A Comparative Analysis of Some Essential Oil Plant Species, Composition, Antimicrobial Properties and Their Applicability in the Field of Drug Discovery - A Review
International Journal of Bioorganic Chemistry
Volume 2, Issue 2, June 2017, Pages: 77-82
Received: Feb. 9, 2017;
Accepted: Mar. 3, 2017;
Published: Mar. 24, 2017
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E. Talebi, Young Researchers and Elite Club, Darab Branch, Islamic Azad University, Darab, Fars, Iran
I. Nasrollahi, Young Researchers and Elite Club, Darab Branch, Islamic Azad University, Darab, Fars, Iran
M. Khosravinezhad, Department of Chemistry, Shiraz Branch, Islamic Azad University, Shiraz, Fars, Iran
Shivakumar, Department of Studies in Sericulture Science, Manasagangotri, University of Mysore, Mysore, Karnataka, India
Z. Nemati, Department of Chemistry, Shiraz Branch, Islamic Azad University, Shiraz, Fars, Iran
The purpose of present study was to understand the background knowledge, benefits, applicability and important medicinal properties of selected plants of pycnocycla, oliveria decumbens and anvillea that the three essential oil plants are available in different parts of the world and consists of different variability in leaves, essential oil content, etc. Moreover, they are seven species of plant pycnocycla, two species of anvillea and oliveria consists of one species alone are reviewed and their effective utilization of all the parts of the plants, i.e., radiate being utilized in folk medicine to treat various infectious diseases and may contribute to the development of novel antimicrobial agents for the treatment of infections caused by these drug-resistant microorganisms (in vitro cytotoxicity and in vivo antitumor activity for both compounds) are reported by several researchers. Hence, It is important to underline that, the information survey being made in this review may generate a new avenue in the fields of pharmaceutical, etc. for drug discovery and the efficiency of its essential oil and applicability for several purposes like, antimicrobial and antioxidant activities, disorders, diseases controls, diseases management and beauty cosmetics, etc are reviewed and discussed in depth herein this review article.
A Comparative Analysis of Some Essential Oil Plant Species, Composition, Antimicrobial Properties and Their Applicability in the Field of Drug Discovery - A Review, International Journal of Bioorganic Chemistry.
Vol. 2, No. 2,
2017, pp. 77-82.
Khosroshahi, S. 2008. Guide to medicinal plants, Mashhad, [Persian].
World Health Organization. 2003. WHO guidelines on good agricultural and collection practices.
World Health Organization. 1999. WHO monographs on selected medical plants.
Najafi., Farzad., Ebadi., Mohammad Taghi., Abbasian and Jalal. 1390. Processes of harvesting, drying and processing of medicinal and aromatic plants. Shahid Beheshti, University of Tehran. pp 480.
Mirhydar, H. 1382. Plant sciences, Office Islamic culture.
Stevens, P. F. 2001. Angiosperm Phylogeny Website. Version 9, June 2008.
Watson, L and Dallwitz, M. J. 1992. The families of flowering plants: descriptions, illustrations, identification and information retrieval, Version: 4 March 2011.
Mozaffarian, V. 1996. A Dictionary of Iranian Plant name, Farhang Moaser, Tehran, pp. 443.
Bigam faghir, M. 1380. Common families of flowering plants, Rasht, University of Guilan, ISBN 1-88-6577-964.
Soltanipoor, M. A and Babakhanlou, P. 1385. Introduction and ecological investigation of aromatic plants of Hormozgan province, Quarterly Scientific-Research of Medicinal and Aromatic Plants Research Iran, 22 (1): 47-59.
Hendriks, I, Anderson, W. Y., Engle, G, Bos, R and Woerdenbag, J. 1997. Planta Med. 63: 356.
Nasr, M and Asgarpanah, J. 2014. Volatile constituents of the seeds and fruit of Pycnocycla nodiflora. Natural product communications, 9 (12): 1781-1782].
Javidnia, K., Miri, R., Soltani, M and Khosravi, A. R. 2008. Constituents of the essential oil of Pycnocycla nodiflora Decne, ex Boiss from Iran, Journal of Essential Oil Research, 20 (6), 502-504.
Asghari, G., Houshfar, G and Mahmoudi, Z. 2002. Seasonal variation of mono and sesquiterpenes in the essential oil of Pycnocycla Spinosa Decne, ex Boiss. Iranian Journal of Pharmaceutical Research, 1 (1): 61-63.
Ahmadi, L and Mirza, M. 1998. Volatile constituents of the essential oil of Pycnocycla spinosa Decne and Boiss from Iran. Journal of Essential Oil Research, 10 (2): 197-198.
Asghari, G. H. R., Houshfar, G. H. A and Mahmoudi, Z. 2001. Composition of the essential oil of Pycnocycla Spinosa Decne. ex. Boiss from Isfahan. DARU Journal of Pharmaceutical Sciences. 9 (3-4): 28-29.
Yari, M., Aghjani, Z., Masoudi, S., Monfared, A and Rustaiyan, A. 1999. Essential oils of Pycnocycla Flabellifolia (boiss.) boiss and malabaila secacule (miller) Boiss from Iran. DARU Journal of Pharmaceutical Sciences. 7 (3): 1-3.
Teimouri, M. B., Shaabani, A and Sefidkon, F. 2005. Composition of the essential oils of Pycnocycla aucherana Decne. ex Boiss. Var. aucherana and Pycnocycla musiformis Hedge et Lamond from Iran, Journal of Essential Oil Research. 17 (5), 473-474.
Akhgar, M. R., Khodashenas, M., Salari-Dehshikh, H. 2012. Chemical constituents from the flower and leaf essential oils of Pycnocycla musiformis. Trends in Modern Chemistry, 4 (1): 6-9.
Inous Asgarpanah., Niyousha Karbalaei Mohammad and Persia Behbahani. 2014. Essential oil composition of the endemic species of Pycnocycla caespitosa Boiss and Hausskn, Journal of Essential Oil Bearing Plants. 17 (4): 633-637.
Elham Abbasi., Orkideh Ghorban Dadras and Jinous Asgarpanah. 2014. Essential oil composition of the endemic species Pycnocycla bashagardiana Mozaff, Journal of Essential Oil Research, 26 (5) 363-366.
Gholamreza Amin, M. H., Salehi Sourmaghi. Maral Zahedi., Mahnaz Khanavi., Nasrin Samadi. 2005. Essential oil composition and antimicrobial activity of Oliveria decumbens. Fitoterapia, 76 (7–8), 704–707.
Seyed Ebrahim Sajjadi and Seyed Ahmad Hoseini. 2002. Essential oil constituents of Oliveria decumbens Vent, Journal of Essential Oil Research, 14 (3), 220-221.
Mahboubi mohadeseh, Feyzabadi, M. M., Haghi, G. H., Hosseini hossein. 2008. Antimicrobial activity and chemical composition of essential oil from oliveria decumbens vent. Iranian journal of medicinal and aromatic plants, 24 (1): 56-65.
Mehdi Saidi. 2014. Antioxidant activities and chemical composition of essential oils from Satureja khuzestanica, Oliveria decumbens and Thymus daenensis. Journal of Essential Oil Bearing Plants. 17 (3): 513-521.
Mebarki Lakhdar, Kaid Harche Meriem, Benlarbi Larbi, Rahmani Amina and Sarhani Aicha 2013. Phytochemical analysis and antifungal activity of Anvillea Radiata. World Applied Sciences Journal. 26 (2): 165-171.
Beddou, F. C., Bekhechi, D., Chabane Sari Atik Bekkara, F. 2014. Evaluation of natural antimicrobial phenolic compounds from anvillea radiata coss & dur. International journal of pharmaceutical research and bio-science. 3 (1): 172-187.
Essam Abdel-Sattar and Andrew, T and McPhail. 2000. Cis-Parthenolid-9-one from Anvillea garcinii. J. Nat. Prod, 63 (11): 1587–1589.
Javidnia, K., Miri, R., Assadollahi, M., Gholami, M and Ghaderi, M. 2009. Screening of selected plants growing in Iran for antimicrobial activity, Iranian Journal of Science & Technology, 33 (4).