Genetically-engineered whole-cell bioreporters on integrated circuits for very low-level chemical sensing

We report a biosensor using genetically-engineered whole-cell bioreporters on integrated circuit for low-level chemical sensing. The bioluminescent bioreporters are bacteria that can be genetically altered to achieve bioluminescence when in contact with a targeted substance. The bioreporters are pla...

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Hauptverfasser:	Islam, S.K., Weathers, B., Terry, S.C., Zhang, M., Blalock, B., Caylor, S., Ripp, S., Sayler, G.S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bioluminescence Chemical technology Fluorescence Microorganisms Organisms Pollution measurement Proteins Signal analysis Signal generators Soil
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creator	Islam, S.K. Weathers, B. Terry, S.C. Zhang, M. Blalock, B. Caylor, S. Ripp, S. Sayler, G.S.
description	We report a biosensor using genetically-engineered whole-cell bioreporters on integrated circuit for low-level chemical sensing. The bioluminescent bioreporters are bacteria that can be genetically altered to achieve bioluminescence when in contact with a targeted substance. The bioreporters are placed on a microluminometer. The microluminometer includes integrated photodetector and signal processor and is realized on a standard CMOS process. The bioluminescent bioreporter integrated circuit (BBIC) can detect luminescence from as few as 5000 fully induced pseudomonas fluorescene 5RL bacteria cell.
doi_str_mv	10.1109/ESSDER.2005.1546657
format	Conference Proceeding
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subjects	Bioluminescence Chemical technology Fluorescence Microorganisms Organisms Pollution measurement Proteins Signal analysis Signal generators Soil
title	Genetically-engineered whole-cell bioreporters on integrated circuits for very low-level chemical sensing
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