Title
Two New Fumarprotocetraric Acid Lactones Identified and Characterized by UHPLC‐PDA/ESI/ORBITRAP/MS/MS from the Antarctic Lichen Cladonia metacorallifera
Date Issued
01 February 2022
Access level
open access
Resource Type
journal article
Author(s)
Institute of Microbiology of the Czech Academy of Sciences
Universidad de Chile
Publisher(s)
MDPI
Abstract
Lichens are symbiotic organisms between algae and fungi, which are makers of secondary compounds named as lichen substances. Hyphenated techniques have significantly helped natural product chemistry, especially UHPLC/ESI/MS/MS in the identification, separation, and tentative characterization of secondary metabolites from natural sources. Twenty‐five compounds were detected from the Antarctic lichen Cladonia metacorallifera for the first time using UHPLC‐PDA/ESI/Orbitrap/MS/MS. Compounds 5 and 7 are reported as new compounds, based on their MS/MS fragmentation routes, and considered as fumarprotocetraric acid derivatives. Besides, ten known phenolic identified as orsellinic acid, ethyl 4‐carboxyorsellinate, psoromic acid isomer, succinprotocetraric acid, siphulellic acid, connorstictic acid, cryptostictic acid, lecanoric acid, lobaric acid and gyrophoric acid are noticed for the first time in the Cladonia genus.
Volume
9
Issue
2
Language
English
OCDE Knowledge area
Bioquímica, Biología molecular
Micología
Subjects
Scopus EID
2-s2.0-85124203948
Source
Separations
Sponsor(s)
This work was supported by INACH RT 18‐19; INACH RT 13‐13 and Fondecyt Regular 1190314. D.B.‐P. and J.C. thank the support of Technology Agency of the Czech Republic (NCK grant TN010000048/03, J.C. and D.B.‐P.) and the National Programme of Sustainability I of the Ministry of Education, Youth and Sports of the Czech Republic (ID: LO1416, J.C.).Daniela Bárcenas‐Pérez gratefully acknowledges the research supervision of José Cheel (Centre Algatech–Czech Academy of Sciences) as well as the University of South Bohemia for a doctoral scholarship and the grant GAJU 017/2019/P.
Funding: This work was supported by INACH RT 18‐19; INACH RT 13‐13 and Fondecyt Regular 1190314. D.B.‐P. and J.C. thank the support of Technology Agency of the Czech Republic (NCK grant TN010000048/03, J.C. and D.B.‐P.) and the National Programme of Sustainability I of the Min‐ istry of Education, Youth and Sports of the Czech Republic (ID: LO1416, J.C.).
Acknowledgments: Daniela Bárcenas‐Pérez gratefully acknowledges the research supervision of José Cheel (Centre Algatech–Czech Academy of Sciences) as well as the University of South Bohe‐ mia for a doctoral scholarship and the grant GAJU 017/2019/P.
Sources of information:
Directorio de Producción Científica
Scopus