向导 RNA 结构设计可实现用于生物合成分析的组合 CRISPRa 程序。

Guide RNA structure design enables combinatorial CRISPRa programs for biosynthetic profiling.

机构信息

Molecular Engineering & Sciences Institute and Center for Synthetic Biology, University of Washington, Seattle, WA, USA.

Department of Chemistry, University of Washington, Seattle, WA, USA.

出版信息

Nat Commun. 2024 Jul 27;15(1):6341. doi: 10.1038/s41467-024-50528-1.

DOI:10.1038/s41467-024-50528-1

PMID:39068154

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11283517/

Abstract

Engineering metabolism to efficiently produce chemicals from multi-step pathways requires optimizing multi-gene expression programs to achieve enzyme balance. CRISPR-Cas transcriptional control systems are emerging as important tools for programming multi-gene expression, but poor predictability of guide RNA folding can disrupt expression control. Here, we correlate efficacy of modified guide RNAs (scRNAs) for CRISPR activation (CRISPRa) in E. coli with a computational kinetic parameter describing scRNA folding rate into the active structure (r = 0.8). This parameter also enables forward design of scRNAs, allowing us to design a system of three synthetic CRISPRa promoters that can orthogonally activate (>35-fold) expression of chosen outputs. Through combinatorial activation tuning, we profile a three-dimensional design space expressing two different biosynthetic pathways, demonstrating variable production of pteridine and human milk oligosaccharide products. This RNA design approach aids combinatorial optimization of metabolic pathways and may accelerate routine design of effective multi-gene regulation programs in bacterial hosts.

摘要

工程代谢以从多步途径高效生产化学品需要优化多基因表达程序以实现酶平衡。CRISPR-Cas 转录控制系统作为编程多基因表达的重要工具正在出现，但引导 RNA 折叠的可预测性差会破坏表达控制。在这里，我们将大肠杆菌中 CRISPR 激活 (CRISPRa) 的修饰引导 RNA (scRNA) 的功效与描述 scRNA 折叠成活性结构的计算动力学参数相关联（r=0.8）。该参数还可以实现 scRNA 的正向设计，使我们能够设计三个合成 CRISPRa 启动子的系统，这些系统可以正交激活（>35 倍）所选产物的表达。通过组合激活调整，我们对表达两种不同生物合成途径的三维设计空间进行了分析，证明了蝶呤和人乳寡糖产物的可变生产。这种 RNA 设计方法有助于代谢途径的组合优化，并可能加速在细菌宿主中有效多基因调控程序的常规设计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ea13/11283517/9a0ee8f4e69d/41467_2024_50528_Fig1_HTML.jpg

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向导 RNA 结构设计可实现用于生物合成分析的组合 CRISPRa 程序。

Guide RNA structure design enables combinatorial CRISPRa programs for biosynthetic profiling.

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