通过小型化和自动化珠磨仪对原核细胞和真核细胞进行平行破碎

Parallelized disruption of prokaryotic and eukaryotic cells via miniaturized and automated bead mill.

作者信息

Jansen Roman P, Müller Moritz Fabian, Schröter Sophie Edith, Kappelmann Jannick, Klein Bianca, Oldiges Marco, Noack Stephan

机构信息

IBG-1: Biotechnology Forschungszentrum Jülich GmbH Jülich Germany.

Institute of Biotechnology RWTH Aachen University Aachen Germany.

出版信息

Eng Life Sci. 2020 May 6;20(8):350-356. doi: 10.1002/elsc.202000002. eCollection 2020 Aug.

DOI:10.1002/elsc.202000002

PMID:32774207

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7401235/

Abstract

The application of integrated microbioreactor systems is rapidly becoming of more interest to accelerate strain characterization and bioprocess development. However, available high-throughput screening capabilities are often limited to target extracellular compounds only. Consequently, there is a great demand for automated technologies allowing for miniaturized and parallel cell disruption providing access to intracellular measurements. In this study, a fully automated bead mill workflow was developed and validated for four different industrial platform organisms: , , , and . The workflow enables up to 48 parallel cell disruptions in microtiter plates and is applicable at-line to running lab-scale cultivations. The resulting cell extracts form the basis for quantitative omics studies where no rapid metabolic quenching is required (e.g., genomics and proteomics).

摘要

集成微生物反应器系统的应用正迅速变得更受关注，以加速菌株表征和生物工艺开发。然而，现有的高通量筛选能力通常仅限于针对胞外化合物。因此，对允许进行小型化和并行细胞破碎以实现细胞内测量的自动化技术有很大需求。在本研究中，开发并验证了一种针对四种不同工业平台生物（分别为、、、）的全自动珠磨工作流程。该工作流程能够在微孔板中实现多达48个并行细胞破碎，并且适用于在线运行实验室规模的培养。所得细胞提取物构成了无需快速代谢淬灭的定量组学研究（例如基因组学和蛋白质组学）的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b1c2/7401235/c9d5462f4815/ELSC-20-350-g002.jpg

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通过小型化和自动化珠磨仪对原核细胞和真核细胞进行平行破碎

Parallelized disruption of prokaryotic and eukaryotic cells via miniaturized and automated bead mill.

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