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Epigenetic memory: H3.3 steps in the groove.
Author(s):
Genevieve Almouzni
,
Nicolas Lacoste
Publication date:
2007-12-31
Journal:
Nature cell biology
Keywords:
Animals
,
Embryo, Nonmammalian
,
cytology
,
embryology
,
metabolism
,
Epigenesis, Genetic
,
Gene Expression Regulation, Developmental
,
Histones
,
genetics
,
Models, Biological
,
Nuclear Transfer Techniques
,
Transcription, Genetic
,
Xenopus
,
Xenopus Proteins
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Cite as...
There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.
Related collections
Embodied Memory
Author and article information
Journal
PubMed ID::
18172425
DOI::
10.1038/ncb0108-7
ScienceOpen disciplines:
Chemistry
Keywords:
Animals
,
Embryo, Nonmammalian
,
cytology
,
embryology
,
metabolism
,
Epigenesis, Genetic
,
Gene Expression Regulation, Developmental
,
Histones
,
genetics
,
Models, Biological
,
Nuclear Transfer Techniques
,
Transcription, Genetic
,
Xenopus
,
Xenopus Proteins
Data availability:
ScienceOpen disciplines:
Chemistry
Keywords:
Animals
,
Embryo, Nonmammalian
,
cytology
,
embryology
,
metabolism
,
Epigenesis, Genetic
,
Gene Expression Regulation, Developmental
,
Histones
,
genetics
,
Models, Biological
,
Nuclear Transfer Techniques
,
Transcription, Genetic
,
Xenopus
,
Xenopus Proteins
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