Skip to search formSkip to main contentSkip to account menu

Induced Pluripotent Stem Cell Lines Derived from Human Somatic Cells

Somatic cell nuclear transfer allows trans-acting factors present in the mammalian oocyte to reprogram somatic cell nuclei to an undifferentiated state. We show that four factors (OCT4, SOX2, NANOG,
View on Publisher (opens in a new tab)

Leukosialin (CD43) defines hematopoietic progenitors in human embryonic stem cell differentiation cultures.

It is demonstrated that early progenitors committed to hematopoietic development could be identified by surface expression of leukosialin (CD43) and it was demonstrated that the first-appearing CD34(+)CD43(-)CD235a(+) CD41a(+/-)CD45(-) cells represent precommitted erythro-megakaryocytic progenitor.
View on PubMed (opens in a new tab)

Human embryonic stem cell-derived CD34+ cells: efficient production in the coculture with OP9 stromal cells and analysis of lymphohematopoietic potential.

Data indicate that CD34+ cells generated through hES/OP9 coculture display several features of definitive hematopoietic stem cells.
View on PubMed (opens in a new tab)

Efficient Feeder-Free Episomal Reprogramming with Small Molecules

Improvements in episomal reprogramming efficiency are greatly improved and enabled the routine derivation of footprint-free human iPSCs from skin fibroblasts, adipose tissue-derived cells and cord blood cells.
View PDF (opens in a new tab)

Hematopoietic and Endothelial Differentiation of Human Induced Pluripotent Stem Cells

Although several issues remain to be resolved before iPSC‐derived blood cells can be administered to humans for therapeutic purposes, patient‐specific iPSCs can already be used for characterization of mechanisms of blood diseases and for identification of molecules that can correct affected genetic networks.
View on Wiley (opens in a new tab)

A mesoderm-derived precursor for mesenchymal stem and endothelial cells.

View on PubMed (opens in a new tab)

Identification of the hemogenic endothelial progenitor and its direct precursor in human pluripotent stem cell differentiation cultures.

View on PubMed (opens in a new tab)

Generation of mature human myelomonocytic cells through expansion and differentiation of pluripotent stem cell-derived lin-CD34+CD43+CD45+ progenitors.

A protocol for efficient generation of neutrophils, eosinophils, macrophages, osteoclasts, DCs, and Langerhans cells from human embryonic stem cells (hESCs) was developed and it was demonstrated that a similar protocol could be used to generate myelomonocytic cells from induced pluripotentstem cells (iPSCs).
View on PubMed (opens in a new tab)

Direct Induction of Hematoendothelial Programs in Human Pluripotent Stem Cells by Transcriptional Regulators

It is demonstrated that two distinct genetic programs regulate the hematopoietic development from hPSCs and that both of these programs specify h PSCs directly to hemogenic endothelial cells.
View on PubMed (opens in a new tab)

Hematopoietic differentiation and production of mature myeloid cells from human pluripotent stem cells

In this paper, we describe a protocol for hematopoietic differentiation of human pluripotent stem cells (hPSCs) and generation of mature myeloid cells from hPSCs through expansion and differentiation
View on Nature (opens in a new tab)
By clicking accept or continuing to use the site, you agree to the terms outlined in our Privacy Policy (opens in a new tab), Terms of Service (opens in a new tab), and Dataset License (opens in a new tab)