Title: | Climate and Processing Effects on Tea (Camellia sinensis L. Kuntze) Metabolome: Accurate Profiling and Fingerprinting by Comprehensive Two-Dimensional Gas Chromatography/Time-of-Flight Mass Spectrometry |
Author(s): | Stilo F; Tredici G; Bicchi C; Robbat A; Morimoto J; Cordero C; |
Address: | "Dipartimento di Scienza a Tecnologia del Farmaco, Universita degli Studi di Torino, 10125 Turin, Italy. Department of Chemistry, Tufts University, Medford, MA 02155, USA" |
DOI: | 10.3390/molecules25102447 |
ISSN/ISBN: | 1420-3049 (Electronic) 1420-3049 (Linking) |
Abstract: | "This study applied an untargeted-targeted (UT) fingerprinting approach, based on comprehensive two-dimensional gas chromatography-time-of-flight mass spectrometry (GCxGC-TOF MS), to assess the effects of rainfall and temperature (both seasonal and elevational) on the tea metabolome. By this strategy, the same compound found in multiple samples need only to be identified once, since chromatograms and mass spectral features are aligned in the data analysis process. Primary and specialized metabolites of leaves from two Chinese provinces, Yunnan (pu'erh) and Fujian (oolong), and a farm in South Carolina (USA, black tea) were studied. UT fingerprinting provided insight into plant metabolism activation/inhibition, taste and trigeminal sensations, and antioxidant properties, not easily attained by other analytical approaches. For example, pu'erh and oolong contained higher relative amounts of amino acids, organic acids, and sugars. Conversely, black tea contained less of all targeted compounds except fructose and glucose, which were more similar to oolong tea. Findings revealed compounds statistically different between spring (pre-monsoon) and summer (monsoon) in pu'erh and oolong teas as well as compounds that exhibited the greatest variability due to seasonal and elevational differences. The UT fingerprinting approach offered unique insights into how differences in growing conditions and commercial processing affect the nutritional benefits and sensory characteristics of tea beverages" |
Keywords: | Camellia sinensis/chemistry/growth & development/*metabolism Climate Gas Chromatography-Mass Spectrometry Humans Metabolome/*genetics Plant Leaves/chemistry/metabolism Tea/growth & development/*metabolism Volatile Organic Compounds/*metabolism climate eve; |
Notes: | "MedlineStilo, Federico Tredici, Giulia Bicchi, Carlo Robbat, Albert Jr Morimoto, Joshua Cordero, Chiara eng Switzerland 2020/05/28 Molecules. 2020 May 24; 25(10):2447. doi: 10.3390/molecules25102447" |