support the expansion and maintenan...
The ability to differentiate mouse embryonic stem cells (ESC) to neural progenitors allows the study...
Mouse embryonic stem (ES) cells are competent for production of all fetal and adult cell types. Howe...
The objective of this research was to determine the appropriate cell culture conditions for embryoni...
Abstract only availableThe transplantation of neuralized stem cells holds the promise of providing n...
Pluripotent embryonic stem cells (ESCs) have recently been considered as a primary material for rege...
Abstract Background Human stem cells are cellular resources with outstanding potential for cell ther...
The realization of many stem cell-based therapies will rely on the development of methods for the ex...
In this chapter we illustrate protocols to investigate growth and neurotrophic factors in humans and...
Pluripotent murine embryonic stem (ES) cells can differentiate into all cell types both in vivo and ...
Chinese Kunming mice (Mus musculus Km), widely used as laboratory animals throughout China, remain v...
Microcarrier expansion of mouse embryonic stem cell-derived neural stem cells in stirred bioreactor