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Paper detail

Quantification of noise in the bifunctionality-induced post-translational modification

We present a generic analytical scheme for the quantification of fluctuations due to bifunctionality-induced signal transduction within the members of bacterial two-component system. The proposed model takes into account post-translational modifications in terms of elementary phosphotransfer kinetics. Sources of fluctuations due to autophosphorylation, kinase and phosphatase activity of the sensor kinase have been considered in the model via Langevin equations, which are then solved within the framework of linear noise approximation. The resultant analytical expression of phosphorylated response regulators are then used to quantify the noise profile of biologically motivated single and branched pathways. Enhancement and reduction of noise in terms of extra phosphate outflux and influx, respectively, have been analyzed for the branched system. Furthermore, role of fluctuations of the network output in the regulation of a promoter with random activation/deactivation dynamics has been analyzed.

preprint2013arXivOpen access
Alok Kumar MaityArnab BandyopadhyaySudip ChattopadhyayJyotipratim Ray ChaudhuriRalf MetzlerPinaki ChaudhurySuman K Banik
Subcellular ProcessesBiological PhysicsMolecular Networks
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Alok Kumar MaityArnab BandyopadhyaySudip ChattopadhyayJyotipratim Ray ChaudhuriRalf MetzlerPinaki ChaudhurySuman K Banik

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