Molecular signature of human embryonic stem cells and its comparison with the mouse

The molecular mechanism underlying pluripotency is largely unknown. Here, we provide the first global transcriptional profile of the state of "stemness" in human embryonic stem cells (HESCs). We have identified a set of 918 genes enriched in undifferentiated HESCs compared with their differentiated counterparts. These include ligand/receptor pairs and secreted inhibitors of the FGF, TGFbeta/BMP, and Wnt pathways, highlighting a prevalent role for these pathways in HESCs. Importantly, a significant number of HESCs-enriched genes, including several signaling components, are found to be intersected with published mouse embryonic stem cell data, indicating that a "core molecular program" is shared between the two pluripotent stem cells.

Molecular signature of human embryonic stem cells and its comparison with the mouse

Programming of Multicellular Patterning with Mechano-Chemically Microstructured Cell Niches

ISSCR standards for the use of human stem cells in basic research

Generation of Human iPSC-Derived Neurons on Nanowire Arrays Featuring Varying Lengths, Pitches, and Diameters

Programming of Multicellular Patterning with Mechano-Chemically Microstructured Cell Niches

ISSCR standards for the use of human stem cells in basic research

Generation of Human iPSC-Derived Neurons on Nanowire Arrays Featuring Varying Lengths, Pitches, and Diameters