Issue 39, 2021

A relative quantitation method for measuring DNA methylation and hydroxymethylation using guanine as an internal standard

Abstract

Global DNA methylation and hydroxymethylation play an important role in gene expression. They can be connected with several diseases. The modification status could be a biomarker to determine the status of disease. A fast, easy and accurate liquid chromatography – tandem mass spectrometry method has been developed for the precise quantitation of 5-methylcytosine and 5-hydroxymethylcytosine. Formic acid was used for the hydrolysis of the DNA strand resulting in nucleobases. These polar hydrolysis products were separated on a normal phase column using reversed phase eluents in inverse gradient mode. Multiple reaction monitoring was applied to achieve high selectivity and sensitivity for the quantitation. A new relative quantitation model was developed by using guanine, as an internal standard, present in samples. The new method was successfully validated with excellent accuracy and precision values in the range of 0.005–0.5% for 5hmC and 1–15% for 5mC. The main advantages of this quantitation method are that, due to relative quantitation, calibration curves can be used without reacquiring the calibration points and no additional isotope labeled internal standards are required. The method was tested to identify the concentrations of 5mC and 5hmC in various sample types. The lowest level of DNA sample required in the case of 0.005% 5hmC is 0.5 μg.

Graphical abstract: A relative quantitation method for measuring DNA methylation and hydroxymethylation using guanine as an internal standard

Article information

Article type
Paper
Submitted
27 May 2021
Accepted
22 Aug 2021
First published
16 Sep 2021
This article is Open Access
Creative Commons BY license

Anal. Methods, 2021,13, 4614-4622

A relative quantitation method for measuring DNA methylation and hydroxymethylation using guanine as an internal standard

K. Németh, K. Mészáros, B. Szabó, H. Butz, T. Arányi and P. T. Szabó, Anal. Methods, 2021, 13, 4614 DOI: 10.1039/D1AY00897H

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