An ion-pair free LC-MS/MS method for quantitative metabolite profiling of microbial bioproduction systems

• Published in: Talanta (Oxford) Vol. 222; p. 121625
• Main Authors: Takenaka, Musashi, Yoshida, Takanobu, Hori, Yoshimi, Bamba, Takahiro, Mochizuki, Masao, Vavricka, Christopher J., Hattori, Takanari, Hayakawa, Yoshihiro, Hasunuma, Tomohisa, Kondo, Akihiko
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.01.2021
• Subjects: Chromatography, Liquid; Ion-pair free; Kluyveromyces; Liquid chromatography-tandem mass spectrometry; Metabolomics; Microbes; Pentafluorophenyl propyl column; Reproducibility of Results; Tandem Mass Spectrometry; Ion-pair free; Metabolomics; Liquid chromatography-tandem mass spectrometry; Pentafluorophenyl propyl column; Microbes
• ISSN: 0039-9140; 1873-3573
• DOI: 10.1016/j.talanta.2020.121625

Data-driven engineering of microbes has been demonstrated for the sustainable production of high-performance chemicals. Metabolic profiling analysis is essential to increase the productivity of target compounds. However, improvement of comprehensive analysis methodologies is required for the high demands of metabolic engineering. Therefore, a liquid chromatography-tandem mass spectrometry (LC-MS/MS) based methodology was designed and applied to cover a wide target range with high precision. Ion-pair free separation of metabolites on a pentafluorophenyl propyl column enabled high-precision quantification of 113 metabolites. The method was further evaluated for high reproducibility and robustness. Target analytes consisted of primary metabolites and intermediate metabolites for microbial production of high-performance chemicals. 95 metabolites could be detected with high reproducibility of peak area (intraday data: CV<15%), and 53 metabolites could be sensitively determined within a wide dynamic linear range (3–4 orders of magnitude). The developed system was further applied to the metabolomic analysis of various prokaryotic and eukaryotic microorganisms. Differences due to culture media and metabolic phenotypes could be observed when comparing the metabolomes of conventional and non-conventional yeast. Furthermore, almost all Kluyveromyces marxianus metabolites could be detected with moderate reproducibility (CV<40%, among independent extractions), where 41 metabolites were detected with very high reproducibility (CV<15%). In addition, the accuracy was validated via a spike-and-recovery test,and 78 metabolites were detected with analyte recovery in the 80–120% range. Together these results establish ion-pair free metabolic profiling as a comprehensive and precise tool for data-driven bioengineering applications. [Display omitted] •Ion-pair free LC-MS/MS is applied to quantify a wide range of target metabolites.•Pentafluorophenyl propyl phase separated 113 metabolites with complex interactions.•Diverse metabolites are detected with moderate reproducibility over a wide dynamic range.•Improved accuracy is verified via the spike-and-recovery test.•Metabolomics analysis of various microbes reveals metabolic phenotypes.