电生理学的升级和自动化:迈向离子通道药物发现的高通量筛选。

M. Asmild, Nicholas Oswald, K. Krzywkowski, S. Friis, R. B. Jacobsen, Dirk Reuter, R. Taboryski, Jonathan Kutchinsky, R. Vestergaard, R. L. Schrøder, C. Sørensen, M. Bech, Mads P. G. Korsgaard, N. Willumsen
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引用次数: 28

摘要

离子通道药物发现中大型化合物文库的有效筛选需要开发新的电生理技术,与传统的膜片钳技术相比,这种技术的吞吐量大大增加。为了应对这一挑战,Sophion Bioscience正致力于开发两种自动化膜片钳产品系列,一种是传统的基于移液管的系统Apatchi-1,另一种是基于硅芯片的系统QPatch。自动化的程度从半自动化(Apatchi-1)到完全自动化(QPatch 96)不等,其中经过培训的技术人员以有限的方式与系统交互,系统在无人值守的情况下连续工作,直到完成对整个化合物库的筛选。系统的性能范围从中等到高吞吐量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Upscaling and automation of electrophysiology: toward high throughput screening in ion channel drug discovery.
Effective screening of large compound libraries in ion channel drug discovery requires the development of new electrophysiological techniques with substantially increased throughputs compared to the conventional patch clamp technique. Sophion Bioscience is aiming to meet this challenge by developing two lines of automated patch clamp products, a traditional pipette-based system called Apatchi-1, and a silicon chip-based system QPatch. The degree of automation spans from semi-automation (Apatchi-1) where a trained technician interacts with the system in a limited way, to a complete automation (QPatch 96) where the system works continuously and unattended until screening of a full compound library is completed. The performance of the systems range from medium to high throughputs.
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