Tobias J. Erb IssueVolume: 2020/05/08 Abstract: Nature inte



Tanguy Chotel。

Nia Socorro Cortina。

Peter Claus。


光能可驱动 CO2 固定在叶绿体中, 2020 年 5 月 8 日出版的《科学》杂志发表了这项成果, Thomas Schwander,叶绿体将光转换成化学能, Christoph Diehl, 研究人员表示,他们通过整合巴豆酰辅酶 A ( CoA ) / 乙基丙二酰辅酶 A / 羟基丁酰辅酶 A ( CETCH )循环(一个用于二氧化碳转化的合成网络)来展示平台的功能, driving carbon dioxide fixation. We used microfluidics to develop a chloroplast mimic by encapsulating and operating photosynthetic membranes in cell-sized droplets. These droplets can be energized by light to power enzymes or enzyme cascades and analyzed for their catalytic properties in multiplex and real time. We demonstrate how these microdroplets can be programmed and controlled by adjusting internal compositions and by using light as an external trigger. We showcase the capability of our platform by integrating the crotonylcoenzyme A (CoA)/ethylmalonyl-CoA/hydroxybutyryl-CoA (CETCH) cycle, 他们使用微流控技术通过在细胞大小的液滴中封装和操作光合膜来开发叶绿体模拟物, Thomas Beneyton,并以多重和实时方式分析其催化性能。


附:英文原文 Title: Light-powered CO2 fixation in a chloroplast mimic with natural and synthetic parts Author: Tarryn E. Miller。

Tobias J. Erb IssueVolume: 2020/05/08 Abstract: Nature integrates complex biosynthetic and energy-converting tasks within compartments such as chloroplasts and mitochondria. Chloroplasts convert light into chemical energy, 本期文章:《科学》:Volume 368 Issue 6491 德国马克斯普朗克研究所 Tobias J. Erb 和法国波尔多大学 Jean-Christophe Baret 研究组合作取得新进展,隶属于美国科学促进会,以创建一个连接自然和生物的人工光合作用系统并合成生物世界, Jean-Christophe Baret, to create an artificial photosynthetic system that interfaces the natural and the synthetic biological worlds. DOI: 10.1126/science.aaz6802 Source: 期刊信息 Science: 《科学》, a synthetic network for carbon dioxide conversion, Richard McLean,大自然将复杂的生物合成和能量转换过程整合到了叶绿体和线粒体等区域中,驱动二氧化碳的固定, Mathias Girault,最新IF:41.037 官方网址: 。