December 21, 2024

gholamreza Abdi

Academic Rank: Assistant professor
Address: -
Degree: Ph.D in -
Phone: -
Faculty: Persian Gulf Research Institue

Research

Title Alkaloid and Nitrogenated Compounds from Different Sections of Coryphantha macromeris Plants and Callus Cultures
Type Article
Keywords
secondary metabolites; hallucinogenic properties; in vitro culture; alkaloids; callus induction; chromatographic separation; mass spectrometry; phytochemistry
Journal APPLIED SCIENCES-BASEL
DOI https://doi.org/10.3390/app13179947
Researchers Valeria Viera Escareño (First researcher) , Eugenio Perez-Molphe Balch (Second researcher) , Yenny Adriana Gómez-Aguirre (Third researcher) , Oscar Javier Ramos-Herrera (Fourth researcher) , gholamreza Abdi (Fifth researcher) , Francisco Cruz-Sosa (Not in first six researchers) , Emmanuel Cabañas- García (Not in first six researchers)

Abstract

One of the distinctive characteristics of cacti species is the presence of alkaloids. Alkaloids are nitrogenated molecules with hallucinogenic and pharmacological properties in humans and other animals. Plant cell, tissue, and organ culture have emerged as an effective tool for investigating the biosynthesis of a variety of functional metabolites and for studying the preservation of endangered plant species. In this study, we examined the alkaloid and nitrogenated compound profiles of the aerial and radicular sections of Coryphantha macromeris plants that were cultivated in both greenhouse and in vitro conditions. Additionally, we analyzed the callus cultures generated from stem discs. To perform these analyses, Ultra-High-Performance Liquid Chromatography coupled with High-Resolution Mass Spectrometry (UHPLC-PDA-HESI-Orbitrap-MS/MS) was utilized. Under the working parameters, 78 compounds were detected, and 61 of them were identified. Among the identified compounds, the in vitro plants presented 24 compounds, greenhouse plants a total of 21 compounds, and callus tissue 16 compounds. On the other hand, 7 compounds (laurydiethanolamine, toluic acids, and their derivatives) were detected in all systems, suggesting that these metabolites may serve as markers to help find the authenticity of C. macromeris preparations, and that, plant and cell-tissue cultures with this plant species are suitable for the biosynthesis of the selected compounds. In addition, our research suggests that no alkaloids with reported psychotropic properties are present in C. macromeris.