Plant Biosystems Design Research Roadmap 1.0.

Q2 Agricultural and Biological Sciences
生物设计研究(英文) Pub Date : 2020-12-05 eCollection Date: 2020-01-01 DOI:10.34133/2020/8051764
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
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引用次数: 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.

Abstract Image

Abstract Image

Abstract Image

植物生物系统设计研究路线图1.0。
人类的生命密切依赖植物来获取食物、生物材料、健康、能源和可持续的环境。各种植物大多通过育种进行了基因改良,同时通过基因工程进行了有限的改造,但它们仍然无法满足世界人口和预期生活水平快速增长所带来的日益增长的数量和质量需求。解决这些挑战的一个步骤是使用生物系统设计方法来扩大植物的潜力。这代表着植物科学研究从相对简单的试错方法向基于生物系统预测模型的创新策略的转变。植物生物系统设计旨在通过基因组编辑和遗传电路工程加速植物遗传改良,或通过植物基因组的从头合成创造新的植物系统。从这个角度来看,我们提出了植物生物系统设计的全面路线图,包括理论、原理和技术方法,以及在基础和应用植物生物学研究中的潜在应用。我们强调了当前的挑战、未来的机遇和研究重点,以及国际合作框架,以快速推进这一新兴的跨学科研究领域。最后,我们讨论了社会责任在利用植物生物系统设计中的重要性,并提出了提高公众感知、信任和接受度的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.90
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0.00%
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0
审稿时长
12 weeks
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