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Small Molecules Boost Skeletal Muscle Differentiation

New research uncovers small molecule drugs with the capacity to induce skeletal muscle differentiation from human pluripotent stem cells sources

Naively Does It! – New iPSC Generation Strategy Allows Better CRISPR Gene Editing

A new study finds that CRISPR functions more efficiently in naïve human pluripotent stem cells.

Pluripotency Regulation by HPAT5 - The Missing lincRNA?

A new study describes for the first time the functions of single lincRNA family members, and in doing so, describes how they can affect pluripotency and embryo development

Double Hit Boosts Neuron Production

Downregulating pluripotency before differentiation may enhance the production of therapeutically relevant neuronal cells from pluripotent cells

Natural Killer Cells from iPSCs – A Pure and Effective Patient Specific Cancer Treatment?

New research suggests that immune cells derived from induced pluripotent stem cells may be useful in the fight against cancer.

Bioprinting Stem Cells – A Viable Strategy to Create Transplantable Organs?

A new study shows that 3D printing of stem cells is viable, and may be used in the future as the basis of human organ construction in vivo.

MESP1 – Master of Mesendoderm?

Using a new strategy, researchers uncover new roles for Mesp1 as an important regulator of mesendodermal differentiation in mouse embryonic stem cells.

Patching Up the Heart – iPSC-Derived cardiomyocytes do the job!

Researchers show that an effective cardiac patch can be constructed cardiomyocytes derived from patient specific stem cells.

ELA – A New Member of the Pluripotency Network

Researchers discover a hormone peptide involved in regulating pluripotency in human embryonic stem cells.

Revealing the Cyclical Control of Stem Cell Bivalency

A new study highlights the unexpectedly dynamic nature of bivalent chromatin domains in stem cells and shows how the cell cycle mediates their formation.


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