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Dr. Johan Jakobsson is a Professor of Molecular Neurogenetics at the Lund Stem Cell Center. His research focuses on epigenetic mechanisms of the brain, including the role of microRNAs, long non-coding RNAs, and endogenous retroelements in neural stem cells and neurons.
Intestinal Organoids to Model Self-Organization – Researchers found that stem cell zones in intestinal organoid cultures are shaped by fission events, and that organoid inflation drives stem cell differentiation.
Wound Healing Without Scarring – Preventing Engrailed-1 activation during wound healing promotes skin regeneration with recovery of skin appendages, ultrastructure, and mechanical strength.
Differentiation Unmasks Hidden Aspects of Aging in Stem Cells – Scientists used single-cell RNA sequencing to study age-related changes in muscle stem cells and fibro-adipose progenitors, and found an energy barrier in myogenic differentiation.
Human-Monkey Chimeric Embryos – Researchers demonstrated that hEPSCs survived, proliferated, and generated several peri- and early post-implantation cell lineages inside monkey embryos.
Photo Reference: Courtesy of Dr. Johan Jakobsson
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By The Stem Cell Podcast4.7
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Dr. Johan Jakobsson is a Professor of Molecular Neurogenetics at the Lund Stem Cell Center. His research focuses on epigenetic mechanisms of the brain, including the role of microRNAs, long non-coding RNAs, and endogenous retroelements in neural stem cells and neurons.
Intestinal Organoids to Model Self-Organization – Researchers found that stem cell zones in intestinal organoid cultures are shaped by fission events, and that organoid inflation drives stem cell differentiation.
Wound Healing Without Scarring – Preventing Engrailed-1 activation during wound healing promotes skin regeneration with recovery of skin appendages, ultrastructure, and mechanical strength.
Differentiation Unmasks Hidden Aspects of Aging in Stem Cells – Scientists used single-cell RNA sequencing to study age-related changes in muscle stem cells and fibro-adipose progenitors, and found an energy barrier in myogenic differentiation.
Human-Monkey Chimeric Embryos – Researchers demonstrated that hEPSCs survived, proliferated, and generated several peri- and early post-implantation cell lineages inside monkey embryos.
Photo Reference: Courtesy of Dr. Johan Jakobsson
Never miss updates about new episodes.

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