Add to ORKGMany of the structural and mechanistic requirements of oocyte-mediated nuclear reprogramming remain elusive. Previous accounts that transcriptional reprogramming of somatic nuclei in mouse zygotes may be complete in 24–36 hours, far more rapidly than in other reprogramming systems, raise the question of whether the mere exposure to the activated mouse ooplasm is sufficient to enact reprogramming in a nucleus. We therefore prevented DNA replication and cytokinesis, which ensue after nuclear transfer, in order to assess their requirement for transcriptional reprogramming of the key pluripotency genes Oct4 (Pou5f1) and Nanog in cloned mouse embryos. Using transcriptome and allele-specific analysis, we observed that hundreds of mRNAs, but not O...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
AbstractGrowing mouse oocytes are physiologically arrested in the G2 phase of prophase of the first ...
Establishment of totipotency after somatic cell nuclear transfer (NT) requires not only reprogrammin...
A prevailing view of cloning by somatic-cell nuclear transfer is that reprogramming of gene expressi...
Mammalian somatic cell cloning requires factors specific to the oocyte for reprogramming to succeed....
Abstract Background Nuclear reprogramming reinstates totipotency or pluripotency in somatic cells by...
Enucleated oocytes have the distinctive ability to reprogram somatic nuclei back to totipotency. Her...
SUMMARY Mammalian oocytes have the ability to reset the transcriptional program of differentiated so...
SummaryIt is well known that oocytes can reprogram differentiated cells, allowing animal cloning by ...
Oocytes are unique cells with the inherent capability to reprogram nuclei. The reprogramming of the ...
Somatic cell nuclear transfer, an important approach for the analysis of certain functional changes ...
To date, there is a large body of information on the structural composition of oocytes and embryonic...
Nuclear transfer to oocytes is an efficient way to transcriptionally reprogram somatic nuclei, but i...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
AbstractNuclear reprogramming by the transplantation of somatic cell nuclei to eggs (in second meiot...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
AbstractGrowing mouse oocytes are physiologically arrested in the G2 phase of prophase of the first ...
Establishment of totipotency after somatic cell nuclear transfer (NT) requires not only reprogrammin...
A prevailing view of cloning by somatic-cell nuclear transfer is that reprogramming of gene expressi...
Mammalian somatic cell cloning requires factors specific to the oocyte for reprogramming to succeed....
Abstract Background Nuclear reprogramming reinstates totipotency or pluripotency in somatic cells by...
Enucleated oocytes have the distinctive ability to reprogram somatic nuclei back to totipotency. Her...
SUMMARY Mammalian oocytes have the ability to reset the transcriptional program of differentiated so...
SummaryIt is well known that oocytes can reprogram differentiated cells, allowing animal cloning by ...
Oocytes are unique cells with the inherent capability to reprogram nuclei. The reprogramming of the ...
Somatic cell nuclear transfer, an important approach for the analysis of certain functional changes ...
To date, there is a large body of information on the structural composition of oocytes and embryonic...
Nuclear transfer to oocytes is an efficient way to transcriptionally reprogram somatic nuclei, but i...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
AbstractNuclear reprogramming by the transplantation of somatic cell nuclei to eggs (in second meiot...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
AbstractGrowing mouse oocytes are physiologically arrested in the G2 phase of prophase of the first ...
Establishment of totipotency after somatic cell nuclear transfer (NT) requires not only reprogrammin...