How various layers of epigenetic repression restrict somatic cell nuclear reprogramming is poorly understood. The transfer of mammalian somatic cell nuclei into Xenopus oocytes induces transcriptional reprogramming of previously repressed genes. Here, we address the mechanisms that restrict reprogramming following nuclear transfer by assessing the stability of the inactive X chromosome (Xi) in different stages of inactivation. We find that the Xi of mouse post-implantation-derived epiblast stem cells (EpiSCs) can be reversed by nuclear transfer, while the Xi of differentiated or extraembryonic cells is irreversible by nuclear transfer to oocytes. After nuclear transfer, Xist RNA is lost from chromatin of the Xi. Most epigenetic marks such a...
International audienceX-chromosome inactivation is established during early development. In mice, tr...
Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, it is not ...
金沢大学医薬保健研究域医学系Nuclear transfer ES (ntES) cells are established from cloned blastocysts generated by ...
How various epigenetic mechanisms restrict chromatin plasticity to determine the stability of repres...
Understanding the mechanism of resistance of genes to reactivation will help improve the success of ...
Understanding the mechanism of resistance of genes to reactivation will help improve the success of ...
SummaryMammalian oocytes can reprogram somatic cells into a totipotent state enabling animal cloning...
Genes on the inactive X chromosome (Xi) of female mam-mals are repressed in a remarkably stable mann...
How cell fate becomes restricted during somatic cell differentiation is a long-lasting question in b...
Somatic cell and early embryonic nuclei represent opposite ends of the differentiation spectrum. Som...
Summary: Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, i...
Patient-specific somatic cell reprogramming is likely to have a large impact on medicine by providin...
Mammalian oocytes can reprogramsomatic cells into a totipotent state enabling animal cloning through...
Includes bibliographical references (pages 25-31)The differentiated state of somatic cells can be re...
Patient-specific somatic cell reprogramming is likely to have a large impact on medicine by providin...
International audienceX-chromosome inactivation is established during early development. In mice, tr...
Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, it is not ...
金沢大学医薬保健研究域医学系Nuclear transfer ES (ntES) cells are established from cloned blastocysts generated by ...
How various epigenetic mechanisms restrict chromatin plasticity to determine the stability of repres...
Understanding the mechanism of resistance of genes to reactivation will help improve the success of ...
Understanding the mechanism of resistance of genes to reactivation will help improve the success of ...
SummaryMammalian oocytes can reprogram somatic cells into a totipotent state enabling animal cloning...
Genes on the inactive X chromosome (Xi) of female mam-mals are repressed in a remarkably stable mann...
How cell fate becomes restricted during somatic cell differentiation is a long-lasting question in b...
Somatic cell and early embryonic nuclei represent opposite ends of the differentiation spectrum. Som...
Summary: Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, i...
Patient-specific somatic cell reprogramming is likely to have a large impact on medicine by providin...
Mammalian oocytes can reprogramsomatic cells into a totipotent state enabling animal cloning through...
Includes bibliographical references (pages 25-31)The differentiated state of somatic cells can be re...
Patient-specific somatic cell reprogramming is likely to have a large impact on medicine by providin...
International audienceX-chromosome inactivation is established during early development. In mice, tr...
Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, it is not ...
金沢大学医薬保健研究域医学系Nuclear transfer ES (ntES) cells are established from cloned blastocysts generated by ...