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 - 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.
UR - http://www.scopus.com/inward/record.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 -