Litcius/Paper detail

Design and Optimization of a Cell-Free Atrazine Biosensor

Adam D. Silverman, Umut Akova, Khalid K. Alam, Michael C. Jewett, Julius B. Lucks

2020ACS Synthetic Biology129 citationsDOIOpen Access PDF

Abstract

molecular diagnostics that serve as effective alternatives to whole-cell biosensors. However, cell-free sensors for detecting manmade organic water contaminants such as pesticides are sparse, partially because few characterized natural biological sensors can directly detect such pollutants. Here, we present a platform for the cell-free detection of one critical water contaminant, atrazine, by combining a previously characterized cyanuric acid biosensor with a reconstituted atrazine-to-cyanuric acid metabolic pathway composed of several protein-enriched bacterial extracts mixed in a one pot reaction. Our cell-free sensor detects atrazine within an hour of incubation at an activation ratio superior to previously reported whole-cell atrazine sensors. We also show that the response characteristics of the atrazine sensor can be tuned by manipulating the ratios of enriched extracts in the cell-free reaction mixture. Our approach of utilizing multiple metabolic steps, encoded in protein-enriched cell-free extracts, to convert a target of interest into a molecule that can be sensed by a transcription factor is modular. Our work thus serves as an effective proof-of-concept for a scheme of "metabolic biosensing", which should enable rapid, field-deployable detection of complex organic water contaminants.

Topics & Concepts

BiosensorAtrazineCyanuric acidPesticideChemistryAnalyteSynthetic biologyDetection limitBiochemistryComputational biologyChromatographyBiologyOrganic chemistryMelamineAgronomyCRISPR and Genetic Engineeringbioluminescence and chemiluminescence researchAdvanced biosensing and bioanalysis techniques