定量淬灭评估和青霉素发酵细胞内代谢物的直接分析。

Quantitative quenching evaluation and direct intracellular metabolite analysis in Penicillium chrysogenum.

机构信息

SU Development Anti-Infectives, Sandoz GmbH, 6250 Kundl/Tyrol, Austria.

出版信息

Anal Biochem. 2013 Jul 1;438(1):47-52. doi: 10.1016/j.ab.2013.03.021. Epub 2013 Mar 27.

DOI:10.1016/j.ab.2013.03.021

Abstract

Sustained progress in metabolic engineering methodologies has stimulated new efforts toward optimizing fungal production strains such as through metabolite analysis of Penicillium chrysogenum industrial-scale processes. Accurate intracellular metabolite quantification requires sampling procedures that rapidly stop metabolism (quenching) and avoid metabolite loss via the cell membrane (leakage). When sampling protocols are validated, the quenching efficiency is generally not quantitatively assessed. For fungal metabolomics, quantitative biomass separation using centrifugation is a further challenge. In this study, P. chrysogenum intracellular metabolites were quantified directly from biomass extracts using automated sampling and fast filtration. A master/slave bioreactor concept was applied to provide industrial production conditions. Metabolic activity during sampling was monitored by 13C tracing. Enzyme activities were efficiently stopped and metabolite leakage was absent. This work provides a reliable method for P. chrysogenum metabolomics and will be an essential base for metabolic engineering of industrial processes.

摘要

代谢工程方法的持续进展刺激了优化真菌生产菌株的新努力，例如通过对工业规模青霉素生产过程中的细胞内代谢物进行分析。准确的细胞内代谢物定量需要快速停止代谢（淬灭）并避免通过细胞膜（渗漏）损失代谢物的采样程序。当采样方案得到验证时，通常不会对淬灭效率进行定量评估。对于真菌代谢组学，使用离心进行定量生物质分离是另一个挑战。在这项研究中，使用自动采样和快速过滤直接从生物质提取物中定量测定了青霉素生产菌的细胞内代谢物。应用主/从式生物反应器概念提供工业生产条件。通过 13C 示踪监测采样过程中的代谢活性。酶活性被有效停止，代谢物泄漏不存在。这项工作为青霉素生产菌代谢组学提供了一种可靠的方法，将成为工业过程代谢工程的重要基础。

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定量淬灭评估和青霉素发酵细胞内代谢物的直接分析。

Quantitative quenching evaluation and direct intracellular metabolite analysis in Penicillium chrysogenum.

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