Stochastic E2F activation and reconciliation of phenomenological cell-cycle models.

dc.contributor.author

Lee, Tae J

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Yao, Guang

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Bennett, Dorothy C

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Nevins, Joseph R

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You, Lingchong

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Levchenko, Andre

dc.coverage.spatial

United States

dc.date.accessioned

2011-06-21T17:31:06Z

dc.date.issued

2010-09-21

dc.description.abstract

The transition of the mammalian cell from quiescence to proliferation is a highly variable process. Over the last four decades, two lines of apparently contradictory, phenomenological models have been proposed to account for such temporal variability. These include various forms of the transition probability (TP) model and the growth control (GC) model, which lack mechanistic details. The GC model was further proposed as an alternative explanation for the concept of the restriction point, which we recently demonstrated as being controlled by a bistable Rb-E2F switch. Here, through a combination of modeling and experiments, we show that these different lines of models in essence reflect different aspects of stochastic dynamics in cell cycle entry. In particular, we show that the variable activation of E2F can be described by stochastic activation of the bistable Rb-E2F switch, which in turn may account for the temporal variability in cell cycle entry. Moreover, we show that temporal dynamics of E2F activation can be recast into the frameworks of both the TP model and the GC model via parameter mapping. This mapping suggests that the two lines of phenomenological models can be reconciled through the stochastic dynamics of the Rb-E2F switch. It also suggests a potential utility of the TP or GC models in defining concise, quantitative phenotypes of cell physiology. This may have implications in classifying cell types or states.

dc.description.version

Version of Record

dc.identifier

http://www.ncbi.nlm.nih.gov/pubmed/20877711

dc.identifier.eissn

1545-7885

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https://hdl.handle.net/10161/4447

dc.language

eng

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en_US

dc.publisher

Public Library of Science (PLoS)

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PLoS Biol

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10.1371/journal.pbio.1000488

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Plos Biology

dc.subject

Animals

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Blotting, Western

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Cell Cycle

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Cell Line

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E2F Transcription Factors

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Flow Cytometry

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Models, Biological

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Rats

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Stochastic Processes

dc.title

Stochastic E2F activation and reconciliation of phenomenological cell-cycle models.

dc.title.alternative
dc.type

Journal article

duke.date.pubdate

2010-9-0

duke.description.issue

9

duke.description.volume

8

pubs.author-url

http://www.ncbi.nlm.nih.gov/pubmed/20877711

pubs.begin-page

e1000488

pubs.issue

9

pubs.organisational-group

Basic Science Departments

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Biomedical Engineering

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Duke

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Faculty

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Molecular Genetics and Microbiology

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Pratt School of Engineering

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School of Medicine

pubs.publication-status

Published online

pubs.volume

8

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