Systematic repression of transcription factors reveals limited patterns of gene expression changes in ES cells

Akira Nishiyama; Alexei A. Sharov; Yulan Piao; Misa Amano; Tomokazu Amano; Hien G. Hoang; Bernard Y. Binder; Richard Tapnio; Uwem Bassey; Justin N. Malinou; Lina S. Correa-Cerro; Hong Yu; Li Xin; Emily Meyers; Michal Zalzman; Yuhki Nakatake; Carole Stagg; Lioudmila Sharova; Yong Qian; Dawood Dudekula; Sarah Sheer; Jean S. Cadet; Tetsuya Hirata; Hsih Te Yang; Ilya Goldberg; Michele K. Evans; Dan L. Longo; David Schlessinger; Minoru S.H. Ko

doi:10.1038/srep01390

Systematic repression of transcription factors reveals limited patterns of gene expression changes in ES cells

Akira Nishiyama, Alexei A. Sharov, Yulan Piao, Misa Amano, Tomokazu Amano, Hien G. Hoang, Bernard Y. Binder, Richard Tapnio, Uwem Bassey, Justin N. Malinou, Lina S. Correa-Cerro, Hong Yu, Li Xin, Emily Meyers, Michal Zalzman, Yuhki Nakatake, Carole Stagg, Lioudmila Sharova, Yong Qian, Dawood DudekulaSarah Sheer, Jean S. Cadet, Tetsuya Hirata, Hsih Te Yang, Ilya Goldberg, Michele K. Evans, Dan L. Longo, David Schlessinger, Minoru S.H. Ko

研究成果: Article › 査読

47 被引用数 (Scopus)

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Networks of transcription factors (TFs) are thought to determine and maintain the identity of cells. Here we systematically repressed each of 100 TFs with shRNA and carried out global gene expression profiling in mouse embryonic stem (ES) cells. Unexpectedly, only the repression of a handful of TFs significantly affected transcriptomes, which changed in two directions/ trajectories: one trajectory by the repression of either Pou5f1 or Sox2; the other trajectory by the repression of either Esrrb, Sall4, Nanog, or Tcfap4. The data suggest that the trajectories of gene expression change are already preconfigured by the gene regulatory network and roughly correspond to extraembryonic and embryonic fates of cell differentiation, respectively. These data also indicate the robustness of the pluripotency gene network, as the transient repression of most TFs did not alter the transcriptomes.

本文言語	English
論文番号	1390
ジャーナル	Scientific reports
巻	3
DOI	https://doi.org/10.1038/srep01390
出版ステータス	Published - 2013
外部発表	はい

ASJC Scopus subject areas

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10.1038/srep01390

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Nishiyama, A., Sharov, A. A., Piao, Y., Amano, M., Amano, T., Hoang, H. G., Binder, B. Y., Tapnio, R., Bassey, U., Malinou, J. N., Correa-Cerro, L. S., Yu, H., Xin, L., Meyers, E., Zalzman, M., Nakatake, Y., Stagg, C., Sharova, L., Qian, Y., ... Ko, M. S. H. (2013). Systematic repression of transcription factors reveals limited patterns of gene expression changes in ES cells. Scientific reports, 3, 記事 1390. https://doi.org/10.1038/srep01390

Nishiyama, A, Sharov, AA, Piao, Y, Amano, M, Amano, T, Hoang, HG, Binder, BY, Tapnio, R, Bassey, U, Malinou, JN, Correa-Cerro, LS, Yu, H, Xin, L, Meyers, E, Zalzman, M, Nakatake, Y, Stagg, C, Sharova, L, Qian, Y, Dudekula, D, Sheer, S, Cadet, JS, Hirata, T, Yang, HT, Goldberg, I, Evans, MK, Longo, DL, Schlessinger, D & Ko, MSH 2013, 'Systematic repression of transcription factors reveals limited patterns of gene expression changes in ES cells', Scientific reports, vol. 3, 1390. https://doi.org/10.1038/srep01390

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title = "Systematic repression of transcription factors reveals limited patterns of gene expression changes in ES cells",

abstract = "Networks of transcription factors (TFs) are thought to determine and maintain the identity of cells. Here we systematically repressed each of 100 TFs with shRNA and carried out global gene expression profiling in mouse embryonic stem (ES) cells. Unexpectedly, only the repression of a handful of TFs significantly affected transcriptomes, which changed in two directions/ trajectories: one trajectory by the repression of either Pou5f1 or Sox2; the other trajectory by the repression of either Esrrb, Sall4, Nanog, or Tcfap4. The data suggest that the trajectories of gene expression change are already preconfigured by the gene regulatory network and roughly correspond to extraembryonic and embryonic fates of cell differentiation, respectively. These data also indicate the robustness of the pluripotency gene network, as the transient repression of most TFs did not alter the transcriptomes.",

author = "Akira Nishiyama and Sharov, {Alexei A.} and Yulan Piao and Misa Amano and Tomokazu Amano and Hoang, {Hien G.} and Binder, {Bernard Y.} and Richard Tapnio and Uwem Bassey and Malinou, {Justin N.} and Correa-Cerro, {Lina S.} and Hong Yu and Li Xin and Emily Meyers and Michal Zalzman and Yuhki Nakatake and Carole Stagg and Lioudmila Sharova and Yong Qian and Dawood Dudekula and Sarah Sheer and Cadet, {Jean S.} and Tetsuya Hirata and Yang, {Hsih Te} and Ilya Goldberg and Evans, {Michele K.} and Longo, {Dan L.} and David Schlessinger and Ko, {Minoru S.H.}",

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AU - Nishiyama, Akira

AU - Sharov, Alexei A.

AU - Piao, Yulan

AU - Amano, Misa

AU - Amano, Tomokazu

AU - Hoang, Hien G.

AU - Binder, Bernard Y.

AU - Tapnio, Richard

AU - Bassey, Uwem

AU - Malinou, Justin N.

AU - Correa-Cerro, Lina S.

AU - Yu, Hong

AU - Xin, Li

AU - Meyers, Emily

AU - Zalzman, Michal

AU - Nakatake, Yuhki

AU - Stagg, Carole

AU - Sharova, Lioudmila

AU - Qian, Yong

AU - Dudekula, Dawood

AU - Sheer, Sarah

AU - Cadet, Jean S.

AU - Hirata, Tetsuya

AU - Yang, Hsih Te

AU - Goldberg, Ilya

AU - Evans, Michele K.

AU - Longo, Dan L.

AU - Schlessinger, David

AU - Ko, Minoru S.H.

N1 - Funding Information: This research was supported in part by the Intramural Research Program of the NIH, National Institute on Aging.

PY - 2013

Y1 - 2013

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Systematic repression of transcription factors reveals limited patterns of gene expression changes in ES cells

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