Add to ORKGWe review experiments in which somatic cell nuclei are transplanted singly to enucleated eggs (metaphase II) in amphibia and mammals and as multiple nuclei to the germinal vesicle of amphibian oocytes (prophase I). These experiments have shown the totipotency of some somatic cell nuclei, as well as switches in cell type and changes in gene expression. Abnormalities of nuclear transplant embryo development increase greatlyas nuclei are taken from progressively more differentiated donor cells. The molecular changes that accompany the reprogramming of transplanted nuclei help to indicate the mechanisms used by eggs and oocytes to reprogram gene expression. We discuss the importance of chromosomal protein exchange, of transcription factor suppl...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
Nuclear reprogramming describes a switch in gene expression of one kind of cell to that of another u...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
Full-grown Xenopus oocytes in first meiotic prophase contain an immensely enlarged nucleus, the Germ...
Full-grown Xenopus oocytes in first meiotic prophase contain an immensely enlarged nucleus, the Germ...
Transplantation of Xenopus laevis cell nucleus to enucleated Xenopus egg leads to the ge...
Abstract In the course of normal development, cells rarely are able to revert from a differentiated ...
During the natural event of fertilization highly differentiated spermatozoa may revert to the totipo...
During the natural event of fertilization highly differentiated spermatozoa may revert to the totipo...
Oocytes are unique cells with the inherent capability to reprogram nuclei. The reprogramming of the ...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
The present study was conducted to examine the development of nuclear transplant embryos produced by...
Oocytes are unique cells with the inherent capability to reprogram nuclei. The reprogramming of the ...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
AbstractNuclear reprogramming by the transplantation of somatic cell nuclei to eggs (in second meiot...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
Nuclear reprogramming describes a switch in gene expression of one kind of cell to that of another u...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
Full-grown Xenopus oocytes in first meiotic prophase contain an immensely enlarged nucleus, the Germ...
Full-grown Xenopus oocytes in first meiotic prophase contain an immensely enlarged nucleus, the Germ...
Transplantation of Xenopus laevis cell nucleus to enucleated Xenopus egg leads to the ge...
Abstract In the course of normal development, cells rarely are able to revert from a differentiated ...
During the natural event of fertilization highly differentiated spermatozoa may revert to the totipo...
During the natural event of fertilization highly differentiated spermatozoa may revert to the totipo...
Oocytes are unique cells with the inherent capability to reprogram nuclei. The reprogramming of the ...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
The present study was conducted to examine the development of nuclear transplant embryos produced by...
Oocytes are unique cells with the inherent capability to reprogram nuclei. The reprogramming of the ...
Differentiated cells can be experimentally reprogrammed back to pluripotency by nuclear transfer, ce...
AbstractNuclear reprogramming by the transplantation of somatic cell nuclei to eggs (in second meiot...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...
Nuclear reprogramming describes a switch in gene expression of one kind of cell to that of another u...
Fertile offspring have been produced by nuclear transfer from adult somatic cells in several mammali...