Screening of salt-stress, antioxidant enzyme, and antimicrobial activity of leave extracts of mangroves Avicennia marina L. from Hodaidah, Yemen

Автор: Al Maqtari maher A., Nagi Hisham M.

Журнал: Журнал стресс-физиологии и биохимии @jspb

Статья в выпуске: 2 т.10, 2014 года.

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In the present study the salinity stress, antioxidant enzyme and antimicrobial activities of leaf extract of Avicennia marina were investigated. As visualized from SDS-PAGE, no differences was found in number of protein band, but the intensities of several protein bands having apparent molecular mass by reduced severely in salt treated samples with enhanced activities of CAT, POX and GPX. Escherichia coli (ATCC8739), Staphylococus aureus (ATCC 6538), and Bacillus subtilis (ATCC6633) and fungus ( Candida albicans ATCC 2091, and Aspergillus niger ATCC 16404) were used as the test pathogenic bacteria and fungi, respectively in this study. The Avicennia marina extract possessed antibacterial activity against E. coli, S. aureus, and B. subtilis (12, 6, and 7 mm respectively), with antifungal activity against C. albicans and A. niger (9 and 10 mm).

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Salinity, antioxidant enzymes, antimicrobial effect, mangrove, avicennia marina

Короткий адрес: https://sciup.org/14323858

IDR: 14323858

Список литературы Screening of salt-stress, antioxidant enzyme, and antimicrobial activity of leave extracts of mangroves Avicennia marina L. from Hodaidah, Yemen

Agoramoorthy, G., Chandrasekaran, M., Venkatesalu, V., and Hsu, M. (2007) Antibacterial and antifungal activities of fatty acid methyl esters of the blind-your-eye mangrove from India. Brazilian J. Microbio., 38(4), 739-742
Allakhverdiev, S.I., Sakamoto, A., Nisihiyama, Y., Inaba, M. and Murata, N. (2000) Ionic and osmotic effects of NaCl induced inactivation of photosystems I and II in synechococcus sp. Plant Physiol., 123, 1047-1056
Arivuselvan, N., Silambarasan, D., Govindan, T. and Kathiresan, K. (2011) Antibacterial Activity of Mangrove Leaf and Bark Extracts Against Human Pathogens. Advan. Biol. Res., 5(5), 251-254
Bandaranayake, W.M. (2002) Bioactivities, bioactive compounds and chemical constituents of mangrove plants. Wet. Ecol. Manage., 10(6), 421-452
Blasco, F. (1984) Climatic factors and the biology of mangrove plants. In Snedakar, S. C. and Snedakar, J. G. (Eds.), The mangrove ecosystem: research methods. UNESCO, Bungay, UK, pp. 18-35
Bor, M., Ozdemir, F. and Turkan, I. (2003) The effect of salt stress on lipid peroxidation and antioxidants in leaves of sugar beet Beta vulgaris L. and wild beet Beta maritime L. Plant Sci., 164,77-84
Damerval, C., Vienne, P., Zivy, M., and Thiellement, H. (1986) Technical improvement in two-dimensional electrophoresis increase the level of genetic variation detected in wheat seedling proteins. Electrophoresis, 7, 52-54
EPA (2009) Assessing Progress towards the 2010 Target -The 4th National CBD Report. Ministry of Water and Environment, the Republic of Yemen
Hammer, K.A., Carson, C., and Riley, T. (2001) Antimicrobial activity of essential oils and other plant extracts. J. Appli. Microbio., 86(6), 985-990
He, F. and Zhou, J. (2007) A new antimicrobial susceptibility testing method of Escherichia coli against ampicillin. J. Microbio. Meth., 68(3), 563-567
Imdadul, H., Wirakarnain, S., Koshy, P., Arash, R., Shariff, H.A.B.M. and Mat, T.R. (2011) Valuable antioxidant and antimicrobial extracts from Rhizophora Mucronata of Asiatic mangrove forests. Res. J. Biotech., 6(1), 10-14
Imdadul, H., Wirakarnain, S., Shariff, H.A.B.M., Mat, T.R. and Monneruzzaman, K.M. (2011b) Total phenolic contents, antioxidant and antimicrobial activities of Bruguiera gymnorrhiza. J. Med. Plant. Res., 5(17), 4112-4118
Laemmli, U.K. (1970) Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227, 680-685
Lowry, O.H., Rosebrough, N.J., Farr, A.L. and Randall, R.J. (1951) Protein measurement with the Folin Phenol reagent. J. Biol. Chem., 193, 265-275
Maehly, A.C. and Chance, B. (1954) Methods of biochemical analysis, Vol. I. (Glick, D. ed.). Interscience Publishers Inc., New York, pp. 357-424
Maisuthisakul, P., Suttajit, M. and Pongsawatmanit, R. (2007) Assessment of phenolic content and free radical-scavenging capacity of some Thai indigenous plants, Food Chem., 100, 1409-1418
Manikandan, T. and Venkatesan, A. (2004) Influence of NaCl on growth, organic constituents and certain antioxidant enzymes of Aegiceras corniculatum Blanco. Geobios., 31, 30-33
Miles, D.H., Kokpol, U., Chittawong, V., Tip-Pyang, S., Tunsuwan, K. and Nguyen, C. (1998) Mangrove forests-The importance of conservation as a bioresource for ecosystem diversity and utilization as a source of chemical constituents with potential medicinal and agricultural value. IUPAC, 70(11), 1-9
Nagi, H.M. and Abubakr, M.M. (2013) Threats status to mangrove ecosystem along the coastal zone of Yemen. J. King AbdulAziz Uni. -Mar. Sci., 24(1), 101-117
Nagi, H.M.; Khanbari, K.M. and Al-Sameh, A. (2012) Estimating total area of mangrove habitats in the republic of Yemen using remote sensing and GIS. Fac. Sci. Bull., 24, 75-84
Naskar, K. and Mandal, R. (1999) Ecology and biodiversity of Indian mangroves; Part I: Global status. Daya Publishing House, Delhi
Natarajan, V., Venugopal, P., Menon, T. (2003) Effect of Azadirachtaindica (neem) on the growth pattern of dermatophytes. Indian J. Med. Microbio., 21(2), 98-101
eves, J.M., Matos, C., Moutinho, C., Queiroz, G. and Gomes, L.R. (2009) Ethnopharmacological notes about ancient uses of medicinal plants in Tras-os-Montes (northern of Portugal). J. Ethnopharmacol., 124(2), 270-283
Parida, A., Das, A.B., and Das, P. (2002) NaCl stress causes changes in photosynthetic pigments, proteins and other metabolic components in the leaves of a true mangrove, Bruguiera parviflora, in hydroponic cultures. J. Plant Biol., 45, 28-36
Ravikumar, S., Gnanadesigan, M., Suganthi, P. and Ramalakshmi, A. (2010) Antibacterial potential of chosen mangrove plants against isolated urinary tract infectious bacterial pathogens. Inter J. Med. Sci., 2(3), 94-99
Sadasivam, S. and Manickam, A. (1991). Biochemical methods for agricultural sciences. Wiley Eastern Limited, New Delhi
Shelar, P.S., Reddy, S.V.K., Shelar, G.S. and Reddy, V.S. (2012) Medicinal value of mangroves and its antimicrobial properties -a review Continental. J. Fish Aquatic Sci., 6(1), 26-37
Takemura, T., Hanagata, N., Sugihara, K., Baba, S., Karube, I. and Dubinsky, Z. (2000) Physiological and biochemical responses to salt stress in the mangrove, Bruguiera gymnorrhiza. Aquat. Bot., 68, 15-28
Tatiana, Z., Yamashita, K., Matsumoto, H. (1999) Iron deficiency induced changes in ascorbate content and enzyme activities related to ascorbate metabolism in cucumber roots. Plant Cell Physiol., 40, 273-280
Tomlinson, P.B. (1994) Thebotany of mangroves. Cambridge University Press, New York, USA
Uprety, D.C. and Sarin, M.N. (1976) Physiological studies on salt tolerance in Pisumsativum L. IV, Ionic composition and nitrogen metabolism. Acta Agron. Hung., 25,455-460
Vioux-Chagnoleau, C., Lejeune, F., Sok, J., Pierrard, C., Marionnet, C. and Bernerd, F. (2006) Reconstructed human skin: from photodamage to sunscreen photoprotection and anti-aging molecules, J. Dermatol. Sci. (Supplement), 2(1), S1-S12

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