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The role of Synthetic Biology in Atmospheric Greenhouse Gas reduction: Prospects and Challenges

BioDesign research 2020年第1期2020卷 1-8页

作者： Charles DeLisi Aristides Patrinos Michael MacCracken Dan Drell George Annas Adam Arkin George Church robert Cook-Deegan Henry jacoby Mary Lidstrom jerry Melillo ron Milo Keith Paustian john reilly richard j.roberts Daniel Segrè Susan Solomon Dominic Woolf Stan D.Wullschleger Xiaohan yang Department of Biomedical Engineering and Program in Bioinformatics College of EngineeringBoston UniversityBoston MA 02215USA The NOVIM Group Kohn HallUC Santa BarbaraCA 93106USA Climate Institute WashingtonDCUSA Department of Energy WashingtonDCUSA Center for Health Law Ethics&Human Rights at the Boston University School of Public HealthSchool of MedicineBoston UniversityUSA Department of Bioengineering University of CaliforniaBerkeley CAUSA Department of Genetics Harvard Medical SchoolCambridge MAUSA School for the Future of Innovation in Society Arizona State UniversityBarrett&O’Connor Washington Center1800 I StreetNWWashingtonDC 20006USA Sloan School of Management MITCambridge MAUSA Department of Chemical Engineering University of WashingtonSeattle WashingtonUSA The Ecosystems Center of the Marine Biological Laboratory in Woods Hole MAUSA Department of Plant and Environmental Sciences Weizmann Institute of ScienceRehovotIsrael Department of Soil and Crop Sciences Colorado State UniversityFort Collins CO 80523USA MIT joint Program on the Science and Policy of Global Change MITCambridge MAUSA New England Biolabs Beverly MAUSA Department of Biology and Program in Bioinformatics Boston UniversityBoston MA 02215USA Department of Earth Atmospheric and Planetary SciencesMITCambridge MAUSA Soil and Crop Sciences Section School of Integrated Plant SciencesCornell UniversityIthaca NYUSA Environmental Sciences Division Oak Ridge National LaboratoryOak Ridge TNUSA Biosciences Division Oak Ridge National LaboratoryOak RidgeTNUSA

The long atmospheric residence time of CO2 creates an urgent need to add atmospheric carbon drawdown to CO2 regulatory *** and systems biology(SSB),which enables manipulation of cellular phenotypes,offers a powerful approach to amplifying and adding new possibilities to current land management practices aimed at reducing atmospheric *** participants(in attendance:Christina Agapakis,George Annas,Adam Arkin,George Church,robert Cook-Deegan,Charles DeLisi,Dan Drell,Sheldon Glashow,Steve Hamburg,Henry jacoby,Henry kelly,Mark Kon,Todd Kuiken,Mary Lidstrom,Mike MacCracken,june Medford,jerry Melillo,ron Milo,Pilar Ossorio,Ari Patrinos,Keith Paustian,Kristala jones Prather,Kent redford,David resnik,john reilly,richard ***,Daniel Segre,Susan Solomon,Elizabeth Strychalski,Chris Voigt,Dominic Woolf,Stan Wullschleger,and Xiaohan yang)identified a range of possibilities by which SSB might help reduce greenhouse gas concentrations and which might also contribute to environmental sustainability and *** include,among other possibilities,engineering plants to convert CO2 produced by respiration into a stable carbonate,designing plants with an increased root-to-shoot ratio,and creating plants with the ability to self-fertilize.A number of serious ecological and societal challenges must,however,be confronted and resolved before any such application can be fully assessed,realized,and deployed.

关键词： Synthetic roberts enable

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