Plant Alkaloids: Production, Extraction, and Potential Therapeutic Properties

 Natural Secondary Metabolites. Springer, Cham. (2023)

Alkaloids are a type of secondary metabolites that can be found in different parts of plants. This group of compounds is diverse and can be divided into nine subgroups: pyridine, tropane, isoquinoline, phenanthrene, phenylethylamine, indole, purine, imidazole, and terpenoids. Most of these compounds are recognized for their anti-inflammatory, antitumor, antibacterial, antifungal, and antiviral activities, among others. Although more than 27,000 alkaloids have been described up to date, the search for novel compounds with promising therapeutic properties is a hot topic among researchers worldwide. In this line, the production of the currently marketed plant alkaloids including extraction methods, isolation, and purification is reviewed in this chapter. In addition, a deep description of different groups of alkaloids in terms of their chemical structure, plant source, and uses is also presented. Recent advances in the therapeutic potential and biological activities of this vast group of phytochemicals are also included.

Classification and authentication of tea according to their harvest season based on FT-IR fingerprinting using pattern recognition methods

 J. Food Comp. Anal. 115, 104995 (2023)

The potential of FT-IR spectral fingerprinting was investigated to classify tea samples based on the harvest season (May and September). Tea samples were collected from five geographical regions (north of Iran) during the harvesting period 2019–2020. Principal component analysis (PCA), principal component analysis-linear discriminant analysis (PCA-LDA) and partial least square-linear discriminant analysis (PLS-LDA) were employed in order to assess the feasibility of discrimination of tea samples based on their harvest season using their FT-IR spectral data. The results showed that the tea samples from two harvest seasons can be identified based on FT-IR spectral fingerprints. All calibration samples were correctly classified (100.0 %) by the PCA-LDA and PLS-LDA models using leave-one-out cross validation. The mean sensitivity and specificity (for prediction set) were both 98.6 % for PCA-LDA model and 100.0 % for PLS-LDA mode. A high percentage of correct classifications for the training set shows the strong relationship between the FT-IR spectral fingerprinting and the harvest season, while the satisfactory results for the prediction set demonstrates the ability to identify the harvest season of an unknown tea sample based on its FT-IR spectral data.

Classification and authentication of tea according to their harvest season based on FT-IR fingerprinting using pattern recognition methods

 J. Food Comp. Anal. 115, 104995, 2023

The potential of FT-IR spectral fingerprinting was investigated to classify tea samples based on the harvest season (May and September). Tea samples were collected from five geographical regions (north of Iran) during the harvesting period 2019–2020. Principal component analysis (PCA), principal component analysis-linear discriminant analysis (PCA-LDA) and partial least square-linear discriminant analysis (PLS-LDA) were employed in order to assess the feasibility of discrimination of tea samples based on their harvest season using their FT-IR spectral data. The results showed that the tea samples from two harvest seasons can be identified based on FT-IR spectral fingerprints. All calibration samples were correctly classified (100.0 %) by the PCA-LDA and PLS-LDA models using leave-one-out cross validation. The mean sensitivity and specificity (for prediction set) were both 98.6 % for PCA-LDA model and 100.0 % for PLS-LDA mode. A high percentage of correct classifications for the training set shows the strong relationship between the FT-IR spectral fingerprinting and the harvest season, while the satisfactory results for the prediction set demonstrates the ability to identify the harvest season of an unknown tea sample based on its FT-IR spectral data.