Plant Engineering to Enable Platforms for Sustainable Bioproduction of Terpenoids.

Q4 Biochemistry, Genetics and Molecular Biology
Jacob D Bibik, Björn Hamberger
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引用次数: 0

Abstract

Terpenoids represent the most diverse class of natural products, with a broad spectrum of industrial relevance including applications in green solvents, flavors and fragrances, nutraceuticals, colorants, and therapeutics. They are typically challenging to extract from their natural sources, where they occur in small amounts and mixtures of related but unwanted byproducts. Formal chemical synthesis, where established, is reliant on petrochemistry. Hence, there is great interest in developing sustainable solutions to assemble biosynthetic pathways in engineered host organisms. Metabolic engineering for chemical production has largely focused on microbial hosts, yet plants offer a sustainable production platform. In addition to containing the precursor pathways that generate the terpenoid building blocks as well as the cell structures and compartments required, or tractable localization for the enzymes involved, plants may provide a low input system to produce these chemicals using carbon dioxide and sunlight only. There have been significant recent advancements in the discovery of pathways to terpenoids of interest as well as strategies to boost yields in host plants. While part of the phytochemical field is focusing on the discovery of biosynthetic pathways, this review will focus on advancements using the pathway toolbox and toward engineering plants for the production of terpenoids. We will highlight strategies currently used to produce target products, optimization of known pathways to improve yields, compartmentalization of pathways within cells, and genetic tools developed to facilitate complex engineering of biosynthetic pathways. These advancements in Synthetic Biology are bringing engineered plant systems closer to commercially relevant hosts for the bioproduction of terpenoids.

通过植物工程建立可持续生物生产萜类化合物的平台。
萜类化合物是最多样化的一类天然产品,具有广泛的工业用途,包括绿色溶剂、香精香料、营养保健品、着色剂和治疗剂。从天然资源中提取它们通常具有挑战性,因为在天然资源中,它们的含量很少,而且是由相关但不需要的副产品组成的混合物。正式的化学合成(如已建立)依赖于石油化学。因此,人们对开发可持续的解决方案,在工程宿主生物体中组装生物合成途径产生了浓厚的兴趣。用于化学生产的代谢工程主要集中在微生物宿主上,但植物提供了一个可持续的生产平台。除了含有生成萜类化合物构件的前体途径、所需的细胞结构和细胞间隙,或相关酶的可控定位外,植物还可以提供一个低投入系统,仅利用二氧化碳和阳光就能生产这些化学品。最近,在发现相关萜类化合物的途径以及提高宿主植物产量的策略方面取得了重大进展。植物化学领域的部分工作重点是发现生物合成途径,而本综述将重点介绍利用途径工具箱和植物工程技术生产萜类化合物方面的进展。我们将重点介绍目前用于生产目标产品的策略、优化已知途径以提高产量、细胞内途径的分区以及为促进生物合成途径的复杂工程而开发的遗传工具。合成生物学的这些进步使工程化植物系统更接近具有商业价值的萜类化合物生物生产宿主。
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
Methods in molecular biology
Methods in molecular biology Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
2.00
自引率
0.00%
发文量
3536
期刊介绍: For over 20 years, biological scientists have come to rely on the research protocols and methodologies in the critically acclaimed Methods in Molecular Biology series. The series was the first to introduce the step-by-step protocols approach that has become the standard in all biomedical protocol publishing. Each protocol is provided in readily-reproducible step-by-step fashion, opening with an introductory overview, a list of the materials and reagents needed to complete the experiment, and followed by a detailed procedure that is supported with a helpful notes section offering tips and tricks of the trade as well as troubleshooting advice.
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