Global H3.3 dynamic deposition defines its bimodal role in cell fate transition

10.1038/s41467-018-03904-7

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Main Authors:	Fang, H.-T, El Farran, C.A, Xing, Q.R, Zhang, L.-F, Li, H, Lim, B, Loh, Y.-H
Other Authors:	BIOLOGICAL SCIENCES
Format:	Article
Published:	Nature Publishing Group 2020
Subjects:	histone H3 kruppel like factor 4 mitochondrial DNA mitogen activated protein kinase Myc protein octamer transcription factor 4 transcription factor Otx2 transcription factor Sox2 chaperone collagen histone protein binding transcriptome cell differentiation gene expression genetic analysis protein animal cell Article cell fate cell proliferation cell transdifferentiation collagen metabolism collagen synthesis controlled study embryo embryonic stem cell fibroblast mouse nerve cell differentiation nonhuman nuclear reprogramming nucleosome promoter region protein expression animal cell differentiation cell lineage chemistry chromatin immunoprecipitation cytology genetics HEK293 cell line heterochromatin human MAPK signaling metabolism nerve cell pluripotent stem cell Retroviridae software Animals Cell Differentiation Cell Lineage Chromatin Immunoprecipitation Collagen Fibroblasts HEK293 Cells Heterochromatin Histone Chaperones Histones Humans MAP Kinase Signaling System Mice Neurons Nucleosomes Pluripotent Stem Cells Protein Binding Software Transcriptome
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/174227
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Institution:	National University of Singapore

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spelling	sg-nus-scholar.10635-1742272024-04-03T10:37:53Z Global H3.3 dynamic deposition defines its bimodal role in cell fate transition Fang, H.-T El Farran, C.A Xing, Q.R Zhang, L.-F Li, H Lim, B Loh, Y.-H BIOLOGICAL SCIENCES histone H3 kruppel like factor 4 mitochondrial DNA mitogen activated protein kinase Myc protein octamer transcription factor 4 transcription factor Otx2 transcription factor Sox2 chaperone collagen histone protein binding transcriptome cell collagen differentiation gene expression genetic analysis protein animal cell Article cell fate cell proliferation cell transdifferentiation collagen metabolism collagen synthesis controlled study embryo embryonic stem cell fibroblast mouse nerve cell differentiation nonhuman nuclear reprogramming nucleosome promoter region protein expression animal cell differentiation cell lineage chemistry chromatin immunoprecipitation cytology genetics HEK293 cell line heterochromatin human MAPK signaling metabolism nerve cell pluripotent stem cell Retroviridae software Animals Cell Differentiation Cell Lineage Chromatin Immunoprecipitation Collagen Fibroblasts HEK293 Cells Heterochromatin Histone Chaperones Histones Humans MAP Kinase Signaling System Mice Neurons Nucleosomes Pluripotent Stem Cells Protein Binding Retroviridae Software Transcriptome 10.1038/s41467-018-03904-7 Nature Communications 9 1 1537 2020-09-04T01:50:11Z 2020-09-04T01:50:11Z 2018 Article Fang, H.-T, El Farran, C.A, Xing, Q.R, Zhang, L.-F, Li, H, Lim, B, Loh, Y.-H (2018). Global H3.3 dynamic deposition defines its bimodal role in cell fate transition. Nature Communications 9 (1) : 1537. ScholarBank@NUS Repository. https://doi.org/10.1038/s41467-018-03904-7 2041-1723 https://scholarbank.nus.edu.sg/handle/10635/174227 Nature Publishing Group Unpaywall 20200831
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	histone H3 kruppel like factor 4 mitochondrial DNA mitogen activated protein kinase Myc protein octamer transcription factor 4 transcription factor Otx2 transcription factor Sox2 chaperone collagen histone protein binding transcriptome cell collagen differentiation gene expression genetic analysis protein animal cell Article cell fate cell proliferation cell transdifferentiation collagen metabolism collagen synthesis controlled study embryo embryonic stem cell fibroblast mouse nerve cell differentiation nonhuman nuclear reprogramming nucleosome promoter region protein expression animal cell differentiation cell lineage chemistry chromatin immunoprecipitation cytology genetics HEK293 cell line heterochromatin human MAPK signaling metabolism nerve cell pluripotent stem cell Retroviridae software Animals Cell Differentiation Cell Lineage Chromatin Immunoprecipitation Collagen Fibroblasts HEK293 Cells Heterochromatin Histone Chaperones Histones Humans MAP Kinase Signaling System Mice Neurons Nucleosomes Pluripotent Stem Cells Protein Binding Retroviridae Software Transcriptome
spellingShingle	histone H3 kruppel like factor 4 mitochondrial DNA mitogen activated protein kinase Myc protein octamer transcription factor 4 transcription factor Otx2 transcription factor Sox2 chaperone collagen histone protein binding transcriptome cell collagen differentiation gene expression genetic analysis protein animal cell Article cell fate cell proliferation cell transdifferentiation collagen metabolism collagen synthesis controlled study embryo embryonic stem cell fibroblast mouse nerve cell differentiation nonhuman nuclear reprogramming nucleosome promoter region protein expression animal cell differentiation cell lineage chemistry chromatin immunoprecipitation cytology genetics HEK293 cell line heterochromatin human MAPK signaling metabolism nerve cell pluripotent stem cell Retroviridae software Animals Cell Differentiation Cell Lineage Chromatin Immunoprecipitation Collagen Fibroblasts HEK293 Cells Heterochromatin Histone Chaperones Histones Humans MAP Kinase Signaling System Mice Neurons Nucleosomes Pluripotent Stem Cells Protein Binding Retroviridae Software Transcriptome Fang, H.-T El Farran, C.A Xing, Q.R Zhang, L.-F Li, H Lim, B Loh, Y.-H Global H3.3 dynamic deposition defines its bimodal role in cell fate transition
description	10.1038/s41467-018-03904-7
author2	BIOLOGICAL SCIENCES
author_facet	BIOLOGICAL SCIENCES Fang, H.-T El Farran, C.A Xing, Q.R Zhang, L.-F Li, H Lim, B Loh, Y.-H
format	Article
author	Fang, H.-T El Farran, C.A Xing, Q.R Zhang, L.-F Li, H Lim, B Loh, Y.-H
author_sort	Fang, H.-T
title	Global H3.3 dynamic deposition defines its bimodal role in cell fate transition
title_short	Global H3.3 dynamic deposition defines its bimodal role in cell fate transition
title_full	Global H3.3 dynamic deposition defines its bimodal role in cell fate transition
title_fullStr	Global H3.3 dynamic deposition defines its bimodal role in cell fate transition
title_full_unstemmed	Global H3.3 dynamic deposition defines its bimodal role in cell fate transition
title_sort	global h3.3 dynamic deposition defines its bimodal role in cell fate transition
publisher	Nature Publishing Group
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/174227
_version_	1795374325859090432

Global H3.3 dynamic deposition defines its bimodal role in cell fate transition

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