Multiplex Expression Cassette Assembly: A flexible and versatile method for building complex genetic circuits in conventional vectors.

IF 10.1 1区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Xun Jiang, Zhuoxiang Zhang, Xiuming Wu, Changmei Li, Xuan Sun, Yiting Li, Aixia Chang, Aiguo Yang, Changqing Yang
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Abstract

The manipulation of multiple transcription units for simultaneous and coordinated expression is not only key to building complex genetic circuits to accomplish diverse functions in synthetic biology, but is also important in crop breeding for significantly improved productivity and overall performance. However, building constructs with multiple independent transcription units for fine-tuned and coordinated regulation is complicated and time-consuming. Here, we introduce the Multiplex Expression Cassette Assembly (MECA) method, which modifies canonical vectors compatible with Golden Gate Assembly, and then uses them to produce multi-cassette constructs. By embedding the junction syntax in primers that are used to amplify functional elements, MECA is able to make complex constructs using only one intermediate vector and one destination vector via two rounds of one-pot Golden Gate assembly reactions, without the need for dedicated vectors and a coherent library of standardized modules. As a proof-of-concept, we modified eukaryotic and prokaryotic expression vectors to generate constructs for transient expression of green fluorescent protein and β-glucuronidase in Nicotiana benthamiana, genome editing to block monoterpene metabolism in tomato glandular trichomes, production of betanin in tobacco and synthesis of β-carotene in Escherichia coli. Additionally, we engineered the stable production of thymol and carvacrol, bioactive compounds from Lamiaceae family plants, in glandular trichomes of tobacco. These results demonstrate that MECA is a flexible, efficient and versatile method for building complex genetic circuits, which will not only play a critical role in plant synthetic biology, but also facilitate improving agronomic traits and pyramiding traits for the development of next-generation elite crops.

多重表达盒组装:在传统载体中构建复杂基因回路的灵活多变方法。
操纵多个转录单元进行同步协调表达,不仅是构建复杂遗传回路以实现合成生物学中各种功能的关键,而且对于作物育种以显著提高生产力和整体性能也非常重要。然而,构建具有多个独立转录单元的构建体以进行微调和协调调控既复杂又耗时。在这里,我们介绍了多重表达盒组装(MECA)方法,它可以修改与金门组装兼容的标准载体,然后利用它们来生产多盒构建体。通过在用于扩增功能元件的引物中嵌入连接语法,MECA 能够通过两轮一锅金门组装反应,只用一个中间载体和一个目的载体就能制造出复杂的构建体,而不需要专用载体和连贯的标准化模块库。作为概念验证,我们修改了真核生物和原核生物表达载体,生成了在烟草中瞬时表达绿色荧光蛋白和β-葡糖醛酸酶的构建体、阻断番茄腺毛中单萜烯代谢的基因组编辑、烟草中甜菜宁的生产以及大肠杆菌中β-胡萝卜素的合成。此外,我们还在烟草腺毛中设计了百里酚和香芹酚的稳定生产,这两种化合物是来自腊梅科植物的生物活性化合物。这些结果表明,MECA 是构建复杂遗传回路的一种灵活、高效和多用途的方法,它不仅将在植物合成生物学中发挥关键作用,还将促进农艺性状的改良和性状金字塔化,从而开发出下一代精英作物。
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
Plant Biotechnology Journal
Plant Biotechnology Journal 生物-生物工程与应用微生物
CiteScore
20.50
自引率
2.90%
发文量
201
审稿时长
1 months
期刊介绍: Plant Biotechnology Journal aspires to publish original research and insightful reviews of high impact, authored by prominent researchers in applied plant science. The journal places a special emphasis on molecular plant sciences and their practical applications through plant biotechnology. Our goal is to establish a platform for showcasing significant advances in the field, encompassing curiosity-driven studies with potential applications, strategic research in plant biotechnology, scientific analysis of crucial issues for the beneficial utilization of plant sciences, and assessments of the performance of plant biotechnology products in practical applications.
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