Simulation of the Prokaryotic Cell Cycle at simon.bio.uva.nl/cellcycle
Autor: | Charles E. Helmstetter, Ping Wang, Norbert O. E. Vischer, Conrad L. Woldringh, Arieh Zaritsky |
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Jazyk: | angličtina |
Rok vydání: | 2012 |
Předmět: |
Temporal And Spatial Regulation
Testing Predictions lcsh:T58.5-58.64 The Bacterial Cell Cycle lcsh:Information technology Coupling Between Chromosome Replication And Cell D Duplication Of The Nucleoid And The Sacculus In Silico Simulation Thymine Limitation Initiation Eclipse lcsh:P87-96 lcsh:Communication. Mass media |
Zdroj: | Journal of Systemics, Cybernetics and Informatics, Vol 10, Iss 1, Pp 18-23 (2012) |
ISSN: | 1690-4524 1690-4532 |
Popis: | The bacterial Cell Cycle is presented using the Simulation program CCSim, which employs four parameters related to time (inter-division τ, replication C, division D) and size (mass at replication initiation Mi), sufficient to describe and compare bacterial cells under various conditions. The parameter values can be altered and the effects of the alterations can be seen. CCSim is easy to use and presents the kinetics of cell growth in a digestible format. Replicating chromosomes and growing bacillary cells are coupled to parameters that affect the cell cycle and animated. It serves as an educational tool to teach bacteriology and to compare experimental observations with the model best describing cell growth thus improve our understanding of regulatory mechanisms. Examples are displayed of transitions between known physiological states that are consistent with experimental results, including one that explains strange observations. The program predicts enhanced division frequencies after a period of slow replication under thymine limitation if a minimal distance (Eclipse) exists between successive replisomes, as observed. Missing features and ways to improve, extend and refine CCSim are proposed, for both single cells and random populations under steady-states of exponential growth and during well-defined transitions. Future improvements and extensions are proposed for single cells and populations. |
Databáze: | OpenAIRE |
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