基于声控微滴喷射的自动反应筛选
Acoustic Droplet Ejection Enabled Automated Reaction Scouting.
作者信息
Wang Yuanze, Shaabani Shabnam, Ahmadianmoghaddam Maryam, Gao Li, Xu Ruixue, Kurpiewska Katarzyna, Kalinowska-Tluscik Justyna, Olechno Joe, Ellson Richard, Kossenjans Michael, Helan Victoria, Groves Matthew, Dömling Alexander
机构信息
Department of Drug Design, University of Groningen, Deusinglaan 1, 7313 AV Groningen, The Netherlands.
Department of Crystal Chemistry and Crystal Physics, Faculty of Chemistry, Jagiellonian University, ul. Gronostajowa 2, 30-387 Krakow, Poland.
出版信息
ACS Cent Sci. 2019 Mar 27;5(3):451-457. doi: 10.1021/acscentsci.8b00782. Epub 2019 Feb 27.
Miniaturization and acceleration of synthetic chemistry are critically important for rapid property optimization in pharmaceutical, agrochemical, and materials research and development. However, in most laboratories organic synthesis is still performed on a slow, sequential, and material-consuming scale and not validated for multiple substrate combinations. Herein, we introduce fast and touchless acoustic droplet ejection (ADE) technology into small-molecule chemistry to transfer building blocks by nL droplets and to scout a newly designed isoquinoline synthesis. With each compound in a discrete well, 384 random derivatives were synthesized in an automated fashion, and their quality was monitored by SFC-MS and TLC-UV-MS analysis. We exemplify a pipeline of fast and efficient nmol scouting to mmol- and mol-scale synthesis for the discovery of a useful novel reaction with great scope.
合成化学的小型化和加速对于药物、农用化学品及材料研发中的快速性能优化至关重要。然而,在大多数实验室中,有机合成仍在缓慢、逐序且消耗材料的规模上进行,并且未针对多种底物组合进行验证。在此,我们将快速且非接触式的声滴喷射(ADE)技术引入小分子化学中,以通过纳升级液滴转移结构单元,并探索一种新设计的异喹啉合成方法。每个化合物位于一个独立的孔中,以自动化方式合成了384种随机衍生物,并通过超临界流体色谱 - 质谱联用(SFC-MS)以及薄层色谱 - 紫外 - 质谱联用(TLC-UV-MS)分析监测其质量。我们展示了一条从快速高效的纳摩尔级筛选到毫摩尔级和摩尔级合成的流程,用于发现一种适用范围广的有用新型反应。
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