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É. György and É. Laslo

antibiotic resistance. In: Om. V. Singh (eds), Foodborne pathogens and antibiotic resistance . John Wiley & Sons, Inc. Published (2017). [11] R. Davis, P. D. Brown, Multiple Antibiotic Resistance index, fitness and virulence potential in respiratory Pseudomonas aeruginosa from Jamaica. Journal of Medical Microbiology , 65. (2016) 261–271. [12] EFSA. 2018. The European Union summary report on antimicrobial resistance in zoonotic and indicator bacteria from humans, animals and food in 2016. EFSA Journal , 16. 2. (2018) 5182. [13] M. Friedman

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Surekha K. Satpute, Grażyna A. Płaza and Arun G. Banpurkar

-surfactant produced using molasses by a Pseudomonas aeruginosa mutant”, in Journal of E nvironmental Science and Health . Toxic Hazardous S ubstances and Environmental Engineering , vol. 42(1), 2007, pp. 73-80. [33] F.F.C. Barros, C.P. Quadros, M.R. Maróstica and G.M. Pastore. „Surfactina: Propriedades químicas, technológicas e funciona is para aplicações em alimentos”, in Química Nova, vol. 30(2), 2007, pp. 1-14. [34] S.G. Kapadia and B.N. Yagnik. „Current trend and potential for microbial biosurfactants”, in Experimental Biological Science , vol. 4, 2013. pp

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Valentina Josan, Inna Rastimesina, Olga Postolachi and Tatiana Gutul

Angazi M., Alizadeh S., Bardania H., 2013. The effect of magnetic Fe3O4 nanoparticles on the growth of genetically manipulated bacterium, Pseudomonas aeruginosa (PTSOX4). Iranian Journal of Biotechnology, 11(1): 41-46. Kiran G.S., Nishanth L.A., Priyadharshini S., Anitha R., Selvin J., 2014. Effect of Fe nanoparticle on growth and glycolipid biosurfactant production under solid state culture by marine Nocardiopsis sp. MSA13A. BMC Biotechnology, 2014, 14: 48. McKee M.S., Filser J., 2016. Impacts of metal-based engineered nanomaterials on

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Ayman Abdel Mohsen Hassan, Mohamed Helmy Yacout, Mohamed Samir Khalel, Salma Hashim Abu Hafsa, Mostafa Abdel Rahman Ibrahim, Dorina Nicoleta Mocuta, Adrian Turek Rahoveanu and Lorena Dediu

hydrophila. Aquaculture Research, 39:1720-1730. Sivagurunathan A., Amila Meera K., Xavier Innocent B., 2011. Investigation of Immunostimulant Potential of Zingiber officinale and Curcuma longa in Cirrhinus mrigala exposed to P.aeruginosa. Haematological Assessment, IJRAP, 2(3):899-904. Sivaram V., Babu M.M., Immanuel G., Murugadass S., Citarasu T., Marian M.P., 2004. Growth and immune response of juvenile greasy groupers (Epinephelus tauvina) fed with herbal antibacterial active principle supplemented diets against Vibrio harveyi infections

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Aleksandra Stanojković-Sebić, Radmila Pivić, Zoran Dinić, Renata Iličić, Dragana Latković and Dragana Jošić

REFERENCES ADESEMOYE AO, OBINI M, UGOJI EO: Comparison of plant growth-promotion with Pseudomonas aeruginosa and Bacillus subtilis in three vegetables. Braz. J. Microbiol., 39(3)423-426, 2008. BANCHIO E, BOGINO PC, ZYGADLO J, GIORDANO W: Plant growth promoting rhizobacteria improve growth and essential oil yield in Origanum majorana L. Biochem. Syst. Ecol., 36(10)766-771, 2008. BARCACCIA G, PALLOTTINI L, SOATTIN M, LAZZARIN R, PARRINI P, LUCCHIN M: Genomic DNA fingerprints as a tool for identifying cultivated types of radicchio ( Cichorium

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Marlena Piontek and Wanda Czyżewska

L., Zheng L., Ni L.: Tissue distribution and seasonal dynamics of the hepatotoxic microcystins-LR and - RR in a freshwater snail (Bellamya aeruginosa) from a large shallow, eutrophic lake the subtropical China, Environmental Pollution, 134 (2005) 423-430. 6. Chen J., Xie P.: Microcystin accumulation in freshwater bivalves from lake Taihu, China and potential risk to human consumption, Environmental Toxicolology and Chemistry, 26, 5 (2007) 1066-1073. 7. Czyżewska W.: Application of biological methods for the estimation of cyanotoxic