Translating New Synthetic Biology Advances for Biosensing Into the Earth and Environmental Sciences

Ilenne Del Valle, Emily M. Fulk, Prashant Kalvapalle, Jonathan J. Silberg, Caroline A. Masiello, Lauren B. Stadler

Research output: Contribution to journalReview articlepeer-review

49 Scopus citations

Abstract

The rapid diversification of synthetic biology tools holds promise in making some classically hard-to-solve environmental problems tractable. Here we review longstanding problems in the Earth and environmental sciences that could be addressed using engineered microbes as micron-scale sensors (biosensors). Biosensors can offer new perspectives on open questions, including understanding microbial behaviors in heterogeneous matrices like soils, sediments, and wastewater systems, tracking cryptic element cycling in the Earth system, and establishing the dynamics of microbe-microbe, microbe-plant, and microbe-material interactions. Before these new tools can reach their potential, however, a suite of biological parts and microbial chassis appropriate for environmental conditions must be developed by the synthetic biology community. This includes diversifying sensing modules to obtain information relevant to environmental questions, creating output signals that allow dynamic reporting from hard-to-image environmental materials, and tuning these sensors so that they reliably function long enough to be useful for environmental studies. Finally, ethical questions related to the use of synthetic biosensors in environmental applications are discussed.

Original languageEnglish
Article number618373
JournalFrontiers in Microbiology
Volume11
DOIs
StatePublished - Feb 4 2021
Externally publishedYes

Funding

We are grateful for financial support from the National Science Foundation CBET-1805901 (LS, CM, and JS), W. M. Keck Foundation (CM and JS), Gordon and Betty Moore Foundation (CM and JS), Defense Advanced Research Projects Agency HR0011-19-2-0019 (JS and CM), Johnson & Johnson WiSTEM2D award (PK and LS), and William Marsh Rice University.

Keywords

  • biogeochemistry
  • biosensor
  • cell-free sensors
  • environmental microbiology
  • marine
  • soil
  • synthetic biology
  • wastewater

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