about
The Chromatin Signature of Pluripotency: Establishment and MaintenancePluripotent Stem Cells: Current Understanding and Future DirectionsEchoes of the embryo: using the developmental biology toolkit to study cancerEpigenetic Research of Neurodegenerative Disorders Using Patient iPSC-Based ModelsEpigenetic inheritance and the missing heritabilityChromatin organization in pluripotent cells: emerging approaches to study and disrupt functionChromatin Dynamics in Lineage Commitment and Cellular ReprogrammingTranscription factor-mediated reprogramming toward hematopoietic stem cellsReprogramming of cell fate: epigenetic memory and the erasure of memories pastEpigenetic Mechanisms of Serotonin Signaling.Label-free DNA imaging in vivo with stimulated Raman scattering microscopy.Metabolic control of cancer cell stemness: Lessons from iPS cellsJMJD3 as an epigenetic regulator in development and diseaseLifetime stress experience: transgenerational epigenetics and germ cell programming.TET enzymes, TDG and the dynamics of DNA demethylation.Reprogramming the methylome: erasing memory and creating diversity.Epigenome Maintenance in Response to DNA DamageWidespread Mitotic Bookmarking by Histone Marks and Transcription Factors in Pluripotent Stem Cells.Chromatin module inference on cellular trajectories identifies key transition points and poised epigenetic states in diverse developmental processes.Prediction of Chromatin Accessibility in Gene-Regulatory Regions from Transcriptomics Data.Asymmetric cell division in plants: mechanisms of symmetry breaking and cell fate determination.Convergence of stem cell behaviors and genetic regulation between animals and plants: insights from the Arabidopsis thaliana stomatal lineage.Mechanisms for enhancing cellular reprogrammingMolecular control of induced pluripotency.H1foo Has a Pivotal Role in Qualifying Induced Pluripotent Stem CellsCell signalling pathways underlying induced pluripotent stem cell reprogrammingThe nexus of chromatin regulation and intermediary metabolism.De novo formation of insulin-producing "neo-β cell islets" from intestinal crypts.Combinatorial modulation of signaling pathways reveals cell-type-specific requirements for highly efficient and synchronous iPSC reprogramming.High-resolution molecular validation of self-renewal and spontaneous differentiation in clinical-grade adipose-tissue derived human mesenchymal stem cells.2-Oxoglutarate-dependent dioxygenases are sensors of energy metabolism, oxygen availability, and iron homeostasis: potential role in the regulation of aging process.CHD1L Regulated PARP1-Driven Pluripotency and Chromatin Remodeling During the Early-Stage Cell ReprogrammingCellular reprogramming for understanding and treating human disease.Induced Pluripotent Stem Cells Meet Genome EditingThe dosage of Patz1 modulates reprogramming process.RNA-binding proteins in pluripotency, differentiation, and reprogramming.X chromosome reactivation dynamics reveal stages of reprogramming to pluripotencySingle-cell transcriptome analysis reveals dynamic changes in lncRNA expression during reprogramming.Concise review: hematopoietic stem cell aging and the prospects for rejuvenationEpigenetic mechanisms of induced pluripotency.
P2860
Q26740030-EACFFB8C-B7FE-40F5-BF0A-FCD80A79FE8AQ26769981-CBD26857-596E-4772-8D4A-8F0F96A3B357Q26770157-403005BC-D6EB-4A0A-B3EC-CE9AE504EC98Q26772307-D04178E0-434E-4949-BC48-6B2947BB0B67Q26799140-5D7CE5AA-E33B-4275-94B3-CDF54DA339B5Q26800018-33C8F81D-3EA4-4A45-B248-64D6793C9272Q26801740-AD9C86D2-FB1C-40A8-B7B1-41C5B33DB727Q27023005-6AFB7069-A1C0-446F-8914-EBF492DFDA81Q27027748-BA3DFD42-2A68-4C4E-9607-5CB0EB4036BFQ27027985-AEC42EC8-9B4F-4B36-BB16-0A5AEB42328CQ27318691-9526FFE5-1229-4717-8BCC-9FE1E0A00E89Q28081608-9B0286CD-0BFD-4870-A022-F184406BA702Q28084146-99A7DB3D-F6A5-4AD2-AB8E-F1DEF7FA841AQ30427340-6501768A-7ED7-474A-816A-461290A58F63Q33715010-AF69ABD0-873D-4F00-8A7D-86ED0CED4023Q33732536-639D9205-C051-447A-A47F-F0F922A178EEQ33811644-5AE2A8D7-B129-4474-83CB-EA89E3FACE1AQ33865023-6240677F-661B-46DF-85F7-D50083F0A4EFQ33865195-47AA376B-45D0-4FC7-B68D-8A2932FDB716Q33875876-FB47EFE0-790E-48BE-954B-8A31487AF54FQ33924133-6ED0A0A5-D183-4EE1-91A0-8B97E1A8C3E2Q33942088-08A9DBD1-32B8-4F61-BEA0-D6456AE6E2EFQ33943321-5E11C92D-EA5A-411D-A377-BC6F946FC1C2Q33957979-771E5184-D9FB-4E34-97ED-243C936D8072Q34046907-32007465-3294-437D-984E-9840F1FD44DAQ34259132-82CB2F5F-7C6A-473C-8DD8-FB0D3535E8FFQ34379834-7B735962-3C85-41FB-9E95-D82EC31F0B00Q34409239-188AF40A-27B6-4BD8-ACBB-7816930E904FQ34469441-34AAEDB9-6666-4A76-BD8D-D77CC653B254Q34475901-6BB0E382-21D0-4492-B3A0-05C62C3F57BFQ34482634-31370156-F05E-44C7-B24A-666C13B83D6EQ34486397-32031C66-3097-40CB-B3D0-933EF5FB24C6Q34496408-A2527D13-D0B4-491E-95CE-97602FAFD118Q34525438-6DF87E61-C609-4314-BB43-EA62022D466DQ34719690-7666090A-4922-4AB4-8502-ECFF33292BC8Q34788864-4724D5D3-620B-456F-8392-6218DDEAE063Q34803951-447C2797-1E57-4B85-B53E-317474611D98Q34924833-F3048D5C-6216-43FA-A442-20CD07D47517Q35001363-082170D4-29E2-4FC2-AA6A-1369EAE7C7F7Q35066333-84C8380B-88E3-4548-8D3B-34D9A0F06881
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Chromatin dynamics during cellular reprogramming
@ast
Chromatin dynamics during cellular reprogramming
@en
Chromatin dynamics during cellular reprogramming
@nl
type
label
Chromatin dynamics during cellular reprogramming
@ast
Chromatin dynamics during cellular reprogramming
@en
Chromatin dynamics during cellular reprogramming
@nl
prefLabel
Chromatin dynamics during cellular reprogramming
@ast
Chromatin dynamics during cellular reprogramming
@en
Chromatin dynamics during cellular reprogramming
@nl
P2860
P3181
P356
P1433
P1476
Chromatin dynamics during cellular reprogramming
@en
P2093
Effie Apostolou
P2860
P2888
P304
P3181
P356
10.1038/NATURE12749
P407
P577
2013-10-24T00:00:00Z
P6179
1007961933