سامانه پشتیبانی خدمات اطلاعات

  اخبار و اعلانات

 آمار

تعداد نشریات161
تعداد شماره‌ها6,572
تعداد مقالات71,020
تعداد مشاهده مقاله125,496,058
تعداد دریافت فایل اصل مقاله98,758,009
افکار, سهیلا, آزادپور, مژگان, مهدوی, بتول, رشیدی پور, مرضیه. (1399). ارزیابی ترکیبات اسانس و اثر ضد‌باکتریایی پونه (‏Mentha longifolia‏) جمع‌آوری‌شده از مناطق ‏مختلف لرستان. , 51(4), 823-835. doi: 10.22059/ijhs.2019.278471.1623
سهیلا افکار; مژگان آزادپور; بتول مهدوی; مرضیه رشیدی پور. "ارزیابی ترکیبات اسانس و اثر ضد‌باکتریایی پونه (‏Mentha longifolia‏) جمع‌آوری‌شده از مناطق ‏مختلف لرستان". , 51, 4, 1399, 823-835. doi: 10.22059/ijhs.2019.278471.1623
افکار, سهیلا, آزادپور, مژگان, مهدوی, بتول, رشیدی پور, مرضیه. (1399). 'ارزیابی ترکیبات اسانس و اثر ضد‌باکتریایی پونه (‏Mentha longifolia‏) جمع‌آوری‌شده از مناطق ‏مختلف لرستان', , 51(4), pp. 823-835. doi: 10.22059/ijhs.2019.278471.1623
افکار, سهیلا, آزادپور, مژگان, مهدوی, بتول, رشیدی پور, مرضیه. ارزیابی ترکیبات اسانس و اثر ضد‌باکتریایی پونه (‏Mentha longifolia‏) جمع‌آوری‌شده از مناطق ‏مختلف لرستان. , 1399; 51(4): 823-835. doi: 10.22059/ijhs.2019.278471.1623

ارزیابی ترکیبات اسانس و اثر ضد‌باکتریایی پونه (‏Mentha longifolia‏) جمع‌آوری‌شده از مناطق ‏مختلف لرستان

علوم باغبانی ایران
دوره 51، شماره 4، اسفند 1399، صفحه 823-835    اصل مقاله (374.47 K)
نوع مقاله: مقاله پژوهشی
شناسه دیجیتال (DOI): 10.22059/ijhs.2019.278471.1623
نویسندگان
سهیلا افکار* 1؛ مژگان آزادپور2؛ بتول مهدوی3؛ مرضیه رشیدی پور4
1استادیار، گروه کشاورزی، دانشگاه پیام نور، تهران، ایران
2دانشجوی دکتری، مرکز تحقیقات داروهای گیاهی رازی، دانشگاه علوم پزشکی لرستان، خرم‌آباد، ‏ایران
3استادیار، دانشکده کشاورزی، دانشگاه ولی عصر (عج) رفسنجان، رفسنجان، ایران
4دانش‌آموخته کارشناسی ارشد، مرکز تحقیقات داروهای گیاهی رازی، دانشگاه علوم پزشکی لرستان، خرم‌آباد، ایران
چکیده
تحقیق حاضر با هدف بررسی ترکیبات شیمیایی اسانس استخراج شده از پونه جمع­آوری‌شده از مناطق مختلف شامل خرم‌آباد، الشتر و دلفان در استان لرستان و تعیین فعالیت ضد­باکتریایی آنها علیه سه سویه باکتری Escherichia coli، Staphylococcus aureus و Pseudomonas aeruginosa انجام شد. آنالیز GC-MS نشان داد ترکیبات اصلی اسانس پونه منطقه خرم‌آباد شامل پولگان (41/54 درصد) و 8،1- سینئول (05/22 درصد) بود، درحالی‌که پونه منطقه الشتر غنی از پیپریتنون (29/29 درصد)، پولگان (53/17 درصد)، پیپریتنون­اکساید (35/14 درصد) و 8،1- سینئول (34/14 درصد) و ترکیبات اصلی پونه منطقه دلفان سیترونلیل­استات (93/59 درصد) و آروماندرن (1/5 درصد) بودند. همبستگی معنی‌داری بین تمام ویژگی­های جغرافیایی و خاک، به‌جز فسفر و هدایت الکتریکی، با ترکیبات اسانس مشاهده شد. با توجه به  نتایج به‌دست‌آمده از MIC و MBC نشان داد حداقل غلظت بازدارندگی اسانس پونه مناطق مورد مطالعه بین mg/mL 2-03/0 بود. فعالیت ضدمیکروبی حاکی از این بود که مؤثرترین اسانس در مهارکنندگی باکتری­های E. coliو  S. aureus به‌ترتیب اسانس پونه منطقه الشتر و دلفان بودند و دو باکتری P. aeruginosa و S. aureus کمترین حساسیت به اسانس پونه منطقه خرم‌آباد داشتند. اسانس پونه جمع­آوری شده از مناطق مختلف استان لرستان دارای قدرت بازدارندگی علیه باکتری­های گرم مثبت و منفی مورد مطالعه از کم تا عالی بودندکه بستگی به منطقه جمع­آوری گیاهان و سویه­های مورد مطالعه باکتری داشت. در این تحقیق سه ترکیب سیترونلال، سیترونلیل­استات و آرومادرن برای اولین بار برای اسانس پونه گزارش شد.
کلیدواژه‌ها
اسانس؛ پونه؛ ترکیبات شیمیایی؛ فعالیت ضد‌باکتریایی؛ لرستان‏
مراجع
  1. Abbaszadeh, B., Teymoori, M., Pouyanfar, M., Rezaei, M.B. & Mafakheri, S. (2013). Growth and essential oil of Mentha longifolia from different ecological conditions. Annals of Biological Research, 4 (7), 85-90.
  2. Abdellatif, F. & Hassani, A. (2015). Chemical composition of the essential oils from leaves of Melissa officinalis extracted by hydrodistillation, steam distillation, organic solvent and microwave hydrodistillation. Journal of Materials and Environmental Science, 6 (1), 207-213.
  3. Afolayan, A.J. (2003). Extracts from the shoots of Arctotis artotoides inhibit the growth of bacteria and fungi. Pharmaceutical Biology, 41, 22-25.
  4. Allali, H., Chikhi, I., Amine Dib, M.E., Muselli, A., Fekih, N., Meliani, N., Kamal, M.A., Tabti, B. & Costa, J. (2013). Antioxidant activity and chemical analysis of Mentha spicata cultivated from west northern region of Algeria by headspace solid phase micro-extraction and hydro-distillation. Natural Product, 9(6), 258-63.
  5. Anwar, F., Alkharfy, K.M., Rehman, N.U., Adam, E.H.K. & Gilani, A.U.H. )2017(. Chemo-geographical variations in the composition of volatiles and the biological attributes of Mentha longifolia essential oils from Saudi Arabia. International Journal of Pharmacology, 13 (3), 408-424.
  6. Aridogan, B.C., Baydar, H., Kaya, S., Demirci, M., Ozbasar, D. & Mumcu, E. (2002). Antimicrobial activity and chemical composition of some essential oils. Archives of Pharmacal Research, 25, 860-864.
  7. Asghari, Z.H. & Mazaheritehrani, T.M. (2010). Extraction of tannin from Eucalyptus camaldulensis Dehnh and trimyristin from Myristica fragrans Houtt by using microwave irradiation. Iraninan Journal of Medicinal and Aromatic Plants, 26 (2), 185-195. (in Farsi).
  8. Bakkali, F.; Averbeck, S.; Averbeck, D. & Idaomar, M. (2008). Biological effects of essential oils-A review. Food and Chemical Toxicology, 46 (2), 446-75.
  9. Baratta, M.T., Damien Dorman, H.J., Deans, S.G., Cristina Figueiredo, A., Barroso, J.G. & Ruberto, G. (1998). Antimicrobial and antioxidant properties of some commercial essential oils. Flavour Fragrance Journal, 13(4), 235-44.
  10. Bauer, K., Garbe, D. & Surburg, H. (2006). Common fragrance and flavor materials: preparation, properties and uses. (5th ed). Germany
  11. Benabdallah, A., Boumendjel, M., Aissi, O., Rahmoune, C., Boussaid, M. & Messaoud, C. (2018). Chemical composition, antioxidant activity and acetylcholinesterase inhibitory of wild Mentha species from northeastern Algeria. South African Journal of Botany, 116, 131-139.
  12. Bensabah, F., Houbairi, S., Lamiri, A. & Naja, J. (2013). Chemical composition and inhibitory effect of the essential oil from Mentha spicata irrigated by wastewater on the corrosion of aluminum in 1 molar hydrochloric acid. Portugaliae Electrochimica Acta, 31 (4), 195-206.
  13. Berche, P., Gaillard, J.L. & Simone, T.M. (1991). Bacteriology: bacteria of human infections. Medicine-Sciences (pp: 660). Paris.
  14. Bhat, S., Maheshwari, P., Kumar, S. & Kumar, A. (2002). Mentha species: In vitro regeneration and genetic transformation. Molecular Biology Today, 3 (1), 11-23.
  15. Burt, S. (2004). Essential oils: their antibacterial properties and potential applications in foods - a review. International Journal of Food Microbiology, 94, 223-253.
  16. Celiktas, O.Y., Hames Kocabas, E.E., Bedir, E., Vardar Sukan, F., Ozek, T. & Baser, K.H.C. (2007). Antimicrobial activities of methanol extracts and essential oils of Rosmarinus officinalis, depending on location and seasonal variations. Food Chemistry, 100, 553-559.
  17. Cragg, M.G. & Newman, D.J. (2001). Natural product drugs discovery in next millennium. Pharmaceutical Biology, 39 (1), 8-17.
  18. Davazdahemami, S. & Majnoonhosini, N. )2013(. Cultivation and production of certain herbs and species.(pp.300)Tehran University Press. Tehran. (in Farsi).
  19. Dorman, H.J.D. & Deans, S.G. (2000). Antimicrobial agents from plants: antibacterial activity of plant volatile oils. Journal of Applied Microbiology, 88, 308-316.
  20. Edris, A.E. (2008). Pharmaceutical and therapeutic potentials of essential oils and their individual volatile. Food and Chemical Toxicology, 46, 446–475.
  21. Erasto, P. & Vilgoen, A.M. (2008). Limonene- are view: biosynthetic, ecological and pharmacological relevance. Natural Product Communications, 3 (7), 1193-1202.
  22. Escudero, A., Iriondo, J.M. & Torres, M.E. (2003). Spatial analysis of genetic diversity as a tool for plant conservation. Biological Conservation, 113, 351-365.
  23. Giles, M., Zhao, J., An, M. & Agboola, S. (2010). Chemical composition and antimicrobial properties of essential oil of three Australian Eucalyptus species. Food Chemistry, 119 (2), 731-737.
  24. Guedes Stehling, E., Dias, W. & da Silva, D. (2008). Study of biological characteristics of Pseudomonas aeruginosa stains isolated from patients with cystic fibrosis and from patients with extra-45, pulmonary infections. Journal of Infectious Diseases, 12 (1), 86-88.
  25. Gutierrez, J., Barry-Ryan, C. & Bourke, P. (2009). Antimicrobial activity of plant essential oils using food model media: efficacy, synergistic potential and interactions with food components. Food Microbial, 26, 142-150.
  26. Hadi, N., Shojaeiyan, A., Sefidkon, F. & Jafari, A.A. (2018). Quantitative and qualitative study of essential oil in some accessions of Nepeta spp. and determination of essential oil components capability in intra and inter-specific relationships analysis. Iranian Journal of Horticultural Science, 49 (3), 601-612. (in Farsi)
  27. Hadipanah, A., Golparvar, A.R., Ghasemi Pirbalouti, A. & Zaynali, H. (2012). Determine optimum of harvest time on the quantity/quality of essential oil and thymol of thyme (Thymus vulgaris) in Isfahan. Journal of Herbal Drugs, 2 (1), 23-32. (in Farsi)
  28. Hassanpour Reyhani, K., Sofalian, O., Zare, N., Asghari, A. & Esmaielpour, B. (2017). Evaluation of genetic and morpho-physiological diversity in Iranian Mentha longifolia ecotypes. Modern Genetic Journal, 12 (3), 617-625. (in Farsi)
  29. Hoseeini, Z., Feizi, H., Vatandoost Jertoodeh, S. & Alipanah, M. (2017). Essential oil composition of Mentha longifolia in different parts of Fars and Khorasan Razavi provinces. Ecophytochemical Journal of Medicinal Plants, 5 (1), 30-39. (in Farsi)
  30. Jeyakumar, E., Lawrence, R. & Pal, T. (2011). Comparative evaluation in the efficacy of peppermint (Mentha piperita) oil with standards antibiotic against selected bacterial pathogens. Asian Pacific Journal of Tropical Biomedicine, 1 (2), 53-57.
  31. Karousou, R., Koureas, D.N. & Kokkini, S. (2005). Essential oil composition is related to the natural habitats: Coridothymus capitatus and Satureja thymbra in natural 2000 sites of crete. Photochemistry, 66, 2668-2673.
  32. Kazemi, S.Y., Nabavi, J., Zali, H. & Ghorbani, J. (2017). Effect of altitude and soil on the essential oils composition of Juniperus communis. Journal of Essential Oil Bearing Plants, 20 (5): 1380-1390.
  33. Kee, L., Shori, A.B. & Baba, A.S. (2017). Bioactivity and health effects of Mentha spicata. Integrative Food, Nutrition and Metabolism, 5 (1), 1-2.
  34. Kelen, M. & Tepe, B. (2008). Chemical composition, antioxidant and antimicrobial properties of the essential oils of three Salvia species from Turkish flora. Bioresource Technology, 99, 4096- 4100.
  35. Khamis, I.M. & Aly, A.A. (2017). Preliminary phytochemical screening of different solvent extracts of some medicinal plants. Middle East Journal of Applied Sciences, 7 (2), 226-231.
  36. Kim, K.Y., Seo, H.J., Min, S.S., Park, M. & Seol, G.H. (2014). The effect of 1,8- cineole inhalation on preoperative anxiety: a randomized clinical trial. Evidence Based Complementary and Alternative Medicine,1-7.
  37. Koba, K., Sanda, K., Raynaud, C.D., Nenonene, Y.A., Millet, J. & Chaumont, J.P. (2004). Antimicrobial activities of essential oils from African cymbopogon against microorganisms pathogenic in pets. Annales de Médecine Vétérinaire, 148, 202-206.
  38. Laggoune, S., Öztürk, M., Erol, E., Duru, M.E., Abaza, I., Kabouche, A. & Kabouche, Z. (2016). Chemical composition, antioxidant and antibacterial activities of the essential oil of Mentha spicata from Algeria. Journal of Material and Environmental Science, 7 (11), 4205–13.
  39. Lahlou, S., Figueiredo, A.F., Magalhaes P.J. & Leal-Cardoso, J.H. (2002). Cardiovascular effect of 1,8-cineole, a terpenoid oxide present in many plant essential oils, in normotensive rats. Canadian Journal of Physiology and Pharmacology, 80 (12), 1125-1131
  40. Makvandi, M., Shokoohizadeh, L. & Mirzaee, M. (2017). Antibacterial and drug synergistic activities of Mentha longifolia essential oil against Shigella flexneri and Shigella sonnei. International Journal of Enteric Pathogens, 5 (3), 92-95.
  41. Mkaddem, M., Bouajila, J., Ennajar, M., Lebrihi, A., Mathieu, F. & Romdhane, M. )2009(. Chemical composition and antimicrobial and antioxidant activities of Mentha longifolia and Mentha iridous essential oil. Journal of Food Science, 24 (7), 358-363.
  42. Mozaffarian, V.A. (2013). Dictionary of Iranian plant name. (pp: 671). Farhang Moaser Press. (in Farsi)
  43. Murata, S., Shiragami, R., Kosugi, C., Tezuka, T., Yamazaki, M., Hirano, A., Yoshimura, Y., Suzuki, M., Shuto, K., Ohkohchi, N. & Koda, K. (2013). Antitumor effect of 1, 8-cineole against colon cancer. Oncology Reports, 30, 2647-2652.
  44. Okut, N., Yagmur, M., Selcuk, N. & Yildirim, B. )2017(. Chmical composition of essential oil of Mentha longifolia growing wild. Pakistan Journal of Botany, 49 (2), 525-529.
  45. Oyedeji, A.O. & Afolayan, A.J. (2006). Chemical composition and antibacterial activity of the essential oil isolated from South African Mentha longifolia. Journal of Essential Oil Research, 18, 57-59.
  46. Rabie, M., Tabatabaei Ghomi, N., Asri, Y. & Khaniki, G.R. (2018). Vegetative characteristics and essential oil of Chaerophyllum macropodum Bioss. in different habitats of Iran. Journal of Applied Biology, 31 (1), 90-108.
  47. Rabiee, M., Firozi Ardestani, M., Asri, Y. & Bakhshi Khaniki, Gh. (2016). Phytochemical study of essential oil of Ziziphora clinopdioides in natural habitats of Alborz and Mazandaran provinces. Ecophytochemical Journal of Medicinal Plants, 3 (3), 54-61. (in Farsi)
  48. Rahmani, F., Rezaeian-Doloei, R. & Alimoradi, L. (2018). Evaluation of phytochemical composition of Mentha pulegium L. essential oil and its antibacterial activity against several pathogenic bacteria. Iranian Journal of Medical Microbiology, 11 (6), 167-177. (in Farsi)
  49. Rodrigues, L., Povoa, O., Van den Berg, C., Figueiredo, A.C., Moldao, M. & Monteiro, A. (2013). Genetic diversity in Mentha cervina based on morphological traits, essential oils profile and ISSR markers. Biochemical Systematic and Ecology, 51, 50-59.
  50. Rohde, H., Kalizky, M., Kroger, N., Scherpe, S., Horstkotte, M.A., Zander, A.R. & Mark, D. (2004). Detection of virulence associated genes not useful for discriminating between invasive and commensal Staphylococcus epidermidis strains from a bone marrow transplant unit. Journal of Clincal Microbiology, 42 (12), 5614-5619.
  51. Roy, A., Park, H.J., Abdul, Q.A., Jung, H.A. & Choi, J.S. (2018). Pulegone exhibits anti-inflammatory activities through the regulation of NF-B and Nrf-s signaling pathways in LPS-stimulated RAW 264.7 cells. Natural Product Sciences, 24 (1), 28-35.
  52. Salman, M., Abdel Hameed, E.S.S., Bazaid, S.A. & Dabi, M.M. (2015). Chemical composition for hydrodistillation essential oil of Mentha longifolia by gas chromatography-mass spectrometry from north regions in Kingdom of Saudi Arabia. Der Pharma Chemica, 7 (4), 34-40.
  53. Shah, A., Li, D.Z., Möller, M., Gao, L.M., Hollingsworth, M.L. & Gibby, M. (2008). Delimitation of Taxus fuana Nan Li & R.R. Mill (Taxaceae) based on morphological and molecular data. Taxo, 57, 211-222.
  54. Sharopov Farukh, S., Sulaimonova, V.A. & Setzer, W.N. (2012). Essential oil composition of Mentha longifolia from wild populations growing in Tajikistan. Journal of Medicinally Active Plants, 1 (2), 76-84.
  55. Singh, C.S. & Agarwal, R. (2013). Evaluation of antibacterial activity of volatile oil from Mentha spicata. Journal of Drug Delivery and Therapeutics, 3(4), 120-121.
  56. Soković, M., Marin, P.D., Brkić, D. & Griensven, L.J. (2007). Chemical composition and antibacterial activity of essential oils of ten aromatic plants against human pathogenic bacteria. Food, 1, 220-226.
  57. Song, W., Lee, K.M., Kang, H.J., Shin, D.H. & Kim, D.K. (2001). Microbiologic aspects of predominant bacteria isolated from the burn patients in Korea. Burns, 27(2), 136-139.
  58. Stanisavljevic, D.M., Dordevic, S., Ristic, M., Velickovic, D. & Randelovic, N.V. (2010). Effects of different drying methods on the yield and the composition of essential oil from herb Mentha longifolia (L.). Biologica Nyssana, 1(2), 89-93.
  59. Sujana, P., Sridhar, T.M., Josthna, P. & Naidu, C.V. (2013). Antibacterial activity and phytochemical analysis of Mentha piperita L. (Peppermint) - An important multipurpose medicinal plant. American Journal of Plant Sciences, 4, 77-83.
  60. Sulieman, A.M.E., Abderlrahman, S.E. & Abdel Rahim, A.M. (2011). Phytochemical analysis of local spearmint (Mentha spicata) leaves and detection of the antimicrobial activity of its oil. Journal of Microbiology Research, 1 (1), 1-4.
  61. Tripathi, A.K., Prajapati, V., Ahmad, A., Aggarwai, K.K. & Khanuja, S.P.S. (2004). Piperitenone oxide as toxic, repellent and reproduction retardant toward malarial vector Anopheles stephensi. Journal of Medical Entomology, 41 (4), 691-698.
  62. Ulte, A., Bennik, M.H.J. & Moezelaar, R. (2002). The phenolic hydroxyl group of carvacrol is essential for action against the food pathogen Bacillus cereus. Applied and Environmental Microbiology, 68, 1561-1568.
  63. Zaidi, S. & Dahiya, P. (2015). In vitro antimicrobial activity, phytochemical analysis and total phenolic content of essential oil from Mentha spicata and Mentha piperita. International Food Research Journal, 22 (6), 2440-2445.
  64. Zouari-Bouassida, K., Trigui, M., Makni, S., Jlaiel, L. & Tounsi, S. (2018). Seasonal variation in essential oil composition and the biological and pharmaceutical protective effects of Mentha longifolia leaves growth in Tunisia. BioMed Research International, 1-12.
آمار
تعداد مشاهده مقاله: 669
تعداد دریافت فایل اصل مقاله: 402





سامانه مدیریت نشریات علمی. قدرت گرفته از سیناوب