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W2972309508 abstract "In this research, metabolic profiling/pathways of Thymus vulgaris (thyme) plant were assessed during a water deficit stress using an FTICR mass spectrometry-based metabolomics strategy incorporating multivariate data analysis and bioinformatics techniques. Herein, differences of MS signals in specific time courses after water deficit stress and control cases without any timing period were distinguished significantly by common pattern recognition techniques, i.e., PCA, HCA-Heatmap, and PLS-DA. Subsequently, the results were compared with supervised Kohonen neural network (SKN) ones as a non-linear data visualization and capable mapping tool. The classification models showed excellent performance to predict the level of drought stress. By assessing variances contribution on the PCA-loadings of the MS data, the discriminant variables related to the most critical metabolites were identified and then confirmed by ANOVA. Indeed, FTICR MS-based multivariate analysis strategy could explore distinctive metabolites and metabolic pathways/profiles, grouped into three metabolism categories including amino acids, carbohydrates (i.e., galactose, glucose, fructose, sucrose, and mannose), and other metabolites (rosmarinic acid and citrate), to indicate biological mechanisms in response to drought stress for thyme. It was achieved and approved through the MS signals, genomics databases, and transcriptomics factors to interpret and predict the plant metabolic behavior. Eventually, a comprehensive pathway analysis was used to provide a pathway enrichment analysis and explore topological pathway characteristics dealing with the remarkable metabolites to demonstrate that galactose metabolism is the most significant pathway in the biological system of thyme." @default.
W2972309508 created "2019-09-19" @default.
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W2972309508 date "2020-01-01" @default.
W2972309508 modified "2023-10-16" @default.
W2972309508 title "FTICR mass spectrometry-based multivariate analysis to explore distinctive metabolites and metabolic pathways: A comprehensive bioanalytical strategy toward time-course metabolic profiling of Thymus vulgaris plants responding to drought stress" @default.
W2972309508 cites W1209184532 @default.
W2972309508 cites W1587761090 @default.
W2972309508 cites W1677386261 @default.
W2972309508 cites W1970458547 @default.
W2972309508 cites W1971828148 @default.
W2972309508 cites W1971983473 @default.
W2972309508 cites W1975938177 @default.
W2972309508 cites W1978628425 @default.
W2972309508 cites W1979597489 @default.
W2972309508 cites W1981716010 @default.
W2972309508 cites W1982724915 @default.
W2972309508 cites W1986066597 @default.
W2972309508 cites W1989478492 @default.
W2972309508 cites W1993488586 @default.
W2972309508 cites W2003347556 @default.
W2972309508 cites W2004497816 @default.
W2972309508 cites W2006481826 @default.
W2972309508 cites W2011022636 @default.
W2972309508 cites W2028785071 @default.
W2972309508 cites W2041578220 @default.
W2972309508 cites W2043076340 @default.
W2972309508 cites W2043123654 @default.
W2972309508 cites W2051216975 @default.
W2972309508 cites W2052062475 @default.
W2972309508 cites W2054442084 @default.
W2972309508 cites W2060952451 @default.
W2972309508 cites W2063396347 @default.
W2972309508 cites W2066268415 @default.
W2972309508 cites W2068615860 @default.
W2972309508 cites W2085587146 @default.
W2972309508 cites W2088944177 @default.
W2972309508 cites W2089468765 @default.
W2972309508 cites W2095133506 @default.
W2972309508 cites W2099524720 @default.
W2972309508 cites W2106855632 @default.
W2972309508 cites W2107121088 @default.
W2972309508 cites W2109705076 @default.
W2972309508 cites W2111823238 @default.
W2972309508 cites W2126630551 @default.
W2972309508 cites W2128175005 @default.
W2972309508 cites W2134797397 @default.
W2972309508 cites W2145265944 @default.
W2972309508 cites W2145390393 @default.
W2972309508 cites W2150944559 @default.
W2972309508 cites W2155758352 @default.
W2972309508 cites W2157236929 @default.
W2972309508 cites W2159482845 @default.
W2972309508 cites W2164495529 @default.
W2972309508 cites W2164583936 @default.
W2972309508 cites W2167540852 @default.
W2972309508 cites W2170335659 @default.
W2972309508 cites W2179725301 @default.
W2972309508 cites W2314665098 @default.
W2972309508 cites W2399540273 @default.
W2972309508 cites W2588374504 @default.
W2972309508 cites W2604174336 @default.
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W2972309508 cites W4251248552 @default.
W2972309508 cites W4256409604 @default.
W2972309508 cites W4294216483 @default.
W2972309508 cites W4596803 @default.
W2972309508 doi "https://doi.org/10.1016/j.plantsci.2019.110257" @default.
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