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Adaptive tuning of cell sensory diversity without changes in gene expression

Keita Kamino, Johannes M. Keegstra, Junjiajia Long, Thierry Emonet, Thomas Shimizu

2020Science Advances41 citationsDOIOpen Access PDF

Abstract

, we find, for both major chemoreceptors Tar and Tsr, that cell-to-cell variation in response sensitivity is dynamically modulated depending on the presence or absence of their cognate chemoeffector ligands in the environment. Combining experiments with mathematical modeling, we show that this diversity tuning requires only the environment-dependent covalent modification of chemoreceptors and a standing cell-to-cell variation in their allosteric coupling. Thus, when environmental cues are unavailable, phenotypic diversity enhances the population's readiness for many signals. However, once a signal is perceived, the population focuses on tracking that signal.

Topics & Concepts

Gene expressionDiversity (politics)Expression (computer science)CellSensory systemComputational biologyGeneBiologyNeuroscienceRegulation of gene expressionComputer scienceCell biologyGeneticsAnthropologySociologyProgramming languageReceptor Mechanisms and SignalingGene Regulatory Network AnalysisSingle-cell and spatial transcriptomics
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