Sharing Structure and Function in Biological Design with SBOL 2.0

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.

Nicholas Roehner
Nicholas Roehner
Raytheon BBN Technologies, Researcher
Curtis Madsen
Curtis Madsen
Sandia National Laboratories, R&D S&E, Computer Science
Tramy Nguyen
Tramy Nguyen
Raytheon BBN Technologies, Research Scientist/Software Engineer
Michael Zhang
Michael Zhang
Google, Engineer
Zhen Zhang
Zhen Zhang
Utah State University, Assistant Professor
Zach Zundel
Zach Zundel
Facebook, Product Engineer

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