Dansylation Metabolite Assay: A Simple and Rapid Method for Sample Amount
Normalization in Metabolomics
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Abstract
Metabolomics involves the comparison
of the metabolomes of individual
samples from two or more groups to reveal the metabolic differences.
In order to measure the metabolite concentration differences accurately,
using the same amount of starting materials is essential. In this
work, we describe a simple and rapid method for sample amount normalization.
It is based on dansylation labeling of the amine and phenol submetabolome
of an individual sample, followed by solvent extraction of the labeled
metabolites and ultraviolet (UV) absorbance measurement using a microplate
reader. A calibration curve of a mixture of 17 dansyl-labeled amino
acid standards is used to determine the total concentration of the
labeled metabolites in a sample. According to the measured concentrations
of individual samples, the volume of an aliquot taken from each sample
is adjusted so that the same sample amount is taken for subsequent
metabolome comparison. As an example of applications, this dansylation
metabolite assay method is shown to be useful in comparative metabolome
analysis of two different E. coli strains
using a differential chemical isotope labeling LC-MS platform. Because
of the low cost of equipment and reagents and the simple procedure
used in the assay, this method can be readily implemented. We envisage
that, this assay, which is analogous to the bicinchoninic acid (BCA)
protein assay widely used in proteomics, will be applicable to many
types of samples for quantitative metabolomics