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Area of Science:

  • Microbiology
  • Biophysics
  • Systems Biology

Background:

  • Organisms require sensory-motor behaviors for survival.
  • Previous research indicated that bacterial movement speed is limited by information acquisition.
  • The precision of chemical sensing is theoretically limited by molecule arrival stochasticity.

Purpose of the Study:

  • To investigate the factors limiting sensory accuracy in Escherichia coli chemosensing.
  • To determine if the physical limit of molecule arrival stochasticity constrains bacterial chemosensing.
  • To quantify the information encoded by E. coli's signaling pathway during chemotaxis.

Main Methods:

  • Derivation of the physical limit for behaviorally-relevant information in chemical sensing.
  • Quantitative experiments measuring information encoding in E. coli's signaling pathway.
  • Application of information theory to analyze chemosensing performance.

Main Results:

  • E. coli encodes significantly less information than an ideal sensor limited by shot noise.
  • Bacterial chemosensing is not constrained by the fundamental limit of particle arrival noise.
  • A two-orders-of-magnitude difference was observed between theoretical limits and E. coli's information encoding.

Conclusions:

  • The sensory fidelity of E. coli is limited by factors other than particle arrival noise.
  • Bacterial chemosensing accuracy is constrained by internal signaling pathway limitations.
  • Further research is needed to identify the specific constraints on E. coli's sensory accuracy.