Zhao Cheng, Kim YongKyoung, Zeng Yining, Li Man, Wang Xin, Hu Cheng, Gorman Connor, Dai Susie Y, Ding Shi-You, Yuan Joshua S
Texas A&M Agrilife Synthetic and Systems Biology Innovation Hub , Texas A&M University , College Station , Texas 77843 , United States.
Department of Plant Pathology and Microbiology , Texas A&M University , College Station , Texas 77843 , United States.
ACS Synth Biol. 2018 Mar 16;7(3):774-781. doi: 10.1021/acssynbio.7b00368. Epub 2018 Feb 16.
Traditional bioproduct engineering focuses on pathway optimization, yet is often complicated by product inhibition, downstream consumption, and the toxicity of certain products. Here, we present the co-compartmentation of biosynthesis and storage via a synthetic droplet as an effective new strategy to improve the bioproduct yield, with squalene as a model compound. A hydrophobic protein was designed and introduced into the tobacco chloroplast to generate a synthetic droplet for terpene storage. Simultaneously, squalene biosynthesis enzymes were introduced to chloroplasts together with the droplet-forming protein to co-compartmentalize the biosynthesis and storage of squalene. The strategy has enabled a record yield of squalene at 2.6 mg/g fresh weight without compromising plant growth. Confocal fluorescent microscopy imaging, stimulated Raman scattering microscopy, and droplet composition analysis confirmed the formation of synthetic storage droplet in chloroplast. The co-compartmentation of synthetic storage droplet with a targeted metabolic pathway engineering represents a new strategy for enhancing bioproduct yield.
传统的生物产品工程专注于途径优化,但常常因产物抑制、下游消耗以及某些产品的毒性而变得复杂。在此,我们提出通过合成液滴实现生物合成与储存的共区室化,作为提高生物产品产量的一种有效的新策略,以角鲨烯作为模型化合物。设计了一种疏水蛋白并将其引入烟草叶绿体中,以生成用于萜类储存的合成液滴。同时,将角鲨烯生物合成酶与形成液滴的蛋白一起引入叶绿体,对角鲨烯的生物合成和储存进行共区室化。该策略在不影响植物生长的情况下,实现了角鲨烯创纪录的产量,达到2.6毫克/克鲜重。共聚焦荧光显微镜成像、受激拉曼散射显微镜以及液滴成分分析证实了叶绿体中合成储存液滴的形成。合成储存液滴与靶向代谢途径工程的共区室化代表了提高生物产品产量的一种新策略。
