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References 1. Bexiga R., Cavaco L., Vilela C.L.: Isolation of Prototheca zopfii from bovine milk. Rev Port Ciênc Vet 2003, 98, 33-37. 2. Blaschke-Hellmessen R.: Flukonazole and itraconazole susceptibility testing with clinical yeast isolates and algae of the genus Prototheca by means of the E test. Mycoses 39 suppl. 1996, 2, 39-43. 3. Bodenhoff J., Madsen P.S.: Bovine prototecosis. A brief report of ten cases. AMPIS 1978, 86, 51-52. 4. Bueno V., de Mesguita A., Neves R., de Souza M., Ribeiro A., Nicolau E., de Oliveira N.: Epidemiological and clinical aspects

.1086/432519 5. Ouma C, Davenport GC, Were T, Otieno MF, Hittner JB, Vulule JM, et al. Haplotypes of IL-10 promoter variants are associated with susceptibility to severe malarial anemia and functional changes in IL-10 production. Hum Genet. 2008; 124:515-24. 10.1007/s00439-008-0578-5 6. Cyktor JC and Turner J. IL-10 and immunity against prokaryotic and eukaryotic intracellular pathogens. Infect. Immun. 2011. doi: 10.1128/IAI.00047-11. 7. Afzal MS, Tahir S, Salman A, Baig TA, Shafi T, Zaidi NS, et al. Analysis of interleukin-10 gene polymorphisms and hepatitis C susceptibility

-Tudela JL, Alcazar-Fuoli L, Cuesta I, Alastruey- Izquierdo A, Monzon A, Mellado E, Cuenca-Estrella M. Clinical relevance of resistance to antifungals. Int J Antimicrob Agents. 2008;32:S111-113. 8. Perkhofer S, Mrazek C, Hartl L, Lass-Flörl C. In Vitro Susceptibility Testing in Fungi: What is its Role in Clinical Practice? Curr Infect Dis Rep. 2010;12(6):401-8. 9. National Committee for Clinical Laboratory Standards. Reference method for broth dilution antifungal susceptibility testing of conidium-forming filamentous fungi: approved standard M38-A. NCCLS, Wayne, PA, USA

: mathematical and neural networks modeling. J. Crop Sci. , 48, 1532-1544. Kim, T.H., Opara L.U., Hampton, J.G., Hardacre, A.K. & MacKay B.R. (2002). The effects of grain temperature on breakage susceptibility in maize. Biosystems Eng., 82(4), 415-421. Oluwole, F.A., Aviara, N.A. & Haque, M.A. (2007). Effect of moisture content and impact energy on the crackability of sheanut. Agric.Eng.Int., CIGR Journal, Vol. 9. Parde, S.R., Kausalb, R.T., Jayasa, D.S. & White, N.D.G. (2002). Mechanical damage to soybean seed during processing. J. Stored Product.Res., 38: 385

References Balci Y., Balci S., MacDonald W.L., Gottschalk K.W. 2008. Relative susceptibility of oaks to seven species of Phytophthora isolated from oak forest soils. Forest Pathology , 38: 394-409. Baliuckas V., Pliura A. 2003. Genetic variation and phenotypic plasticity of Quercus robur populations and openpollinated families in Lithuania. Scandinavian Journal of Forest Research , 18: 305-309. Banach J. 2002. Zmienność wewnątrzgatunkowa dębu szypułkowego testowanego na powierzchni doświadczalnej w Leśnictwie Chrostowa. Zeszyty Naukowe AR w Krakowie, ser

.1093/jac/dkw385 7. Bartlett JG, Onderdonk AB, Cisneros RL, Kasper DL. Clindamycin-associated colitis due to a toxin-producing species of Clostridium in hamsters. J Infect Dis. 1977 Nov;136(5):701-5. DOI: 10.1093/infdis/136.5.701 8. Owens Jr RC, Donskey CJ, Gaynes RP, Loo VG, Muto CA. Antimicrobial-associated risk factors for Clostridium difficile infection. Clin Infect Dis. 2008 Jan;46(- Suppl 1):S19-S31. DOI: 10.1086/521859 9. Baines SD, Wilcox MH. Antimicrobial resistance and reduced susceptibility in Clostridium difficile: potential consequences for induction

Disk and Dilution Susceptibility Tests for Bacteria Isolated from Animals. Approved Standard M31-A3. CLSI, Wayne, USA, 2008. 4. Coelho S.M.O., Reinoso E., Pereira I.A., Soares L.C., Demo M., Bogni C., Souza M.M.S.: Virulence factors and antimicrobial resistance of Staphylococcus aureus isolated from bovine mastitis in Rio de Janeiro. Pesq Vet Bras 2009, 29, 369-374. 5. Fox L.K., Beser T.E., Jackson S.M.: Evaluation of coagulase-negative variant of Staphylococcus aureus as a cause of intramammary infections in a herd of dairy cattle. J Am Vet Med Assoc 1996; 209

. Geochemical atlas of Slovak Republic. Part V – Soils. Soil Science and Conservation Research Institute, Bratislava. Č urlík J. & J urkovič Ľ. 2012. Pedogeochémia. Univerzita Komenského v Bratislave, Bratislava, 228 p. D’ emilio M., C hianese D., C oppola R., M acchiato M. & R agosta M. 2007. Magnetic susceptibility measurements as proxy method to monitor soil pollution: Development of experimental protocols for field survey. Environ. Monitor. Assess. 125: 137-146. Ď urža O. 1999. Heavy metals contamination and magnetic susceptibility in soils around metallurgical

neoplasms: correlation with tumor progression. Int J Mol Med 2001;7(5):489-494. 5. Scherf U, Pastan I, Willingham MC, Brinkmann U. The human CAS protein which is homologous to the CSE1 yeast chromosome segregation gene product is associated with microtubules and mitotic spindle. Proc Natl Acad Sci USA 1996; 93(7):2670-2674. 6. Brinkmann U, Brinkmann E, Gallo M, Pastan I. Cloning and characterization of a cellular apoptosis susceptibility gene, the human homologue to the yeast chromosome segregation gene CSE1. Proc Natl Acad Sci USA 1995; 92(22):10427-10431. 7. Brinkmann U

the wells and the cells were classified based on the adherence [ 9 ]. Antibiotic susceptibility Antibiotic susceptibility testing was determined on blood agar plates by disc diffusion using the following antibiotics: penicillin, amoxicillin, clindamycin, erythromycin, tetracycline, ciprofloxacin, gentamycin, vancomycin, and teicoplanin. Minimal inhibitory concentration (MIC) was determined by Ε-test against penicillin, amoxicillin, vancomycin, and teicoplanin. Genotypic characterization Species identification was determined by performing specific gene uniplex