Cell differentiation is remarkably stable but can be reversed by somatic cell nuclear transfer, cell fusion, and iPS. Nuclear transfer to amphibian oocytes provides a special opportunity to test transcriptional reprogramming without cell division. We show here that, after nuclear transfer to amphibian oocytes, mitotic chromatin is reprogrammed up to 100 times faster than interphase nuclei. We find that, as cells traverse mitosis, their genes pass through a temporary phase of unusually high responsiveness to oocyte reprogramming factors (mitotic advantage). Mitotic advantage is not explained by nuclear penetration, DNA modifications, histone acetylation, phosphorylation, methylation, nor by salt soluble chromosomal proteins. Our results sugg...
How various layers of epigenetic repression restrict somatic cell nuclear reprogramming is poorly un...
Amphibian oocytes can rapidly and efficiently reprogram the transcription of transplanted somatic nu...
SummaryCompared to sperm nuclei, nuclei from adult somatic cells replicate inefficiently in frog egg...
<div><p>Cell differentiation is remarkably stable but can be reversed by somatic cell nuclear transf...
Summary: Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, i...
Nuclear transfer to oocytes is an efficient way to transcriptionally reprogram somatic nuclei, but i...
Nuclear transfer to oocytes is an efficient way to transcriptionally reprogram somatic nuclei, but i...
SummaryAnimal cloning by nuclear-transfer experiments frequently fails due to the inability of trans...
Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, it is not ...
Transplantation of Xenopus laevis cell nucleus to enucleated Xenopus egg leads to the ge...
Full-grown Xenopus oocytes in first meiotic prophase contain an immensely enlarged nucleus, the Germ...
How various epigenetic mechanisms restrict chromatin plasticity to determine the stability of repres...
Abstract In the course of normal development, cells rarely are able to revert from a differentiated ...
We review experiments in which somatic cell nuclei are transplanted singly to enucleated eggs (metap...
During mitosis, chromosomes are highly condensed and transcription is silenced globally. One explana...
How various layers of epigenetic repression restrict somatic cell nuclear reprogramming is poorly un...
Amphibian oocytes can rapidly and efficiently reprogram the transcription of transplanted somatic nu...
SummaryCompared to sperm nuclei, nuclei from adult somatic cells replicate inefficiently in frog egg...
<div><p>Cell differentiation is remarkably stable but can be reversed by somatic cell nuclear transf...
Summary: Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, i...
Nuclear transfer to oocytes is an efficient way to transcriptionally reprogram somatic nuclei, but i...
Nuclear transfer to oocytes is an efficient way to transcriptionally reprogram somatic nuclei, but i...
SummaryAnimal cloning by nuclear-transfer experiments frequently fails due to the inability of trans...
Oocytes have a remarkable ability to reactivate silenced genes in somatic cells. However, it is not ...
Transplantation of Xenopus laevis cell nucleus to enucleated Xenopus egg leads to the ge...
Full-grown Xenopus oocytes in first meiotic prophase contain an immensely enlarged nucleus, the Germ...
How various epigenetic mechanisms restrict chromatin plasticity to determine the stability of repres...
Abstract In the course of normal development, cells rarely are able to revert from a differentiated ...
We review experiments in which somatic cell nuclei are transplanted singly to enucleated eggs (metap...
During mitosis, chromosomes are highly condensed and transcription is silenced globally. One explana...
How various layers of epigenetic repression restrict somatic cell nuclear reprogramming is poorly un...
Amphibian oocytes can rapidly and efficiently reprogram the transcription of transplanted somatic nu...
SummaryCompared to sperm nuclei, nuclei from adult somatic cells replicate inefficiently in frog egg...