Abstract
Ammonium (NH4+) is the most common N-source for yeast fermentations, and N-limitation is frequently applied to reduce growth and increase product yields. While there is significant molecular knowledge on NH4+ transport and assimilation, there have been few attempts to measure the in vivo concentration of this metabolite. In this article, we present a sensitive and accurate analytical method to quantify the in vivo intracellular ammonium concentration in Saccharomyces cerevisiae based on standard rapid sampling and metabolomics techniques. The method validation experiments required the development of a proper sample processing protocol to minimize ammonium production/consumption during biomass extraction by assessing the impact of amino acid degradation—an element that is often overlooked. The resulting cold chloroform metabolite extraction method, together with quantification using ultra high performance liquid chromatography-isotope dilution mass spectrometry (UHPLC-IDMS), was not only more sensitive than most of the existing methods but also more accurate than methods that use electrodes, enzymatic reactions, or boiling water or boiling ethanol biomass extraction because it minimized ammonium consumption/production during sampling processing and interference from other metabolites in the quantification of intracellular ammonium. Finally, our validation experiments showed that other metabolites such as pyruvate or 2-oxoglutarate (αKG) need to be extracted with cold chloroform to avoid measurements being biased by the degradation of other metabolites (e.g., amino acids).
Highlights
One of the key challenges when studying nitrogen metabolism in different biological systems in vivo is measuring the intracellular ammonium concentration
Accurate data on in vivo intracellular ammonium concentrations are needed to study the molecular mechanisms behind its transport, assimilation, and regulation, as observed by Kim et al [1]
The transporters and reactions by which ammonium is assimilated in cells are well known [2,3,4], little is known about the intracellular ammonium concentration and its regulatory mechanisms
Summary
One of the key challenges when studying nitrogen metabolism in different biological systems in vivo is measuring the intracellular ammonium concentration. Accurate data on in vivo intracellular ammonium concentrations are needed to study the molecular mechanisms behind its transport, assimilation, and regulation, as observed by Kim et al [1]. In relation to Saccharomyces cerevisiae, many studies have described how central nitrogen metabolism is tightly regulated by the presence of ammonium, glutamate, glutamine, and other nitrogenous compounds [4,5,6]. In most of the studies related to ammonium transport, not NH4 + , but analogous non-metabolizable molecules were used, such as methylamine [7,8,9]. Other studies measured only the extracellular ammonium concentration
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