abstract

• Main conclusion: During their domestication process, the species of the genus Opuntia lose their ability to survive in the wild. Presence and concentration of secondary metabolites which play a role in the interaction with their surroundings are modified but without an identifiable pattern. Abstract: A domestication gradient based on morphological characteristics has been previously described for the species in the Opuntia genus. Secondary metabolites are a diverse group of bioactive compounds that relate to a species evolution, both in their natural and artificial (domestication process) selection environments. In addition, these compounds are associated with plant resistance to stress when growing in the wild. A comprehensive characterization of secondary metabolite profiles in the Opuntia genus that accounts for the genotypic differences related to the degree of domestication has not previously been conducted. This study evaluated the phytochemical composition of young cladodes from fifteen variants, of O. ficus-indica, O. albicarpa Sheinvar, and O. megacantha Salm-Dyck, identified as species with a highly advanced, advanced and intermediate degree of domestication, respectively, and O. hyptiacantha A. Web, and O. streptacantha Lem. identified as wild-intermediate and wild species. Analyses were carried out using a HPLC-diode array detection technique. Out of the 13 identified and quantified phenolic molecules and terpenoids, only the caffeic, ferulic and syringic acids, and the terpenoid β-amyrin were present in all variants. The flavonoid luteolin was absent in all five species. Gallic, vallinic, p-hydroxybenzoic, chlorogenic and p-coumaric acids were only present in 53–87%25 of variants; flavonoids quercetin, isorhamnetin, rutin and apigenin in 47–87%25 of the variants. Both, oleanolic acid and peniocerol, were present only in 60%25 of variants. Isorhamnetin was absent in O. hyptiacantha and quercetin in O. streptacntha. Differences and similarities in the secondary metabolites content showed no recognizable trend relating to the degree of domestication across the species in this genus. © 2020, Springer-Verlag GmbH Germany, part of Springer Nature.

authors

• López Palacios Cristian
• Peña-Valdivia C.B.

publication date

• 2020-01-01

funding provided via

• Universidad Autónoma Chapingo, UACh  Grant

published in

• Planta  Journal

keywords

• Apigenin; Chlorogenic acid; Flavonoids; Phenolic acids; Syrinic acid; Terpenoids; Vanillic acid 3-methylquercetin; apigenin; caffeic acid; caffeic acid derivative; chlorogenic acid; coumaric acid; ferulic acid; flavonoid; gallic acid; hydroxybenzoic acid derivative; oleanolic acid; peniocerol; phenolic acid; quercetin; rutoside; sterol; syringic acid; terpene; vanillic acid; classification; domestication; high performance liquid chromatography; metabolism; Opuntia; Apigenin; Caffeic Acids; Chlorogenic Acid; Chromatography, High Pressure Liquid; Coumaric Acids; Domestication; Flavonoids; Gallic Acid; Hydroxybenzoates; Oleanolic Acid; Opuntia; Quercetin; Rutin; Sterols; Terpenes; Vanillic Acid

Digital Object Identifier (DOI)

• 10.1007/s00425-020-03371-9

PubMed ID

• 32144512

start page

end page

volume

• 251

issue

• 4