DNA-BOT: a low-cost, automated DNA assembly platform for synthetic biology.

IF 2.6 Q2 BIOCHEMICAL RESEARCH METHODS
Synthetic biology (Oxford, England) Pub Date : 2020-07-09 eCollection Date: 2020-01-01 DOI:10.1093/synbio/ysaa010
Marko Storch, Matthew C Haines, Geoff S Baldwin
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引用次数: 41

Abstract

Multi-part DNA assembly is the physical starting point for many projects in Synthetic and Molecular Biology. The ability to explore a genetic design space by building extensive libraries of DNA constructs is essential for creating programmed biological systems. With multiple DNA assembly methods and standards adopted in the Synthetic Biology community, automation of the DNA assembly process is now receiving serious attention. Automation will enable larger builds using less researcher time, while increasing the accessible design space. However, these benefits currently incur high costs for both equipment and consumables. Here, we address this limitation by introducing low-cost DNA assembly with BASIC on OpenTrons (DNA-BOT). For this purpose, we developed an open-source software package and demonstrated the performance of DNA-BOT by simultaneously assembling 88 constructs composed of 10 genetic parts, evaluating the promoter, ribosome binding site and gene order design space for a three-gene operon. All 88 constructs were assembled with high accuracy, at a consumables cost of $1.50-$5.50 per construct. This illustrates the efficiency, accuracy and affordability of DNA-BOT, making it accessible for most labs and democratizing automated DNA assembly.

Abstract Image

Abstract Image

Abstract Image

DNA- bot:用于合成生物学的低成本、自动化DNA组装平台。
多部分DNA组装是合成生物学和分子生物学中许多项目的物理起点。通过建立广泛的DNA构建文库来探索基因设计空间的能力对于创建程序化的生物系统至关重要。随着合成生物学领域采用多种DNA组装方法和标准,DNA组装过程的自动化正在受到重视。自动化将使用更少的研究人员时间实现更大的构建,同时增加可访问的设计空间。然而,这些好处目前会导致设备和消耗品的高成本。在这里,我们通过在OpenTrons上引入低成本的DNA组装(DNA- bot)来解决这一限制。为此,我们开发了一个开源软件包,通过同时组装由10个遗传部分组成的88个构建体,评估三个基因操纵子的启动子、核糖体结合位点和基因顺序设计空间,展示了DNA-BOT的性能。所有88个结构都以高精度组装,每个结构的消耗品成本为1.50- 5.50美元。这说明了DNA- bot的效率、准确性和可负担性,使大多数实验室都可以使用它,并使自动化DNA组装民主化。
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