<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Transient response analysis of the eukaryotic chemosensory system to intra-cellular fluctuations."^^ . "Like prokaryotic cells, those of eukaryotes are also subjected to noise from within the cells. While the cells have a built-in mechanism to attenuate the noise, conditions may arise where this is beyond the cell's ability to regulate. Start-up perturbations and those induced by metabolic shifts are examples of such situations. Then, it becomes useful to understand how the cells respond. For a eukaryotic chemosensory system, this has been studied by applying response coefficient analysis to a recent model. With even three dependent variables - an activator, an inhibitor, and a response element - the response coefficients differ widely with time and from one variable to another. These differences are interpreted in terms of the chemosensory mechanism and its robustness. The results complement similar recent studies of Escherichia coli chemotaxis, thus supporting their credibility and versatility."^^ . "2009-02" . "7" . "1" . . "World Scientific"^^ . . . "Journal of bioinformatics and computational biology"^^ . . . "02197200" . . . . . . . "Pratap R"^^ . "Patnaik"^^ . "Pratap R Patnaik"^^ . . . . . "HTML Summary of #1096 \n\nTransient response analysis of the eukaryotic chemosensory system to intra-cellular fluctuations.\n\n" . "text/html" . . . "QR Microbiology"@en . .