Polycomb function during oogenesis is required for mouse embryonic development.
about
Poised chromatin in the mammalian germ lineZygotic genome activation during the maternal-to-zygotic transitionSperm nuclear architecture is locally modified in presence of a Robertsonian translocation t(13;17)Normal formation of a vertebrate body plan and loss of tissue maintenance in the absence of ezh2.Maternal LSD1/KDM1A is an essential regulator of chromatin and transcription landscapes during zygotic genome activationPRC1 coordinates timing of sexual differentiation of female primordial germ cellsDrosophila epigenome reorganization during oocyte differentiation and early embryogenesis.Paternal heterochromatin formation in human embryos is H3K9/HP1 directed and primed by sperm-derived histone modifications.Reprogramming the genome to totipotency in mouse embryosThe spatiotemporal program of DNA replication is associated with specific combinations of chromatin marks in human cells.SCML2 establishes the male germline epigenome through regulation of histone H2A ubiquitination.Transcriptional silencing by polycomb-group proteinsEpigenetic dynamics during preimplantation development.Maternal control of early embryogenesis in mammalsUntangling the mysteries of maternal inheritance with polycombDynamic expression of chromatin modifiers during developmental transitions in mouse preimplantation embryos.The maternal to zygotic transition in mammals.Characterization of non-canonical Polycomb Repressive Complex 1 subunits during early mouse embryogenesis.TRPM7-like channels are functionally expressed in oocytes and modulate post-fertilization embryo development in mouseHistone post-translational modifications in preimplantation mouse embryos and their role in nuclear architecture.The epigenetics of early development: inferences from stem cells.Chromatin dynamics in the regulation of cell fate allocation during early embryogenesis.The controversial role of the Polycomb group proteins in transcription and cancer: how much do we not understand Polycomb proteins?The evolutionary landscape of PRC1 core components in green lineage.The Role of Maternal-Effect Genes in Mammalian Development: Are Mammalian Embryos Really an Exception?Cell Cycle Remodeling and Zygotic Gene Activation at the Midblastula Transition.Variant PRC1 complex-dependent H2A ubiquitylation drives PRC2 recruitment and polycomb domain formation.Enhancer of zeste acts as a major developmental regulator of Ciona intestinalis embryogenesis.Polycomb directs timely activation of germline genes in spermatogenesis.What we can learn from single-cell analysis in development.Telomere chromatin establishment and its maintenance during mammalian development.Molecular determinants of nucleosome retention at CpG-rich sequences in mouse spermatozoa.Loss of maternal EED results in postnatal overgrowth.Gene expression profile of a selection of Polycomb Group genes during zebrafish embryonic and germ line development.
P2860
Q26823737-3BA705EA-F4CC-467A-8E51-F59367CC71C2Q27026019-94B03997-FCD1-4934-9BC1-A67F4A0B1F1FQ27303613-A50A091D-6CCA-47BF-AED3-05D1B93127C6Q27320793-2BA9D4B7-14F7-43A9-957D-2F509AB2A989Q28272845-A10C0D36-C879-459D-817A-AF5FABE5F047Q28592833-A4C82467-E71D-4C60-A11C-497CA30BD58AQ34660628-DA35F9CA-126C-4BA6-B369-A062B186CECEQ34833234-0E297218-3577-4683-A69D-154EACD0A63EQ35034392-C2E3C29B-404C-4356-A888-B42E816FD9E9Q35160747-AFFEC854-85DE-4BBD-BB3E-CEAFEBE70E63Q35338785-88929C58-85EC-4529-94A7-1EC3C71DF8C0Q35548948-9DBF469C-25BB-4D4F-8183-3218C88A8501Q35930379-7CAD7CF4-104F-4B1D-80F0-A5EE95BBB4AFQ35984494-C9886634-1CE7-445D-BA0B-667FDB383D92Q36090304-FB4DD203-C9AF-49CD-83A5-67E720912498Q36099933-1B040F02-87D4-41A4-8E85-F705F3DAFCA5Q36893343-13DA5EEB-A098-4AFA-8CC0-AE871127C5F8Q37082669-5FA3E740-F842-4BC5-BF6B-881E3334CFCCQ37294005-CB23F5CF-B6AE-43FE-AD5B-17F6D2110C46Q38154836-AB6BDBCC-CF71-4734-9CDC-E4B8F2F05549Q38154838-8677EC07-0FF3-4C47-850A-2DCF4063FA9EQ38258849-00E66D2D-2C48-41BC-B5D0-68D4D3BA3D3FQ38260253-F8D1352D-5A36-4450-BD09-06BCD668854DQ38686478-261ACA21-7C3B-4677-9728-723E47A6A2E8Q38739786-22E4E412-4A55-439E-A133-46569ED470CEQ39038832-D877CEB8-9ED2-4063-8690-FDE15F7A68B6Q40406465-337F9141-4FA0-4E1A-9883-862A824AB9ADQ42183956-44FF9A0B-6700-4828-B462-48872C7A379AQ47781866-A3CCB408-F2E2-4501-9C46-380F6C86156AQ47814105-F5E68CC4-369B-4B08-9CC7-12D33CB29E87Q48103225-CC5DFD92-4BA2-4E50-B303-FFDD95589E02Q50904304-6004AA13-F7B1-43DB-ACFE-22AECD1DE605Q55646870-2A5B4B46-A004-495C-B3E5-F830E9CAF182Q55716936-64004F47-020E-4BCE-904B-9EA099A8B872
P2860
Polycomb function during oogenesis is required for mouse embryonic development.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Polycomb function during oogenesis is required for mouse embryonic development.
@ast
Polycomb function during oogenesis is required for mouse embryonic development.
@en
type
label
Polycomb function during oogenesis is required for mouse embryonic development.
@ast
Polycomb function during oogenesis is required for mouse embryonic development.
@en
prefLabel
Polycomb function during oogenesis is required for mouse embryonic development.
@ast
Polycomb function during oogenesis is required for mouse embryonic development.
@en
P2093
P2860
P356
P1433
P1476
Polycomb function during oogenesis is required for mouse embryonic development.
@en
P2093
Antoine H F M Peters
Erik Cabuy
Eszter Posfai
Juliette Salvaing
Maarten van Lohuizen
Mathieu Tardat
Miguel Vidal
Nathalie Beaujean
Rico Kunzmann
Tim C Roloff
P2860
P304
P356
10.1101/GAD.188094.112
P577
2012-04-12T00:00:00Z