Antibacterial effects of castor oil on foodborne pathogens: comparative evaluation of the components
Subject Areas :
Food Science and Technology
samaneh hatami
1
,
masud Yavarmanesh, M.
2
,
Ali Hatami, S.
3
1 - Former MSc Student, Young Researchers and Elite Club, Quchan Branch, Islamic Azad University, Quchan, Iran
2 - Assistand Professor, Department of Food Science and Technology, Faculty of Agriculture, Ferdowsi University of Mashhad, Iran.
3 - Associate Professor, Young Researchers and Elite Club, Quchan Branch, Islamic Azad University, Quchan, Iran
Received: 2014-09-07
Accepted : 2016-01-31
Published : 2016-01-21
Keywords:
Minimum Bactericidal Concentration,
Minimum inhibitory concentration,
Oil castor from Ricinus Communis L,
Disc diffusion,
Abstract :
For centuries, antimicrobial compounds derived from plants, have been used for medicinal treatment. The aim of this study was to evaluate the antibacterial activity of castor seed oil extracted from Mashhad and Isfahan varieties on Staphylococcus aureus, Escherichia coli and Listeria inocula. The sensitivity of the indicator bacteria was evaluated using disc diffusion technique and minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) were tested by broth micro-dilution assays. Oil from castor seeds was extract by Soxhlet method and the extracted oils were analyzed by a gas chromatograph connected to a mass spectrometer (GC/MS). According to the results of various dilutions of the extracts, MIC for castor oils ranged 12.5-25%, except for the Isfahan variety that was estimated at 6.25-12.5% for E. coli. The two varieties of castor oils showed the MBC activity on the indicator organisms at the original (100%) concentration. Based on GC/MS data, ricinoleic acid (1.307%), genetistic acid (0.597%) and palmitic acid (1.947%) were detected in oil extracted from Isfahan variety; meanwhile these compounds did not found in Mashhad variety. According to the results, the two castor varieties had antibacterial impact on E. coli. In addition, the overall antimicrobial activity of Isfahan variety was higher than Mashhad type. It seems that the presence of phenolic compounds as well as camphoric and unsaturated fatty acids is the major reason for the higher antibacterial effect of Isfahan variety on E. coli. Considering the inhibitory impact of castor oil, it can be used as a natural preservative in food industry.
References:
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Grossman, S., Berman, M., Varshavsky, L. and Gottlieb, H.E. (2001). The antioxidant activity of aqueous Spinacia oleracea L. extract Chemical identification of active fractions. Journal of Phytochemistry, 58(4): 143-152.
Hatami, S., Yavarmanesh, M. and Mohamadisani, A. (2014). Evaluation and comparison of the antibacterial effects of seed aqueous extract from Ricinuscommunis (two varieties) on food borne Pathogens.Journal of Food Sciences, 46(12): 89-96.
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Kalemba, D. and Kunika, A. (2003). Antibacterial and antifungal properties of essential oils. Journal of Medical Chemestry, 10: 813-29.
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Momoh, A.O., Oladunmoye, M.K. And Adebolu, TT. (2012). Evaluation of the antimicrobial and phytochemical properties of oil from Castor seeds (Ricinus communis l), Bulletin of Environment. Pharmacology and Life Sciences, 1(10): 21-27.
Moreire, MR., Ponce, AG. and Roura, S.I. (2005). Inhibitory parameters of essential oil to reduce a food born pathogen. Food Science and Technology (LWT), 38: 565-570.
Nasirpour, M., Yavarmanesh, M. and Mohamadisani, A. (2014). Antibacterial effect of agueous extract of Artemisia aucheri, Artemisia sieberi and Hyssopus officinalis L. on the food borne pathogenic bacteria, Journal of food sciences, 46(12): 73-84.
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San kar, G., Ramamoorthy, K., Sakkaravarthi, K. and Elavarsi, A. (2010). Romamoortny Antibactrial activity oh herbal extract on Patnogens isolated from the swollen hind gutofp, Monodon (fabricus). In Food and Chemical Toxicology, 1(3): 17-22.
Zarai, Z., kadri, A., Chobba, IB., Ben Mansour, R., Bekir, A. and Gharsallah, N. (2012). Essetial oil of the leaves of Ricinus communis in vitro cytotoxicity and antimicrobial properties. Journal of Lipids in Health and Disease, 1: 2-7.
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Akhondzadeh, A., Razavi, V., Misaghi, A., Abbasifar, R., Radmehr, B. and Khalighi, F. (2003). Effect of thyme essential oils on Salmonella Typhimurium in brain and heart broth. Journal of Medicinal plant, 8: 84-91.
Bauchart, D. (1993). Lipid absorption and transport in ruminant, Journal of Dairy Science. 76: 3864-3881.
Christy Jeyaseelan, E.P. and Justin Jashothan, P.T. (2012). Jushothan in vitro control of staphylococcus aureus (NC6571) and Escherichia coli (ATCC25922) by Ricinus communis L. Asian Pacific Journal of Tropical Biomedicine, 12(4): 717-720.
Grossman, S., Berman, M., Varshavsky, L. and Gottlieb, H.E. (2001). The antioxidant activity of aqueous Spinacia oleracea L. extract Chemical identification of active fractions. Journal of Phytochemistry, 58(4): 143-152.
Hatami, S., Yavarmanesh, M. and Mohamadisani, A. (2014). Evaluation and comparison of the antibacterial effects of seed aqueous extract from Ricinuscommunis (two varieties) on food borne Pathogens.Journal of Food Sciences, 46(12): 89-96.
Hussain, A.L., Anwer, F., Shahid, M., Ashraf, M. and Przybylski, R. (2010). Chemical composition, anticoidant and antimicrobial activities of essential oil of spearmint (Menthaspicata L) from Pakistan. Journal Essential Oil Resistance, 22: 78-84.
Jitendra, J. and Ashish kumar, G. (2012). Ricinus communis L: A phytopharmacological review. International of pharmaceutical sciences, 4 (4): 24-29.
Kalemba, D. and Kunika, A. (2003). Antibacterial and antifungal properties of essential oils. Journal of Medical Chemestry, 10: 813-29.
Kushwah, P. and Sing, K.P. (2012). Antimicrobial Activities of Ricinus communis Againts some Human pathogens.Journal of Medical Plant, 3(7): 209-210.
Lord, M.J., Jollife, N.A., Marsden, C.J., Pateman, C.S., Smith, D.C., Spooner, R.A., et al. (2003). Ricin Mechanisms of cytotoxity. Journal of EthropharmacolToxicol Rev, 22(1): 53-64.
Manik, SH., Mohd Igbal, M., Mohd Yousf, M., Abrar, H., Showkat, H., Sumeerah, N., et al. (2013). Antimicrobial potential of various extracts of Ricinus communis l. Journal of product Plant Resour, 3(2): 72-75.
Manpreet, R., Hitesh, D., Bharat, P. and SHivani, SH. (2012). Ricinus communis l- A Review. International Journal of tech research CODEN (usa): IJPRIF, 4(4): 1706-1711.
Mary Kenza, V. and Syhed Yasmin, S. (2011). Phytochemical screening and antibacterial activity on Ricinus communis l. Plant Sciences Feed, 1(9): 167-173.
Momoh, A.O., Oladunmoye, M.K. And Adebolu, TT. (2012). Evaluation of the antimicrobial and phytochemical properties of oil from Castor seeds (Ricinus communis l), Bulletin of Environment. Pharmacology and Life Sciences, 1(10): 21-27.
Moreire, MR., Ponce, AG. and Roura, S.I. (2005). Inhibitory parameters of essential oil to reduce a food born pathogen. Food Science and Technology (LWT), 38: 565-570.
Nasirpour, M., Yavarmanesh, M. and Mohamadisani, A. (2014). Antibacterial effect of agueous extract of Artemisia aucheri, Artemisia sieberi and Hyssopus officinalis L. on the food borne pathogenic bacteria, Journal of food sciences, 46(12): 73-84.
Ogunniyi, DS. (2006). Castor oil: A vital industrial raw material. Journal of bioresource technol, 97: 1086-1091.
San kar, G., Ramamoorthy, K., Sakkaravarthi, K. and Elavarsi, A. (2010). Romamoortny Antibactrial activity oh herbal extract on Patnogens isolated from the swollen hind gutofp, Monodon (fabricus). In Food and Chemical Toxicology, 1(3): 17-22.
Zarai, Z., kadri, A., Chobba, IB., Ben Mansour, R., Bekir, A. and Gharsallah, N. (2012). Essetial oil of the leaves of Ricinus communis in vitro cytotoxicity and antimicrobial properties. Journal of Lipids in Health and Disease, 1: 2-7.
