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Bacterial Receiver Prototype for Molecular Communication Using Rhamnose Operon in a Microfluidic Environment. | LitMetric

AI Article Synopsis

  • Bacterial populations are being utilized to create nanomachines for molecular communication, where a bacterial receiver must absorb information molecules and produce detectable outputs.
  • A new bacterial MC receiver has been developed using an L-rhamnose-regulating operon that allows for fast production of green fluorescent protein (GFP) in response to L-rhamnose.
  • The study includes mathematical modeling of the information reception process, showing that this new receiver quickly switches between concentrations and is more responsive than previous quorum sensing-based receivers.

Article Abstract

Bacterial populations are promising candidates for the development of the receiver and transmitter nanomachines for molecular communication (MC). A bacterial receiver is required to uptake the information molecules and produce the detectable molecules following a regulation mechanism. We have constructed a novel bacterial MC receiver using an inducible bacterial L-rhamnose-regulating operon. The proposed bacterial receiver produces green fluorescent protein (GFP) in response to the L-rhamnose information molecules following a quite fast regulation mechanism. To fabricate the receiver, the bacterial population has been transformed using a plasmid harboring L-rhamnose operon genes and gene expressing GFP in a microfluidic environment. We mathematically model the reception process of information molecules and characterize the model parameters by comparing the simulation results of the model in the employed microfluidic environment and the data obtained from the experimental setup. Based on the experimental results, the receiver is able to switch between different low and high concentrations. This work paves the way for the fabrication and modeling of any bacterial operon-based receiver with any proteins rather than GFP. Further, our experimental results indicate that the proposed bacterial receiver has a faster response to information molecules compared to the previous bacterial receiver based on the quorum sensing (QS) process.

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Source
http://dx.doi.org/10.1109/TNB.2021.3090761DOI Listing

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