An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells
Modelling gene expression and proliferation dynamics of pluripotent stem cells Mouse embryonic stem cells (mESCs) are pluripotent cells, having the potential to turn into most other cell types. A team led by Lucia Marucci at the University of Bristol, and involving collaborators from the University...
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Nature Portfolio
2017
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oai:doaj.org-article:fe7d280fe2fc44c489dde0d578fcc7592021-12-02T16:09:11ZAn extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells10.1038/s41540-017-0020-52056-7189https://doaj.org/article/fe7d280fe2fc44c489dde0d578fcc7592017-08-01T00:00:00Zhttps://doi.org/10.1038/s41540-017-0020-5https://doaj.org/toc/2056-7189Modelling gene expression and proliferation dynamics of pluripotent stem cells Mouse embryonic stem cells (mESCs) are pluripotent cells, having the potential to turn into most other cell types. A team led by Lucia Marucci at the University of Bristol, and involving collaborators from the University of Sheffield, developed mathematical models to describe temporal dynamics of pluripotency genes in mESCs under different culture conditions. The team shows that the combination of feedback loops in the underlying gene regulatory networks, noise, and culture conditions fine-tunes gene expression dynamics and, consequently, the fate of mESCs. Experimental and modelling results highlight the interplay between pluripotency gene dynamics and cellular proliferation. Understanding the dynamical mechanisms that influence the fate of mESCs could guide the optimisation of culture protocols in both pluripotency and differentiation.Simon GodwinDaniel WardElisa PedoneMartin HomerAlexander G. FletcherLucia MarucciNature PortfolioarticleBiology (General)QH301-705.5ENnpj Systems Biology and Applications, Vol 3, Iss 1, Pp 1-12 (2017) |
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EN |
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Biology (General) QH301-705.5 |
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Biology (General) QH301-705.5 Simon Godwin Daniel Ward Elisa Pedone Martin Homer Alexander G. Fletcher Lucia Marucci An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| description |
Modelling gene expression and proliferation dynamics of pluripotent stem cells Mouse embryonic stem cells (mESCs) are pluripotent cells, having the potential to turn into most other cell types. A team led by Lucia Marucci at the University of Bristol, and involving collaborators from the University of Sheffield, developed mathematical models to describe temporal dynamics of pluripotency genes in mESCs under different culture conditions. The team shows that the combination of feedback loops in the underlying gene regulatory networks, noise, and culture conditions fine-tunes gene expression dynamics and, consequently, the fate of mESCs. Experimental and modelling results highlight the interplay between pluripotency gene dynamics and cellular proliferation. Understanding the dynamical mechanisms that influence the fate of mESCs could guide the optimisation of culture protocols in both pluripotency and differentiation. |
| format |
article |
| author |
Simon Godwin Daniel Ward Elisa Pedone Martin Homer Alexander G. Fletcher Lucia Marucci |
| author_facet |
Simon Godwin Daniel Ward Elisa Pedone Martin Homer Alexander G. Fletcher Lucia Marucci |
| author_sort |
Simon Godwin |
| title |
An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| title_short |
An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| title_full |
An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| title_fullStr |
An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| title_full_unstemmed |
An extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| title_sort |
extended model for culture-dependent heterogenous gene expression and proliferation dynamics in mouse embryonic stem cells |
| publisher |
Nature Portfolio |
| publishDate |
2017 |
| url |
https://doaj.org/article/fe7d280fe2fc44c489dde0d578fcc759 |
| work_keys_str_mv |
AT simongodwin anextendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT danielward anextendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT elisapedone anextendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT martinhomer anextendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT alexandergfletcher anextendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT luciamarucci anextendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT simongodwin extendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT danielward extendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT elisapedone extendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT martinhomer extendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT alexandergfletcher extendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells AT luciamarucci extendedmodelforculturedependentheterogenousgeneexpressionandproliferationdynamicsinmouseembryonicstemcells |
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1718384509919952896 |