The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells

Yuin Han Loh; Qiang Wu; Joon Lin Chew; Vinsensius B. Vega; Weiwei Zhang; Xi Chen; Guillaume Bourque; Joshy George; Bernard Leong; Jun Liu; Kee Yew Wong; Ken W. Sung; Charlie W.H. Lee; Xiao Dong Zhao; Kuo Ping Chiu; Leonard Lipovich; Vladimir A. Kuznetsov; Paul Robson; Lawrence W. Stanton; Chia Lin Wei; Yijun Ruan; Bing Lim; Huck Hui Ng

doi:10.1038/ng1760

The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells

Yuin Han Loh
, Qiang Wu
, Joon Lin Chew
, Vinsensius B. Vega
, Weiwei Zhang
, Xi Chen
, Guillaume Bourque
, Joshy George
, Bernard Leong
, Jun Liu
, Kee Yew Wong
, Ken W. Sung
, Charlie W.H. Lee
, Xiao Dong Zhao
, Kuo Ping Chiu
, Leonard Lipovich
, Vladimir A. Kuznetsov
, Paul Robson
, Lawrence W. Stanton
, Chia Lin Wei

Yijun Ruan^*, Bing Lim, Huck Hui Ng

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2061 Citations (Scopus)

Abstract

Oct4 and Nanog are transcription factors required to maintain the pluripotency and self-renewal of embryonic stem (ES) cells. Using the chromatin immunoprecipitation paired-end ditags method, we mapped the binding sites of these factors in the mouse ES cell genome. We identified 1,083 and 3,006 high-confidence binding sites for Oct4 and Nanog, respectively. Comparative location analyses indicated that Oct4 and Nanog overlap substantially in their targets, and they are bound to genes in different configurations. Using de novo motif discovery algorithms, we defined the cis-acting elements mediating their respective binding to genomic sites. By integrating RNA interference-mediated depletion of Oct4 and Nanog with microarray expression profiling, we demonstrated that these factors can activate or suppress transcription. We further showed that common core downstream targets are important to keep ES cells from differentiating. The emerging picture is one in which Oct4 and Nanog control a cascade of pathways that are intricately connected to govern pluripotency, self-renewal, genome surveillance and cell fate determination.

Original language	English
Pages (from-to)	431-440
Number of pages	10
Journal	Nature Genetics
Volume	38
Issue number	4
DOIs	https://doi.org/10.1038/ng1760
Publication status	Published - Apr 2006
Externally published	Yes

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Loh, Y. H., Wu, Q., Chew, J. L., Vega, V. B., Zhang, W., Chen, X., Bourque, G., George, J., Leong, B., Liu, J., Wong, K. Y., Sung, K. W., Lee, C. W. H., Zhao, X. D., Chiu, K. P., Lipovich, L., Kuznetsov, V. A., Robson, P., Stanton, L. W., ... Ng, H. H. (2006). The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells. Nature Genetics, 38(4), 431-440. https://doi.org/10.1038/ng1760

@article{4238ddc15f164d5e908f8bb56cfae1cf,

title = "The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells",

abstract = "Oct4 and Nanog are transcription factors required to maintain the pluripotency and self-renewal of embryonic stem (ES) cells. Using the chromatin immunoprecipitation paired-end ditags method, we mapped the binding sites of these factors in the mouse ES cell genome. We identified 1,083 and 3,006 high-confidence binding sites for Oct4 and Nanog, respectively. Comparative location analyses indicated that Oct4 and Nanog overlap substantially in their targets, and they are bound to genes in different configurations. Using de novo motif discovery algorithms, we defined the cis-acting elements mediating their respective binding to genomic sites. By integrating RNA interference-mediated depletion of Oct4 and Nanog with microarray expression profiling, we demonstrated that these factors can activate or suppress transcription. We further showed that common core downstream targets are important to keep ES cells from differentiating. The emerging picture is one in which Oct4 and Nanog control a cascade of pathways that are intricately connected to govern pluripotency, self-renewal, genome surveillance and cell fate determination.",

author = "Loh, \{Yuin Han\} and Qiang Wu and Chew, \{Joon Lin\} and Vega, \{Vinsensius B.\} and Weiwei Zhang and Xi Chen and Guillaume Bourque and Joshy George and Bernard Leong and Jun Liu and Wong, \{Kee Yew\} and Sung, \{Ken W.\} and Lee, \{Charlie W.H.\} and Zhao, \{Xiao Dong\} and Chiu, \{Kuo Ping\} and Leonard Lipovich and Kuznetsov, \{Vladimir A.\} and Paul Robson and Stanton, \{Lawrence W.\} and Wei, \{Chia Lin\} and Yijun Ruan and Bing Lim and Ng, \{Huck Hui\}",

year = "2006",

month = apr,

doi = "10.1038/ng1760",

language = "English",

volume = "38",

pages = "431--440",

journal = "Nature Genetics",

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Loh, YH, Wu, Q, Chew, JL, Vega, VB, Zhang, W, Chen, X, Bourque, G, George, J, Leong, B, Liu, J, Wong, KY, Sung, KW, Lee, CWH, Zhao, XD, Chiu, KP, Lipovich, L, Kuznetsov, VA, Robson, P, Stanton, LW, Wei, CL, Ruan, Y, Lim, B & Ng, HH 2006, 'The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells', Nature Genetics, vol. 38, no. 4, pp. 431-440. https://doi.org/10.1038/ng1760

TY - JOUR

T1 - The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells

AU - Loh, Yuin Han

AU - Wu, Qiang

AU - Chew, Joon Lin

AU - Vega, Vinsensius B.

AU - Zhang, Weiwei

AU - Chen, Xi

AU - Bourque, Guillaume

AU - George, Joshy

AU - Leong, Bernard

AU - Liu, Jun

AU - Wong, Kee Yew

AU - Sung, Ken W.

AU - Lee, Charlie W.H.

AU - Zhao, Xiao Dong

AU - Chiu, Kuo Ping

AU - Lipovich, Leonard

AU - Kuznetsov, Vladimir A.

AU - Robson, Paul

AU - Stanton, Lawrence W.

AU - Wei, Chia Lin

AU - Ruan, Yijun

AU - Lim, Bing

AU - Ng, Huck Hui

PY - 2006/4

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N2 - Oct4 and Nanog are transcription factors required to maintain the pluripotency and self-renewal of embryonic stem (ES) cells. Using the chromatin immunoprecipitation paired-end ditags method, we mapped the binding sites of these factors in the mouse ES cell genome. We identified 1,083 and 3,006 high-confidence binding sites for Oct4 and Nanog, respectively. Comparative location analyses indicated that Oct4 and Nanog overlap substantially in their targets, and they are bound to genes in different configurations. Using de novo motif discovery algorithms, we defined the cis-acting elements mediating their respective binding to genomic sites. By integrating RNA interference-mediated depletion of Oct4 and Nanog with microarray expression profiling, we demonstrated that these factors can activate or suppress transcription. We further showed that common core downstream targets are important to keep ES cells from differentiating. The emerging picture is one in which Oct4 and Nanog control a cascade of pathways that are intricately connected to govern pluripotency, self-renewal, genome surveillance and cell fate determination.

AB - Oct4 and Nanog are transcription factors required to maintain the pluripotency and self-renewal of embryonic stem (ES) cells. Using the chromatin immunoprecipitation paired-end ditags method, we mapped the binding sites of these factors in the mouse ES cell genome. We identified 1,083 and 3,006 high-confidence binding sites for Oct4 and Nanog, respectively. Comparative location analyses indicated that Oct4 and Nanog overlap substantially in their targets, and they are bound to genes in different configurations. Using de novo motif discovery algorithms, we defined the cis-acting elements mediating their respective binding to genomic sites. By integrating RNA interference-mediated depletion of Oct4 and Nanog with microarray expression profiling, we demonstrated that these factors can activate or suppress transcription. We further showed that common core downstream targets are important to keep ES cells from differentiating. The emerging picture is one in which Oct4 and Nanog control a cascade of pathways that are intricately connected to govern pluripotency, self-renewal, genome surveillance and cell fate determination.

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DO - 10.1038/ng1760

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AN - SCOPUS:33645381936

SN - 1061-4036

VL - 38

SP - 431

EP - 440

JO - Nature Genetics

JF - Nature Genetics

IS - 4

ER -

The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells

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