1. A New Biology for the 21 st Century Board on Life Sciences A New Biology for the 21 st Century Committee on a New Biology for the 21 st Century Co-Chairs: Thomas Connelly, DuPont Company Phillip A. Sharp, MIT Study Director: Ann Reid, BLS

2. Committee on a New Biology for the 21 st Century calls for A National New Biology Initiative A National New Biology Initiative Goals: Propel science to a new level Propel science to a new level Provide solutions to pressing societal problems Provide solutions to pressing societal problems And at the same time, improve productivity across the life sciences

3. A moment of unique opportunity -- Current research has brought biology to an inflection point Current research has brought biology to an inflection point Integration of subdisciplines within biology Integration of subdisciplines within biology Cross-discipline integration: life science research by Cross-discipline integration: life science research by physical, computational, earth scientists, engineers physical, computational, earth scientists, engineers Technological advances enable biologists to collect data Technological advances enable biologists to collect data unprecedented in quantity and quality unprecedented in quantity and quality Past investments providing value beyond expected Past investments providing value beyond expected An opportunity for a New Biology with impact at an unprecedented scale

4. New Biology could affect urgent problems: Nearly a billion undernourished in ’07; still increasing, Nearly a billion undernourished in ’07; still increasing, especially where food supply already inadequate especially where food supply already inadequate Human activities are stressing, altering and destroying Human activities are stressing, altering and destroying ecosystems we rely on ecosystems we rely on Transportation fuels depend almost fully on limited Transportation fuels depend almost fully on limited non-renewable resources non-renewable resources Healthcare decisions based on statistics; rely on costly Healthcare decisions based on statistics; rely on costly technologies that may not benefit a given individual technologies that may not benefit a given individual

5. Food Food Environment Environment Energy Energy Health Health The National New Biology Initiative Setting big goals: address societal problems

6. What is the New Biology? Biology

7. Adapt any food plant to any growing condition Mission: sustainable local food production What is needed: What is needed: – genetically informed breeding and transgenics – recognition of importance of biodiversity, systematics, evolutionary genomics – analysis of crops as ecosystems Requires fundamental understanding of: Requires fundamental understanding of: – plant development, growth and productivity – plant development, growth and productivity – plant tolerance of extreme conditions – plant tolerance of extreme conditions – plant adaptation to climate change – plant adaptation to climate change The New Biology Food Challenge

8. Develop early warning of reduced ecosystem services, and effective restoration strategies Mission: halt and reverse ecosystem damage The New Biology Environment Challenge Multiple ecosystem stresses: pollution, over-harvesting, Multiple ecosystem stresses: pollution, over-harvesting, habitat fragmentation, climate change habitat fragmentation, climate change What is needed: What is needed: – comprehensive, quantitative measure of ecosystem services – monitoring and early markers of ecosystems at-risk – fundamental understanding of ecosystem restoration – development of ecosystem engineering: basic science of ecosystem function integrated with problem-solving methods ecosystem function integrated with problem-solving methods Multiple ecosystem stresses: pollution, over-harvesting, Multiple ecosystem stresses: pollution, over-harvesting, habitat fragmentation, climate change habitat fragmentation, climate change What is needed: What is needed: – comprehensive, quantitative measure of ecosystem services – monitoring and early markers of ecosystems at-risk – fundamental understanding of ecosystem restoration – development of ecosystem engineering: basic science of ecosystem function integrated with problem-solving methods ecosystem function integrated with problem-solving methods

9. Meet Renewable Fuel Standard 2022 goal: 4x increase in economical biofuel production Mission: sustainable alternative to fossil fuels The New Biology Energy Challenge To succeed, must approach biomass-to-biofuel production process as an integrated system What is needed: – develop energy crops that produce readily converted biomass – engineer microbial biocatalysts with high conversion rates and yields – engineer biofuel production process engaging plant scientists, microbiologists, ecologists, molecular geneticists, process microbiologists, ecologists, molecular geneticists, processengineers To succeed, must approach biomass-to-biofuel production process as an integrated system What is needed: – develop energy crops that produce readily converted biomass – engineer microbial biocatalysts with high conversion rates and yields – engineer biofuel production process engaging plant scientists, microbiologists, ecologists, molecular geneticists, process microbiologists, ecologists, molecular geneticists, processengineers

10. Achieve early diagnosis, individual disease risk assessment, prevention and treatment Achieve early diagnosis, individual disease risk assessment, prevention and treatment Mission: individualized health surveillance and care Mission: individualized health surveillance and care The New Biology Health Challenge The deep knowledge gap between genotype and phenotype keeps health treatments based on statistical likelihood of response The deep knowledge gap between genotype and phenotype keeps health treatments based on statistical likelihood of response What is needed: What is needed: modeling of contributions of genotype, individual microbiome, modeling of contributions of genotype, individual microbiome, individual physiology, environment, history network and pathway analyses, and comparative biology network and pathway analyses, and comparative biology define networks that monitor, report and react to changes in define networks that monitor, report and react to changes in health, thus enabling surveillance develop conceptual and technical capacity to monitor develop conceptual and technical capacity to monitor metabolome as integrated phenotypic readout modeling of contributions of genotype, individual microbiome, modeling of contributions of genotype, individual microbiome, individual physiology, environment, history network and pathway analyses, and comparative biology network and pathway analyses, and comparative biology define networks that monitor, report and react to changes in define networks that monitor, report and react to changes in health, thus enabling surveillance develop conceptual and technical capacity to monitor develop conceptual and technical capacity to monitor metabolome as integrated phenotypic readout

11. The challenges cannot be met in isolation The challenges cannot be met in isolation Interconnected problems, Interconnected solutions To meet the environment challenge, the food To meet the environment challenge, the food challenge must be met without increased land and challenge must be met without increased land and water use, fertilizer and pesticide release, and fossil water use, fertilizer and pesticide release, and fossil fuel input fuel input meeting the health challenge depends on maintaining meeting the health challenge depends on maintaining ecosystem services ecosystem services meeting the energy challenge with biofuel production meeting the energy challenge with biofuel production cannot come at the expense of food production cannot come at the expense of food production

12. One biology: same science supports all four missions One biology: same science supports all four missions Interconnected problems, Interconnected solutions Some examples: understand genotype–phenotype connection understand genotype–phenotype connection biodiversity: recognize and employ evolutionary biodiversity: recognize and employ evolutionary adaptability adaptability networks: unravel and apply complex system logic networks: unravel and apply complex system logic

13. One biology: same technologies support all four missions One biology: same technologies support all four missions Interconnected problems, Interconnected solutions Some examples: information infrastructure: make results of all information infrastructure: make results of all scientific research fully interoperable scientific research fully interoperable imaging: see biological processes at all scales imaging: see biological processes at all scales high throughput: make monitoring metabolomes and high throughput: make monitoring metabolomes and proteomes as routine as genome sequencing proteomes as routine as genome sequencing

14. The National New Biology Initiative should be launched to – accelerate the emergence and – accelerate the emergence and growth of the New Biology growth of the New Biology – achieve solutions to societal challenges in food, energy, environment, and health RECOMMENDATION 1 RECOMMENDATION 1 A New Biology for the 21 st Century

15. The National New Biology Initiative should be an interagency effort, withThe National New Biology Initiative should be an interagency effort, with a timeline of at least 10 years, anda timeline of at least 10 years, and funding in addition to current agency research budgetsfunding in addition to current agency research budgets RECOMMENDATION 2 RECOMMENDATION 2 A New Biology for the 21 st Century

16. RECOMMENDATION 3: Develop the information sciences and technologies that will be critical to the success of the New Biology RECOMMENDATION 3: Develop the information sciences and technologies that will be critical to the success of the New Biology RECOMMENDATION 4: Develop interdisciplinary curricula, graduate training and educator training needed to create and support New Biologists

17. Coordinated investment, big impact Enabling the New Biology leverages Enabling the New Biology leverages investment across the life sciences investment across the life sciences National Initiative will provide funds to enable National Initiative will provide funds to enable interagency efforts to solve common interagency efforts to solve common problems cooperatively problems cooperatively Costs low compared to: Costs low compared to: – benefit – benefit – current spending for research – current spending for research – cost of not addressing the challenges – cost of not addressing the challenges Enabling the New Biology leverages Enabling the New Biology leverages investment across the life sciences investment across the life sciences National Initiative will provide funds to enable National Initiative will provide funds to enable interagency efforts to solve common interagency efforts to solve common problems cooperatively problems cooperatively Costs low compared to: Costs low compared to: – benefit – benefit – current spending for research – current spending for research – cost of not addressing the challenges – cost of not addressing the challenges

18. Acknowledgments The committee thanks our sponsors – The National Institutes of HealthThe National Institutes of Health The National Science FoundationThe National Science Foundation The Department of EnergyThe Department of Energy for entrusting us with this task. Board on Life Sciences