Nuclear reprogramming to a pluripotent state by three approaches

The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be reprogrammed, altering its pattern of gene expression, and hence its fate, to that typical of another cell type. This has been shown by three di...

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Podrobná bibliografia
Vydané v:Nature (London) Ročník 465; číslo 7299; s. 704 - 712
Hlavní autori: Yamanaka, Shinya, Blau, Helen M.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: London Nature Publishing Group UK 10.06.2010
Nature Publishing Group
Predmet:
631/136/2444
631/136/532/2064
631/136/532/2435
631/1647/1513
Amphibians - embryology
Animals
Cell Fusion
Cellular Reprogramming - genetics
Cellular Reprogramming - physiology
Deoxyribonucleic acid
DNA
DNA methylation
Embryonic development
Embryonic stem cells
Gene expression
Humanities and Social Sciences
Humans
Induced Pluripotent Stem Cells - cytology
Induced Pluripotent Stem Cells - metabolism
Mammals
multidisciplinary
Nuclear Transfer Techniques
review-article
Science
Science (multidisciplinary)
Stem cells
Studies
Transcription Factors - genetics
Transcription Factors - metabolism
Transduction, Genetic
ISSN:0028-0836, 1476-4687, 1476-4687
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Abstract The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be reprogrammed, altering its pattern of gene expression, and hence its fate, to that typical of another cell type. This has been shown by three distinct experimental approaches to nuclear reprogramming: nuclear transfer, cell fusion and transcription-factor transduction. Using these approaches, nuclei from 'terminally differentiated' somatic cells can be induced to express genes that are typical of embryonic stem cells, which can differentiate to form all of the cell types in the body. This remarkable discovery of cellular plasticity has important medical applications.
AbstractList The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be reprogrammed, altering its pattern of gene expression, and hence its fate, to that typical of another cell type. This has been shown by three distinct experimental approaches to nuclear reprogramming: nuclear transfer, cell fusion and transcription-factor transduction. Using these approaches, nuclei from 'terminally differentiated' somatic cells can be induced to express genes that are typical of embryonic stem cells, which can differentiate to form all of the cell types in the body. This remarkable discovery of cellular plasticity has important medical applications.The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be reprogrammed, altering its pattern of gene expression, and hence its fate, to that typical of another cell type. This has been shown by three distinct experimental approaches to nuclear reprogramming: nuclear transfer, cell fusion and transcription-factor transduction. Using these approaches, nuclei from 'terminally differentiated' somatic cells can be induced to express genes that are typical of embryonic stem cells, which can differentiate to form all of the cell types in the body. This remarkable discovery of cellular plasticity has important medical applications.
The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be reprogrammed, altering its pattern of gene expression, and hence its fate, to that typical of another cell type. This has been shown by three distinct experimental approaches to nuclear reprogramming: nuclear transfer, cell fusion and transcription-factor transduction. Using these approaches, nuclei from 'terminally differentiated' somatic cells can be induced to express genes that are typical of embryonic stem cells, which can differentiate to form all of the cell types in the body. This remarkable discovery of cellular plasticity has important medical applications.
The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be reprogrammed, altering its pattern of gene expression, and hence its fate, to that typical of another cell type. This has been shown by three distinct experimental approaches to nuclear reprogramming: nuclear transfer, cell fusion and transcription-factor transduction. Using these approaches, nuclei from 'terminally differentiated' somatic cells can be induced to express genes that are typical of embryonic stem cells, which can differentiate to form all of the cell types in the body. This remarkable discovery of cellular plasticity has important medical applications. [PUBLICATION ABSTRACT]
Audience Academic
Author Yamanaka, Shinya
Blau, Helen M.
AuthorAffiliation 2 Gladstone Institute of Cardiovascular Disease, San Francisco, California 94158, USA
1 Center for iPS Cell Research and Application, Kyoto University, Kyoto 606-8507, Japan
3 Baxter Laboratory for Stem Cell Biology, Department of Microbiology and Immunology, Institute for Stem Cell Biology and Regenerative Medicine, Stanford University, California 94305, USA
AuthorAffiliation_xml – name: 3 Baxter Laboratory for Stem Cell Biology, Department of Microbiology and Immunology, Institute for Stem Cell Biology and Regenerative Medicine, Stanford University, California 94305, USA
– name: 1 Center for iPS Cell Research and Application, Kyoto University, Kyoto 606-8507, Japan
– name: 2 Gladstone Institute of Cardiovascular Disease, San Francisco, California 94158, USA
Author_xml – sequence: 1
  givenname: Shinya
  surname: Yamanaka
  fullname: Yamanaka, Shinya
  organization: Center for iPS Cell Research and Application, Kyoto University, Gladstone Institute of Cardiovascular Disease
– sequence: 2
  givenname: Helen M.
  surname: Blau
  fullname: Blau, Helen M.
  email: hblau2@stanford.edu
  organization: Department of Microbiology and Immunology, Baxter Laboratory for Stem Cell Biology, Institute for Stem Cell Biology and Regenerative Medicine, Stanford University
BackLink https://www.ncbi.nlm.nih.gov/pubmed/20535199$$D View this record in MEDLINE/PubMed
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Snippet The stable states of differentiated cells are now known to be controlled by dynamic mechanisms that can easily be perturbed. An adult cell can therefore be...
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SubjectTerms 631/136/2444
631/136/532/2064
631/136/532/2435
631/1647/1513
Amphibians - embryology
Animals
Cell Fusion
Cellular Reprogramming - genetics
Cellular Reprogramming - physiology
Deoxyribonucleic acid
DNA
DNA methylation
Embryonic development
Embryonic stem cells
Gene expression
Humanities and Social Sciences
Humans
Induced Pluripotent Stem Cells - cytology
Induced Pluripotent Stem Cells - metabolism
Mammals
multidisciplinary
Nuclear Transfer Techniques
review-article
Science
Science (multidisciplinary)
Stem cells
Studies
Transcription Factors - genetics
Transcription Factors - metabolism
Transduction, Genetic
Title Nuclear reprogramming to a pluripotent state by three approaches
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Volume 465
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