Plant Biosystems Design Research Roadmap 1.0

Xiaohan Yang; June I. Medford; Kasey Markel; Patrick M. Shih; Henrique C. De Paoli; Cong T. Trinh; Alistair J. McCormick; Raphael Ployet; Steven G. Hussey; Alexander A. Myburg; Poul Erik Jensen; Md Mahmudul Hassan; Jin Zhang; Wellington Muchero; Udaya C. Kalluri; Hengfu Yin; Renying Zhuo; Paul E. Abraham; Jin Gui Chen; David J. Weston; Yinong Yang; Degao Liu; Yi Li; Jessy Labbe; Bing Yang; Jun Hyung Lee; Robert W. Cottingham; Stanton Martin; Mengzhu Lu; Timothy J. Tschaplinski; Guoliang Yuan; Haiwei Lu; Priya Ranjan; Julie C. Mitchell; Stan D. Wullschleger; Gerald A. Tuskan

doi:10.34133/2020/8051764

Plant Biosystems Design Research Roadmap 1.0

Xiaohan Yang, June I. Medford, Kasey Markel, Patrick M. Shih, Henrique C. De Paoli, Cong T. Trinh, Alistair J. McCormick, Raphael Ployet, Steven G. Hussey, Alexander A. Myburg, Poul Erik Jensen, Md Mahmudul Hassan, Jin Zhang, Wellington Muchero, Udaya C. Kalluri, Hengfu Yin, Renying Zhuo, Paul E. Abraham, Jin Gui Chen, David J. WestonYinong Yang, Degao Liu, Yi Li, Jessy Labbe, Bing Yang, Jun Hyung Lee, Robert W. Cottingham, Stanton Martin, Mengzhu Lu, Timothy J. Tschaplinski, Guoliang Yuan, Haiwei Lu, Priya Ranjan, Julie C. Mitchell, Stan D. Wullschleger, Gerald A. Tuskan

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Abstract

Human life intimately depends on plants for food, biomaterials, health, energy, and a sustainable environment. Various plants have been genetically improved mostly through breeding, along with limited modification via genetic engineering, yet they are still not able to meet the ever-increasing needs, in terms of both quantity and quality, resulting from the rapid increase in world population and expected standards of living. A step change that may address these challenges would be to expand the potential of plants using biosystems design approaches. This represents a shift in plant science research from relatively simple trial-and-error approaches to innovative strategies based on predictive models of biological systems. Plant biosystems design seeks to accelerate plant genetic improvement using genome editing and genetic circuit engineering or create novel plant systems through de novo synthesis of plant genomes. From this perspective, we present a comprehensive roadmap of plant biosystems design covering theories, principles, and technical methods, along with potential applications in basic and applied plant biology research. We highlight current challenges, future opportunities, and research priorities, along with a framework for international collaboration, towards rapid advancement of this emerging interdisciplinary area of research. Finally, we discuss the importance of social responsibility in utilizing plant biosystems design and suggest strategies for improving public perception, trust, and acceptance.

Original language	English (US)
Article number	8051764
Journal	BioDesign Research
Volume	2020
DOIs	https://doi.org/10.34133/2020/8051764
State	Published - 2020

All Science Journal Classification (ASJC) codes

Agricultural and Biological Sciences (miscellaneous)
Biochemistry, Genetics and Molecular Biology (miscellaneous)
Biotechnology
Cell Biology

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10.34133/2020/8051764

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Yang, X., Medford, J. I., Markel, K., Shih, P. M., De Paoli, H. C., Trinh, C. T., McCormick, A. J., Ployet, R., Hussey, S. G., Myburg, A. A., Jensen, P. E., Hassan, M. M., Zhang, J., Muchero, W., Kalluri, U. C., Yin, H., Zhuo, R., Abraham, P. E., Chen, J. G., ... Tuskan, G. A. (2020). Plant Biosystems Design Research Roadmap 1.0. BioDesign Research, 2020, [8051764]. https://doi.org/10.34133/2020/8051764

@article{f24ab7ace54c47fcaa6d6c3f09f0b9e7,

title = "Plant Biosystems Design Research Roadmap 1.0",

abstract = "Human life intimately depends on plants for food, biomaterials, health, energy, and a sustainable environment. Various plants have been genetically improved mostly through breeding, along with limited modification via genetic engineering, yet they are still not able to meet the ever-increasing needs, in terms of both quantity and quality, resulting from the rapid increase in world population and expected standards of living. A step change that may address these challenges would be to expand the potential of plants using biosystems design approaches. This represents a shift in plant science research from relatively simple trial-and-error approaches to innovative strategies based on predictive models of biological systems. Plant biosystems design seeks to accelerate plant genetic improvement using genome editing and genetic circuit engineering or create novel plant systems through de novo synthesis of plant genomes. From this perspective, we present a comprehensive roadmap of plant biosystems design covering theories, principles, and technical methods, along with potential applications in basic and applied plant biology research. We highlight current challenges, future opportunities, and research priorities, along with a framework for international collaboration, towards rapid advancement of this emerging interdisciplinary area of research. Finally, we discuss the importance of social responsibility in utilizing plant biosystems design and suggest strategies for improving public perception, trust, and acceptance.",

author = "Xiaohan Yang and Medford, {June I.} and Kasey Markel and Shih, {Patrick M.} and {De Paoli}, {Henrique C.} and Trinh, {Cong T.} and McCormick, {Alistair J.} and Raphael Ployet and Hussey, {Steven G.} and Myburg, {Alexander A.} and Jensen, {Poul Erik} and Hassan, {Md Mahmudul} and Jin Zhang and Wellington Muchero and Kalluri, {Udaya C.} and Hengfu Yin and Renying Zhuo and Abraham, {Paul E.} and Chen, {Jin Gui} and Weston, {David J.} and Yinong Yang and Degao Liu and Yi Li and Jessy Labbe and Bing Yang and Lee, {Jun Hyung} and Cottingham, {Robert W.} and Stanton Martin and Mengzhu Lu and Tschaplinski, {Timothy J.} and Guoliang Yuan and Haiwei Lu and Priya Ranjan and Mitchell, {Julie C.} and Wullschleger, {Stan D.} and Tuskan, {Gerald A.}",

note = "Funding Information: The authors are grateful to C.Y. Ralston and R. Evans (Lawrence Berkeley National Laboratory, Berkeley, CA, USA) for their suggestions to the manuscript. The writing of this manuscript was supported by the Center for Bioenergy Innovation, a U.S. Department of Energy (DOE) Bioenergy Research Center supported by the Biological and Environmental Research (BER) program, the Laboratory Directed Research and Development program of Oak Ridge National Laboratory, and the U.S. DOE BER Genomic Science Program, as part of the Secure Ecosystem Engineering and Design Scientific Focus Area and the Plant-Microbe Interfaces Scientific Focus Area. YY is supported by NSF Plant Genome Research Project Grant (1740874) and the USDA National Institute of Food and Agriculture and Hatch Appropriations under Project PEN04659 and Accession #1016432. HY is supported by Nonprofit Research Projects (CAFYBB2018ZY001-1) of Chinese Academy of Forestry. CTT acknowledges the financial support from the NSF CAREER award (NSF#1553250) and the DOE BER Genomic Science Program (DE-SC0019412). PMS acknowledges support from the Joint BioEnergy Institute which is supported by the U.S. DOE Office of Science, BER program under Contract No. DE-AC02-05CH11231 between Lawrence Berkeley National Laboratory and the US Department of Energy. DL acknowledges financial support through the National Science Foundation (NSF) under Award Number 1833402. AJM acknowledges financial support from the UK Biotechnology and Biological Sciences Research Council (grants BB/M006468/1 and BB/S015531/1) and the Leverhulme Trust (grant RPG-2017-402). Publisher Copyright: Copyright {\textcopyright} 2020 Xiaohan Yang et al.",

year = "2020",

doi = "10.34133/2020/8051764",

language = "English (US)",

volume = "2020",

journal = "BioDesign Research",

issn = "2693-1257",

}

Yang, X, Medford, JI, Markel, K, Shih, PM, De Paoli, HC, Trinh, CT, McCormick, AJ, Ployet, R, Hussey, SG, Myburg, AA, Jensen, PE, Hassan, MM, Zhang, J, Muchero, W, Kalluri, UC, Yin, H, Zhuo, R, Abraham, PE, Chen, JG, Weston, DJ, Yang, Y, Liu, D, Li, Y, Labbe, J, Yang, B, Lee, JH, Cottingham, RW, Martin, S, Lu, M, Tschaplinski, TJ, Yuan, G, Lu, H, Ranjan, P, Mitchell, JC, Wullschleger, SD & Tuskan, GA 2020, 'Plant Biosystems Design Research Roadmap 1.0', BioDesign Research, vol. 2020, 8051764. https://doi.org/10.34133/2020/8051764

TY - JOUR

T1 - Plant Biosystems Design Research Roadmap 1.0

AU - Yang, Xiaohan

AU - Medford, June I.

AU - Markel, Kasey

AU - Shih, Patrick M.

AU - De Paoli, Henrique C.

AU - Trinh, Cong T.

AU - McCormick, Alistair J.

AU - Ployet, Raphael

AU - Hussey, Steven G.

AU - Myburg, Alexander A.

AU - Jensen, Poul Erik

AU - Hassan, Md Mahmudul

AU - Zhang, Jin

AU - Muchero, Wellington

AU - Kalluri, Udaya C.

AU - Yin, Hengfu

AU - Zhuo, Renying

AU - Abraham, Paul E.

AU - Chen, Jin Gui

AU - Weston, David J.

AU - Yang, Yinong

AU - Liu, Degao

AU - Li, Yi

AU - Labbe, Jessy

AU - Yang, Bing

AU - Lee, Jun Hyung

AU - Cottingham, Robert W.

AU - Martin, Stanton

AU - Lu, Mengzhu

AU - Tschaplinski, Timothy J.

AU - Yuan, Guoliang

AU - Lu, Haiwei

AU - Ranjan, Priya

AU - Mitchell, Julie C.

AU - Wullschleger, Stan D.

AU - Tuskan, Gerald A.

N1 - Funding Information: The authors are grateful to C.Y. Ralston and R. Evans (Lawrence Berkeley National Laboratory, Berkeley, CA, USA) for their suggestions to the manuscript. The writing of this manuscript was supported by the Center for Bioenergy Innovation, a U.S. Department of Energy (DOE) Bioenergy Research Center supported by the Biological and Environmental Research (BER) program, the Laboratory Directed Research and Development program of Oak Ridge National Laboratory, and the U.S. DOE BER Genomic Science Program, as part of the Secure Ecosystem Engineering and Design Scientific Focus Area and the Plant-Microbe Interfaces Scientific Focus Area. YY is supported by NSF Plant Genome Research Project Grant (1740874) and the USDA National Institute of Food and Agriculture and Hatch Appropriations under Project PEN04659 and Accession #1016432. HY is supported by Nonprofit Research Projects (CAFYBB2018ZY001-1) of Chinese Academy of Forestry. CTT acknowledges the financial support from the NSF CAREER award (NSF#1553250) and the DOE BER Genomic Science Program (DE-SC0019412). PMS acknowledges support from the Joint BioEnergy Institute which is supported by the U.S. DOE Office of Science, BER program under Contract No. DE-AC02-05CH11231 between Lawrence Berkeley National Laboratory and the US Department of Energy. DL acknowledges financial support through the National Science Foundation (NSF) under Award Number 1833402. AJM acknowledges financial support from the UK Biotechnology and Biological Sciences Research Council (grants BB/M006468/1 and BB/S015531/1) and the Leverhulme Trust (grant RPG-2017-402). Publisher Copyright: Copyright © 2020 Xiaohan Yang et al.

PY - 2020

Y1 - 2020

N2 - Human life intimately depends on plants for food, biomaterials, health, energy, and a sustainable environment. Various plants have been genetically improved mostly through breeding, along with limited modification via genetic engineering, yet they are still not able to meet the ever-increasing needs, in terms of both quantity and quality, resulting from the rapid increase in world population and expected standards of living. A step change that may address these challenges would be to expand the potential of plants using biosystems design approaches. This represents a shift in plant science research from relatively simple trial-and-error approaches to innovative strategies based on predictive models of biological systems. Plant biosystems design seeks to accelerate plant genetic improvement using genome editing and genetic circuit engineering or create novel plant systems through de novo synthesis of plant genomes. From this perspective, we present a comprehensive roadmap of plant biosystems design covering theories, principles, and technical methods, along with potential applications in basic and applied plant biology research. We highlight current challenges, future opportunities, and research priorities, along with a framework for international collaboration, towards rapid advancement of this emerging interdisciplinary area of research. Finally, we discuss the importance of social responsibility in utilizing plant biosystems design and suggest strategies for improving public perception, trust, and acceptance.

AB - Human life intimately depends on plants for food, biomaterials, health, energy, and a sustainable environment. Various plants have been genetically improved mostly through breeding, along with limited modification via genetic engineering, yet they are still not able to meet the ever-increasing needs, in terms of both quantity and quality, resulting from the rapid increase in world population and expected standards of living. A step change that may address these challenges would be to expand the potential of plants using biosystems design approaches. This represents a shift in plant science research from relatively simple trial-and-error approaches to innovative strategies based on predictive models of biological systems. Plant biosystems design seeks to accelerate plant genetic improvement using genome editing and genetic circuit engineering or create novel plant systems through de novo synthesis of plant genomes. From this perspective, we present a comprehensive roadmap of plant biosystems design covering theories, principles, and technical methods, along with potential applications in basic and applied plant biology research. We highlight current challenges, future opportunities, and research priorities, along with a framework for international collaboration, towards rapid advancement of this emerging interdisciplinary area of research. Finally, we discuss the importance of social responsibility in utilizing plant biosystems design and suggest strategies for improving public perception, trust, and acceptance.

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UR - http://www.scopus.com/inward/citedby.url?scp=85100952134&partnerID=8YFLogxK

U2 - 10.34133/2020/8051764

DO - 10.34133/2020/8051764

M3 - Article

AN - SCOPUS:85100952134

SN - 2693-1257

VL - 2020

JO - BioDesign Research

JF - BioDesign Research

M1 - 8051764

ER -

Plant Biosystems Design Research Roadmap 1.0

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