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- The development of the deconstruction approach was supported by the National Science Foundation through the support of the SynBAS NRT program (2021900).1
- This work was supported by the Air Force Research Laboratory Center of Excellence for Advanced Bioprogrammable Nanomaterials (C-ABN) Grant FA8650-15-2-5518 (to M.C.J. and J.B.L), the David and Lucile Packard Foundation (to M.C.J.), an NSF CAREER Award (1452441 to J.B.L.), and the Camille Dreyfus Teacher-Scholar Program (to M.C.J. and J.B.L.). A.D.S. was supported in part by the National Institutes of Health Training Grant (T32GM008449) through Northwestern University’s Biotechnology Training Program. 1
- Synthetic Biology[remove]10
- Biosensor3
- Diagnostic2
- Fluoride2
- RNA2
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Deconstructing synthetic biology across scales: a conceptual approach for training synthetic biologists
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Strategies for the Design and Field Deployment of Cell-Free Biosensors
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![Work](/assets/work-ff055336041c3f7d310ad69109eda4a887b16ec501f35afc0a547c4adb97ee72.png)
The accuracy and usability of point-of-use fluoride biosensors: a field study in Nakuru County, Kenya
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Engineering In Vitro Transcriptional Biosensors for Rapid and Programmable Molecular Detection
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Design of Engineered Ribosomes for Synthetic Biology
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Uncovering the Mechanism of Intrinsic Transcription Termination in Order to Develop Point-of- Care Diagnostics.
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Engineering Non-Growth Metabolism in Escherichia coli for Improved Productivity and Yield of Biochemical Synthesis
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Source Data for "Point-of-use detection of environmental fluoride via a cell-free riboswitch-based biosensor."
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A Platform for Ribosome Engineering in Living Escherichia coli
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Elucidating the causes of heterogeneity in bacterial genome replication and conjugative transfer leveraging orthogonal transcriptional control
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