Reconstruction of cell population dynamics using CFSE.

Reconstruction of cell population dynamics using CFSE. Research Abstract Details 

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Reconstruction of cell population dynamics using CFSE. Abstract Text:

Andrew Yates,Cliburn Chan,Jessica Strid,Simon Moon,Robin Callard,Andrew J T George,Jaroslav Stark,

BACKGROUND: Quantifying cell division and death is central to many studies in the biological sciences. The fluorescent dye CFSE allows the tracking of cell division in vitro and in vivo and provides a rich source of information with which to test models of cell kinetics. Cell division and death have a stochastic component at the single-cell level, and the probabilities of these occurring in any given time interval may also undergo systematic variation at a population level. This gives rise to heterogeneity in proliferating cell populations. Branching processes provide a natural means of describing this behaviour. RESULTS: We present a likelihood-based method for estimating the parameters of branching process models of cell kinetics using CFSE-labeling experiments, and demonstrate its validity using synthetic and experimental datasets. Performing inference and model comparison with real CFSE data presents some statistical problems and we suggest methods of dealing with them. CONCLUSION: The approach we describe here can be used to recover the (potentially variable) division and death rates of any cell population for which division tracking information is available.

Reconstruction of cell population dynamics using CFSE. Publishing Authors By Initials

A Yates,C Chan,J Strid,S Moon,R Callard,AJ George,J Stark,

For similar organic chemicals: imides: succinimides research abstracts see: organic chemicals: imides: succinimides research

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Reconstruction of cell population dynamics using CFSE. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: BMC bioinformatics

VOLUME: 8

Page Numbers: 196

Journal Abbreviation: BMC Bioinformatics

ISSN: 1471-2105

DAY: 12

MONTH: 06

YEAR: 2007

Reconstruction of cell population dynamics using CFSE. Information

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LANGUAGE: eng

NlmUniqueID: 100965194

Reconstruction of cell population dynamics using CFSE. Keywords Mesh Terms:

KEYWORDS: Succinimides

MESH TERMS: methods

Chemical & Substance for Abstract: Reconstruction of cell population dynamics using CFSE. Information

Substance Name: Succinimides

Registry Number: 0

Grant and Affiliation Information for Reconstruction of cell population dynamics using CFSE.

AFFILIATION: Department of Biology, Emory University, Atlanta, GA 30322, USA. ayates2@emory.edu.

Country: England

AGENCY: United Kingdom Wellcome T

GRANT: R01 AI 49334

ACRONYM: AI

MEDLINETA: BMC Bioinformatics

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