利用SBOL 2.0在生物设计中共享结构与功能。

Sharing Structure and Function in Biological Design with SBOL 2.0.

作者信息

Roehner Nicholas, Beal Jacob, Clancy Kevin, Bartley Bryan, Misirli Goksel, Grünberg Raik, Oberortner Ernst, Pocock Matthew, Bissell Michael, Madsen Curtis, Nguyen Tramy, Zhang Michael, Zhang Zhen, Zundel Zach, Densmore Douglas, Gennari John H, Wipat Anil, Sauro Herbert M, Myers Chris J

机构信息

Department of Electrical and Computer Engineering, Boston University , Boston, Massachusetts 02215, United States.

Raytheon BBN Technologies , Cambridge, Massachusetts 02138, United States.

出版信息

ACS Synth Biol. 2016 Jun 17;5(6):498-506. doi: 10.1021/acssynbio.5b00215. Epub 2016 May 4.

DOI:10.1021/acssynbio.5b00215

PMID:27111421

Abstract

The Synthetic Biology Open Language (SBOL) is a standard that enables collaborative engineering of biological systems across different institutions and tools. SBOL is developed through careful consideration of recent synthetic biology trends, real use cases, and consensus among leading researchers in the field and members of commercial biotechnology enterprises. We demonstrate and discuss how a set of SBOL-enabled software tools can form an integrated, cross-organizational workflow to recapitulate the design of one of the largest published genetic circuits to date, a 4-input AND sensor. This design encompasses the structural components of the system, such as its DNA, RNA, small molecules, and proteins, as well as the interactions between these components that determine the system's behavior/function. The demonstrated workflow and resulting circuit design illustrate the utility of SBOL 2.0 in automating the exchange of structural and functional specifications for genetic parts, devices, and the biological systems in which they operate.

摘要

合成生物学开放语言（SBOL）是一种标准，它能够实现跨不同机构和工具的生物系统协同工程。SBOL是通过仔细考虑近期合成生物学趋势、实际用例以及该领域顶尖研究人员和商业生物技术企业成员之间的共识而开发的。我们展示并讨论了一组支持SBOL的软件工具如何形成一个集成的、跨组织的工作流程，以重现迄今为止已发表的最大遗传电路之一——四输入与门传感器的设计。该设计涵盖了系统的结构组件，如DNA、RNA、小分子和蛋白质，以及这些组件之间决定系统行为/功能的相互作用。所展示的工作流程和由此产生的电路设计说明了SBOL 2.0在自动化遗传元件、装置及其运行的生物系统的结构和功能规范交换方面的效用。

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利用SBOL 2.0在生物设计中共享结构与功能。

Sharing Structure and Function in Biological Design with SBOL 2.0.

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