Phytochemical Profile and Antioxidant Activity of the Aerial Part Extracts from Matthiola incana subsp. rupestris and subsp. pulchella (Brassicaceae) Endemic to Sicily.
Matthiola incana
Sicilian vascular flora
biological activity
chemical composition
infraspecific taxa
Journal
Chemistry & biodiversity
ISSN: 1612-1880
Titre abrégé: Chem Biodivers
Pays: Switzerland
ID NLM: 101197449
Informations de publication
Date de publication:
Jul 2021
Jul 2021
Historique:
received:
01
03
2021
accepted:
18
05
2021
pubmed:
20
6
2021
medline:
18
9
2021
entrez:
19
6
2021
Statut:
ppublish
Résumé
As part of a project aimed at investigating the Matthiola taxa endemic to Sicily (Italy), this study focused on Matthiola incana, an edible species used in the traditional medicine of various countries. Herein, the characterization of phenolic and volatile compounds, the antioxidant capacity in vitro (1,1-diphenyl-2-picrylhydrazil (DPPH), reducing power and Fe
Identifiants
pubmed: 34145749
doi: 10.1002/cbdv.202100167
doi:
Substances chimiques
Antioxidants
0
Biphenyl Compounds
0
Phytochemicals
0
Picrates
0
Plant Extracts
0
1,1-diphenyl-2-picrylhydrazyl
DFD3H4VGDH
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2100167Subventions
Organisme : Shimadzu and Merck Life Science Corporations
Informations de copyright
© 2021 The Authors. Chemistry & Biodiversity published by Wiley-VHCA AG, Zurich, Switzerland.
Références
P. Avato, M. P. Argentieri, ‘Brassicaceae: a rich source of health improving phytochemicals’, Phytochem. Rev. 2015, 14, 1019-1033.
D. Ramirez, A. Abellán-Victorio, V. Beretta, A. Camargo, D. A. Moreno, ‘Functional ingredients from Brassicaceae species: overview and perspectives’, Int. J. Mol. Sci. 2020, 21(6), 1998.
G. A. Malfa, R. Acquaviva, A. A. E. Bucchini, S. Ragusa, F. M. Raimondo, V. Spadaro, ‘The Sicilian wild cabbages as biological resources: taxonomic update and a review on chemical constituents and biological activities’, Fl. Medit. 2020, 30, 245-260.
N. Miceli, A. Filocamo, S. Ragusa, F. Cacciola, P. Dugo, L. Mondello, M. Celano, V. Maggisano, M. F. Taviano, ‘Chemical characterization and biological activities of phenolic-rich fraction from cauline leaves of Isatis tinctoria L. (Brassicaceae) growing in Sicily, Italy’, Chem. Biodiversity 2017, 14, e1700073.
M. F. Taviano, A. Filocamo, S. Ragusa, F. Cacciola, P. Dugo, L. Mondello, G. Paterniti Mastrazzo, R. F. De Rose, M. Celano, G. E. Lombardo, A. Melchini, N. Miceli, ‘Phenolic profile, antioxidant and cytotoxic properties of polar extracts from leaves and flowers of Isatis tinctoria L. (Brassicaceae) growing in Sicily’, Plant Biosyst. 2018, 152, 795-803.
N. Miceli, E. Cavò, M. Ragusa, F. Cacciola, L. Mondello, L. Dugo, R. Acquaviva, G. A. Malfa, A. Marino, M. D′Arrigo, M. F. Taviano, ‘Brassica incana Ten. (Brassicaceae): phenolic constituents, antioxidant and cytotoxic properties of the leaf and flowering top extracts’, Molecules 2020, 25(6), 1461.
J. L. Sánchez, G. Domina, J. Caujapé-Castells, ‘Genetic differentiation of three species of Matthiola (Brassicaceae) in the Sicilian insular system’, Plant Syst. Evol. 2005, 253, 81-93.
R. Jaén-Molina, J. C. Castells, J. A. R. Betancort, H. Akhani, O. F. Palacios, J. Pérez de Paz, R. F. Á. Hernández, M. Rodríguez, ‘The molecular phylogeny of Matthiola R. Br. (Brassicaceae) inferred from ITS sequences, with special emphasis on the Macaronesian endemics’, Mol. Phylogenet. Evol. 2009, 53, 972-998.
P. W. Ball, in ‘Flora Europea’, Eds. T. G. Tutin, V. H. Heywood, N. A. Burges, D. M. Moore, D. H. Valentine, S. M. Walters, D. A. Webb, Cambridge at the University Press, Cambridge, 1964; Vol. 1, pp. 279-280.
S. Pignatti, in ‘Flora d'Italia’, Eds. Edagricole-New Business Media, Edagricole, Milano, 2017; Vol. 2, pp. 912-913.
F. M. Raimondo, G. Domina, V. Spadaro, ‘Checklist of the vascular flora of Sicily’, Quad. Bot. Amb. Appl. 2010, 21, 189-252.
N. Miceli, E. Cavò, S. Ragusa, F. Cacciola, P. Dugo, L. Mondello, A. Marino, F. Cincotta, C. Condurso, M. F. Taviano, ‘Phytochemical characterization and biological activities of a hydroalcoholic extract obtained from the aerial parts of Matthiola incana (L.) R. Br. subsp. incana (Brassicaceae) growing wild in Sicily (Italy)’, Chem. Biodiversity 2019, 16, e1800677.
M. F. Taviano, N. Miceli, R. Acquaviva, G. A. Malfa, S. Ragusa, D. Giordano, G. Cásedas, F. Les, V. López, ‘Cytotoxic, antioxidant, and enzyme inhibitory properties of the traditional medicinal plant Matthiola incana (L.) R. Br.’, Biology (Basel) 2020, 9(7), 163.
E. Cavò, N. Miceli, S. Ragusa, V. Spadaro, F. M. Raimondo, M. F. Taviano, ‘Indagini fitochimiche preliminari e valutazione del potenziale antiossidante dei taxa del genere Matthiola (Brassicaceae) appartenenti alla flora spontanea della Sicilia’, 115° Congresso della Società Botanica Italiana, Online, 9-11 settembre 2020, p. 174.
K. Waseem, A. Hameed, M. S. Jilani, M. Kiran, M. Rasheed, J. S. Ghazanfarullah, T. A. Jilani, ‘Effect of different growing media on the growth and flowering of stock (Matthiola incana) under the agro-climatic condition of Dera Ismail Khan’, Pak. J. Agric. Res. 2013, 50(3), 523-527.
D. Romano, A. Tribulato, S. Toscano, D. Scuderi, ‘Ethnobotanical uses of Brassicaceae in Sicily’, Acta Hortic. 2013, 1005, 197-204.
N. Rasool, S. Afzal, M. Riaz, U. Rashid, K. Rizwan, M. Zubair, S. Ali, M. Shahid, ‘Evaluation of antioxidant activity, cytotoxic studies and GC/MS profiling of Matthiola incana (stock flower)’, Legume Res. 2013, 36(1), 21-32.
T. K. Lim, ‘Edible medicinal and non-medicinal plants, Flowers’, Springer Science & Business Media, 2014; Vol. 7, pp. 633-637.
Y. Zeng, M. Deng, Z. Lv, Y. Peng, ‘Evaluation of antioxidant activities of extracts from 19 Chinese edible flowers’, Springerplus 2014, 3(315), 1-5.
L. Jin, X. B. Li, D. Q. Tian, X. P. Fang, Y. M. Yu, H. Q. Zhu, Y. Y. Ge, G. Y. Ma, W. Y. Wang, W. F. Xiao, M. Li, ‘Antioxidant properties and color parameters of herbal teas in China’, Ind. Crops Prod. 2016, 87, 198-209.
S. A. Emami, A. Sahebkar, N. Tayarani-Najaran, Z. Tajarani-Najaran, ‘Cancer and its treatment in main ancient books of Islamic Iranian traditional medicine (7th to 14th Century AD)’, Iran. Red. Crescent. Med. J. 2012, 14(12), 747-757.
P. J. Houghton, I. M. Osibogun, ‘Flowering plants used against snakebite’, J. Ethnopharmacol. 1993, 39(1), 1-29.
C. E. Cerón Martínez, in ‘Botánica Económica de los Andes Centrales’, Eds. M. R. Moraes, B. Øllgaard, L. P. Kvist, F. Borchsenius, H. Balslev, Universidad Mayor de San Andrés, La Paz, 2006; Vol. 42(1), pp. 285-293.
M. J. Macía, E. García, P. J. Vidaurre, ‘An ethnobotanical survey of medicinal plants commercialized in the markets of La Paz and En Alto, Bolivia’, J. Ethnopharmacol. 2005, 97(2), 337-350.
C. Sanna, M. Ballero, A. Maxia, ‘Le piante medicinali utilizzate contro le patologie epidermiche in Ogliastra (Sardegna centro-orientale)’ Atti della Società Toscana di Scienze Naturali Residente in Pisa, Memorie, Serie B 2006, 113, 73-82.
Z. Yaniv, D. Schafferman, M. Zur, I. Shamir, in ‘Progress in new crops’, Ed. J. Janick, ASHS Press, Arlington, 1996, pp. 368-372.
The Plant List (2013). Version 1.1. Available online http://www.theplantlist.org/ (accessed 10th October 2020).
C. Brullo, S. Brullo, in ‘Flora endemica illustrata della Sicilia’, Laruffa Editore, Reggio Calabria, 2020, p. 268.
G. R. Fenwick, R. K. Heaney, W. J. Mullin, C. H. VanEtten, ‘Glucosinolates and their breakdown products in food and food plants’, CRC Crit. Rev. Food Sci. Nutr. 1983, 18(2), 123-201.
R. Monreal-Corona, J. Biddlecombe, A. Ippolito, N. Mora-Diez, ‘Theoretical study of the iron complexes with lipoic and dihydrolipoic acids: exploring secondary antioxidant activity’, Antioxidants 2020, 9(8), 674.
R. Chen, Q.-L. Qi, M.-T. Wang, Q.-Y. Li, ‘Therapeutic potential of naringin: an overview’, Pharm. Biol. 2016, 54(12), 3203-3210.
J. Yang, J. Guo, J. Yuan, ‘In Vitro antioxidant properties of rutin’, LWT-Food Sci. Technol. 2008, 41(6), 1060-1066.
S. A. B. E. van Acker, D. J. van den Berg, M. N. J. L. Tromp, D. H. Griffioen, W. P. Van Bennekom, W. J. F. Van Der Vijgh, A. Bast, ‘Structural aspects of antioxidant activity of flavonoids’, Free Radical Biol. Med. 1996, 20, 331-342.
M. Andjelkovic', J. Van Camp, B. De Meulenaer, G. Depaemelaere, C. Socaciu, M. Verloo, R. Verhe, ‘Iron-chelation properties of phenolic acids bearing catechol and galloyl groups’, Food Chem. 2006, 98, 23-31.
G. Libralato, E. Prato, L. Migliore, A. M. Cicero, L. Manfra, ‘A review of toxicity testing protocols and endpoints with Artemia spp.’, Ecol. Indic. 2016, 69, 35-49.
M. R. Hamidi, B. Jovanova, T. K. Panovska, ‘Toxicological evaluation of the plant products using Brine Shrimp (Artemia salina L.) model’, Maced. Pharm. Bull. 2014, 60(1), 9-18.
C. Clarkson, V. J. Maharaj, N. R. Crouch, O. M. Grace, P. Pillay, M. G. Matsabisa, N. Bhagwandin, P. J. Smith, P. I. Folb, ‘In Vitro antiplasmodial activity of medicinal plants native to or naturalised in South Africa’, J. Ethnopharmacol. 2004, 92, 177-191.
F. Cincotta, A. Verzera, G. Tripodi, C. Condurso, ‘Non-intentionally added substances in PET bottled mineral water during the shelf-life’, Eur. Food Res. Technol. 2018, 244(3), 433-439.