User:Alexis Courbet: Difference between revisions
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*Formerly at:<br> | *Formerly at:<br> | ||
[https://www.sys2diag.cnrs.fr/ Sys2diag Laboratory], [http://www.cnrs.fr/en/aboutCNRS/overview.htm CNRS] | [https://www.sys2diag.cnrs.fr/ Sys2diag Laboratory], [http://www.cnrs.fr/en/aboutCNRS/overview.htm CNRS] ''Complex biological systems modelling and engineering for diagnosis''<br> | ||
''Complex biological systems modelling and engineering for diagnosis''<br> | PhD Student <br> | ||
Montpellier, France <br> | University of Montpellier, France <br> | ||
Revision as of 17:49, 29 February 2016
Research interests
- Cellular/molecular engineering
- Biocomputing & Biosensing
- Synthetic biological circuits
- CAD & computational design for synthetic biology
- Autonomous & programmable biosystems
- Protocells & minimal systems
- Microfluidics
- Biomolecular prosthetics, diagnostics & theranostics
- Medical sciences, translational medicine
- Multidisciplinary science
I am interested in the engineering of complex biological systems through synthetic biology to achieve programmable information and energy processing.
During my PhD I engineered bacterial cells and protocellular structures as autonomous and programmable biosensors-biocomputers capable of multiplexed biomolecular signal integration and processing. I developed CAD tools, microfluidic and molecular biology strategies to automatize the implementation of logic circuits in biological substrate (i.e. synthetic genes circuits and biochemical circuits). I developped concepts, systematic methods, computational tools and biological standards to:
- 1. Engineer next-generation diagnostics. I engineered autonomous and programmable biosensors integrating multiplexed pathological biomarker detection and complex biological signal processing as intelligent diagnostic devices.
- 2. Engineer novel biocomputing devices that solve complex problems and process/interface biological information at the microscale. I developed microfluidic and computer assisted methodologies to program these synthetic biosystems from the bottum-up (e.g. protocells).
I am now focusing on rational protein design for its potential to develop novel versatile, bio-electronic interfaceable, ultra low power and self assembling nanoscale computers.
I believe that collaboration between scientists and promotion of interdisciplinarity is the key to understand and engineer biology.
Contact Info
Washington Research Foundation Innovation Postdoctoral Fellow
University of Washington, Seattle, USA
- Formerly at:
Sys2diag Laboratory, CNRS Complex biological systems modelling and engineering for diagnosis
PhD Student
University of Montpellier, France
Education
- 2012-2015, PhD at The National Center for Scientific Research (CNRS)&Bio-Rad/Stanford University
- 2012, MS in Molecular and Cellular Biophysics, University of Montpellier
- 2011-2015, Residency in Clinical Toxicology, Pharmaceutical innovation and Biomedical Research
- 2011, MS in Cellular and Molecular Biology, University Paris Sud 11
- 2010, BS, University of Paris Sud 11
- 2010, BMSc, University of Paris Sud 11
Publications
Detection of pathological biomarkers in human clinical samples via amplifying genetic switches and logic gates
Science Translational Medicine, 2015 May 27;7(289):289ra83
Alexis Courbet, Drew Endy, Eric Renard, Franck Molina, and Jérôme Bonnet
Abstract PDF
Supplementary Materials
Computing with Synthetic Protocells
Acta Biotheor., 2015 May 13;
Alexis Courbet, Patrick Amar, and Franck Molina
Abstract PDF
Engineering next generation diagnostics through synthetic biology
University of Montpellier, Medical Thesis, 2015 July 2;
Alexis Courbet
PDF