Issue 17, 2014

Enzymatic hydrolysis followed by gas chromatography-mass spectroscopy for determination of glycosides in tobacco and method optimization by response surface methodology

Abstract

To evaluate the glycoconjugated aroma compounds of three cultivars of tobacco, an enzymatic hydrolysis method followed by gas chromatography-mass spectroscopy (GC-MS) was successfully established using a series optimization approach. In the first step, two hydrolytic enzymes were compared and β-glucosidase was chosen. Then, the critical variables that affect the concentration of aglycons were searched by Plackett–Burman design (PBD) and further optimized by central composite design (CCD) of response surface methodology. The optimum conditions were: 60 h for hydrolysis time, 36.8 °C for hydrolysis temperature, 5.6 for pH, 2.1 mL for solvent volume, 2 mg mL−1 for β-glucosidase concentration and 200 rpm for agitation speed. Under the optimized experimental conditions, this method gave a satisfactory precision and linearity with relative standard deviation (RSD) less than 20% and Pearson correlation coefficients greater than 0.99. Finally, the proposed method was successfully employed to analyze flue-cured tobacco (FCT), sun-cured tobacco (SCT) and oriental tobacco (OT). Most of the aglycons were significantly different in the three cultivars and the corresponding characteristic components were discussed in detail.

Graphical abstract: Enzymatic hydrolysis followed by gas chromatography-mass spectroscopy for determination of glycosides in tobacco and method optimization by response surface methodology

Supplementary files

Article information

Article type
Paper
Submitted
03 May 2014
Accepted
30 Jun 2014
First published
30 Jun 2014

Anal. Methods, 2014,6, 7006-7014

Enzymatic hydrolysis followed by gas chromatography-mass spectroscopy for determination of glycosides in tobacco and method optimization by response surface methodology

K. Cai, H. Zhao, Z. Xiang, B. Cai, W. Pan and B. Lei, Anal. Methods, 2014, 6, 7006 DOI: 10.1039/C4AY01056F

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