| Abstract: | Steroidal alkaloids (SA) are nitrogen-containing specialized metabolites applied as chemophenetic markers in Solanum L. (Solanaceae). Over time, Solanum has been the focus of several molecular phylogenetic studies in an attempt to resolve its infrageneric classification and the relationship among species belonging to this genus. Here we aimed to study SA chemodiversity to identify chemical patterns and to perform a chemophenetic characterization of the Solanum genus and its major clades. Chemical literature data about Solanum steroidal alkaloids was assessed and structural variability of this biogenetic group was used in the chemometric analysis, by applying a Principal Component Analysis and Hierarchical Cluster Analysis. The results demonstrate that the SA chemodiversity in Solanum is represented by the occurrence of nine SA subtypes. The biosynthetic predominance of the spirosolane-type in Solanum clades was observed, except for the preference of the Potato clade in producing the solanidane-type. The Geminata clade displayed low SA glycosylation patterns, containing 3-oxy groups. In addition, low SA production in the Cyphomandra clade was observed. Chemical similarities between the Archaesolanum, Dulcamaroid and Morelloid clades were observed by chemometric analyses. In sum, chemophenetics was proven a reliable and additional tool to describe the array of specialized metabolites in Solanum clades, showing chemical information suitable to corroborate molecular phylogenetic studies. |
