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Development of a UHPLC-MS/MS method for the determination of quercetin in milk and its application to a pharmacokinetic study

., Jacobasch G., Derendorf H., Veit M.: Pharmacokinetics and bioavailability of quercetin glycosides in humans. J Clin Pharm 2001, 41, 492–499. 7. He J., Feng Y., Ouyang H.Z., Yu B., Chang Y.X., Pan G.X., Dong G.Y., Wang T., Gao X.M.: A sensitive LC–MS/MS method for simultaneous determination of six flavonoids in rat plasma: application to a pharmacokinetic study of total flavonoids from mulberry leaves. J Pharm Biomed Anal 2013, 84, 189–195 8. Jaisinghani R.N.: Antibacterial properties of quercetin. Microbiol Res 2017, 8, 6877. 9. Kumar D., Verma P

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Review of the Expression of Antimicrobial Peptide Defensin in Honey Bees Apis Mellifera L.

antimicrobial peptides: structure, properties and gene regulation. Protein & Peptide Letters , 12: 3-11. Casteels P., Ampe C., Jacobs F., Tempst P. (1993) - Functional and chemical characterization of hymenoptaecin, an antibacterial polypeptide that is infection-inducible in the honey bees ( Apis mellifera ). J. Biol. Chem. , 268: 7044-7054. Casteels P., Ampe C., Jacobs F., Vaek M., Tempst P. (1989) - Apidaecins: antibacterial peptides from honey bees. The EMBO Journal , 8: 2387-2391. Casteels P

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Antimicrobial efficacy of some plant extracts on bacterial ring rot pathogen, clavibacter michiganensis ssp. sepedonicus

) Cultivar response to bacterial ring rot infection in Maine. American Potato Journal, 65, 333-339. 8. Pradhanang PM, Momol MT, Olson SM, Jones JB (2003) Effects of plant essential oils on Ralstonia solanacearum population density and bacterial wilt incidence in tomato. Plant Disease, 87, 423-427. 9. Kotan R, Cakir A, Dadasoglu F, Aydin T, Cakmakci R, Ozer H, Kordali S, Mete E, Dikbas N (2010) Antibacterial activities of essential oils and extracts of Turkish Achillea, Satureja and Thymus species against plant pathogenic bacteria. J. Sci

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Comparison of different methods for detection of antimicrobial activity of probiotic strains of Lactobacillus rhamnosus against some food spoilage microorganisms

References Ammor S., Tauveron G., Dufour E., Chevallier I., 2006. Antibacterial activity of lactic acid bacteria against spoilage and pathogenic bacteria isolated from the same meat small-scale facility. 1 - Screening and characterization of the antibacterial compounds. Food Control 17, 454-461. Annuk H., Schopetova J., Kullisaar T., Songisepp E., Zilmer M., Milelsaar M., 2003. Characterization of intestinal lactobacilli as putative probiotic candidates. J. Appl. Microbiol. 94, 403

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FLAVONOLS HPLC ANALYSIS, IN VITRO BIOLOGICAL ACTIVITIES IN SELECTED HUMULUS LUPULUS L. GENOTYPES

References ALEKSEEVA, M.A., ÉLLER, K.I., ARZAMASTSEV, A.P.: Determining polyphenolic components of common hop by reversed - phase HPLC. Pharm. Chem. J. 38, 2004, 687 - 689. DI VITO, C., BERTONI, A., NALIN, M., SAMPIETRO, S., ZANFA, M., SINIGAGLIA, F.: The phytoestrogen 8-prenylnaringenin inhibits agonistdependent activation of human platelets. Biochim. Biophys. Acta. 1820, 2012, 1724-1733. ERLANGER, B.F., KOKOWSKY, M., COHEN, W.: The preparation and properties of two new chromogenic substrates for

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Influence of plasma on the physical properties of ointments with quercetin

References 1. A. D. A. H. Kumarasiri, H. I. C. De Silva and G. H. C. M. Hettiarachchi, Evaluation of antibacterial, antioxidant and physicochemical properties of formulated polyherbal ointments, IJAPBC 6 (2017) 87-95. 2. A. Kobylińska and K. M. Janas, Health-promoting effect of quercetin in human diet, Postepy Hig. Med. Dosw. 69 (2015) 51-62. 3. K. Sak, Site-specific anticancer effects of dietary flavonoid quercetin, Nutr. Cancer. 66 (2014) 177- 193; https://doi.org/10.1080/01635581.2014.864418 4

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Enzymatic Hydrolysis of Water Extractable Polysaccharides from Leaves of Plantago major L.

. The Iraqui Postgrad Med J 2012;11(1):130-35. 5. Metiner K, Özkan O, Seyyal AK. Antibacterial effects of ethanol and acetone extract of Plantago major L. on gram positive and gram negative bacteria. Kafkas Univ Vet Fak Derg 2012;18(3):503-505. 6. Nazarizadeh A, et al. Therapeutic uses and pharmacological properties of Plantago major L. and its active constituents. J Basic Appl Sci Res 2013;9(3):212-21. 7. Mohamed I, Osama M, Samiha M, et al. Biochemical studies on Plantago major L. and Cyamopsis tetragonoloba L. Intern J Biodiv Conserv 2011

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Preparation of Ag nanoparticles-reinforced polyamide 6 nanocomposites by in situ polymerization and investigation of its properties

. & Maruthamuthu, S., et al. (2012). One pot synthesis of polypyrrole silver nanocomposite on cotton fabrics for multifunctional property. Carbohydr. Polym. 90(4), 1557–1563. DOI: 10.1016/j.carbpol.2012.07.030. 4. Bagheri, H., Banihashemi, S. & Jelvani, S. (2016). A polythiophene–silver nanocomposite for headspace needle trap extraction. J. Chromatogr. A 1460, 1–8. DOI: 10.1016/j.chroma.2016.06.078. 5. Regiel, A., Irusta, S. & Kyzioł, A., et al. (2012). Preparation and characterization of chitosan–silver nanocomposite films and their antibacterial activity against

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Effects of substituents on the NMR features of basic bicyclic ring systems of fluoroquinolone antibiotics and the relationships between NMR chemical shifts, molecular descriptors and drug-likeness parameters

References P. C. Appelbaum and P. A. Hunter, The fluoroquinolone antibacterials: past, present and future perspectives, Int. J. Antimicrob. Agents   16 (2000) 5-15; DOI: 10.1016/S0924-8579(00)00192-8. D. C. Hooper, Quinolone Antimicrobial Agents (Eds. D. C. Hooper and E. Rubinstein), AMS Press, Washington 2003, pp. 3-40. S. Emami, A. Shafiee and A. Foroumadi, Structural features of new quinolones and relationship to antibacterial activity against Gram-positive bacteria, Mini

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Photostability of TiO2-Coated Wool Fibers Exposed to Ultraviolet B, Ultraviolet A, and Visible Light Irradiation

structure and properties of wool fiber surface-grafted with nano-antibacterial materials. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 86, 289-293. [31] McNeil, S. J., Sunderland, M. R. (2016). The nanocidal and antifeedant activities of titanium dioxide desiccant toward wool-digesting Tineola bisselliella moth larvae. Clean Technologies and Environmental Policy, 18(3), 843-852. [32] Sunderland, M. R., McNeil, S. J. (2017). Protecting wool carpets from beetle and moth larvae with nanocidal titanium dioxide desiccant. Clean Technologies

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