Synergistic Effect Between Different Milk-Derived Peptides and Proteins

References 

1. Altieri C, Speranza B, Del Nobile MA, Sinigaglia M. Suitability of bifidobacteria and thymol as biopreservatives in extending the shelf life of fresh packed plaice fillets. J. Appl. Microbiol. 2005;99:1294–1302
   • MEDLINE
   • CrossRef
2. Arnold RR, Brewer M, Gauthier JJ. Bactericididal activity of human lactoferrin: Sensitivity of a variety of microorganims. Infect. Immun. 1980;28:893–898
   • MEDLINE
3. Arqués JL, Fernández J, Gaya P, Nuñez M, Rodríguez E, Medina M. Antimicrobial activity of reuterin in combination with nisin against food-borne pathogens. Int. J. Food Microbiol. 2004;95:225–229
   • MEDLINE
   • CrossRef
4. Arqués JL, Nuñez M, Medina M, Rodríguez E. Synergistic effect of reuterin in combination with nisin on Staphylococcus aureus in milk. Milchwissenschaft. 2004;59:373–375
5. Bellamy W, Takase M, Wakabayahi H, Kawase K, Tomita M. Antibacterial spectrum of lactoferricin B, a potent bactericidal peptide derived from the N-terminal region of bovine lactoferrin. J. Appl. Bacteriol. 1992;73:472–479
   • MEDLINE
6. Branen JK, Davidson PM. Enhancement of nisin, lysozyme, and monolaurin antimicrobial activities by ethylenediamine-tetraacetic acid and lactoferrin. Int. J. Food Microbiol. 2004;90:63–74
   • MEDLINE
   • CrossRef
7. Cressy HK, Jerret AR, Osborne CM, Bremer PJ. A novel method for the reduction of cell numbers of Listeria monocytogenes by freezing in combination with an essential oil in bacteriological media. J. Food Prot. 2003;66:390–395
   • MEDLINE
8. Davidson PM, Parish ME. Methods for testing the efficacy of food antimicrobials. Food Technol. 1989;43:148–155
9. Davies EA, Adams MR. Resistance of Listeria monocytogenes to the bacteriocin nisin. Int. J. Food Microbiol. 1994;21:341–347
   • MEDLINE
   • CrossRef
10. Delves-Broughton J, Blackburn JP, Evans RJ, Hugenholtz J. Applications of the bacteriocin, nisin. Antonie Van Leeuwenhoek. 1996;69:193–202
    • MEDLINE
    • CrossRef
11. Dufour M, Simmonds RS, Bremer PJ. Development of a method to quantify in vitro the synergistic activity of “natural” antimicrobials. Int. J. Food Microbiol. 2003;85:249–258
    • MEDLINE
    • CrossRef
12. Ellison RT, Giehl T. Killing of gram-negative bacteria by lactoferrin and lysozyme. J. Clin. Invest. 1991;88:1080–1091
    • MEDLINE
    • CrossRef
13. García-Graells C, Valckx C, Michiels CW. Inactivation of Escherichia coli and Listeria innocua in milk by combined treatment of high hydrostatic pressure and the lactoperoxidase system. Appl. Environ. Microbiol. 2000;66:4173–4179
    • MEDLINE
    • CrossRef
14. Ibrahim HR, Sugimoto Y, Aoki T. Ovotransferrin antimicrobial peptide (OTAP-92) kills bacteria through a membrane damage mechanism. Biochim. Biophys. Acta. 2000;1523:196–205
    • MEDLINE
15. Jones EM, Smart A, Bloomberg G, Burgess L, Millar MR. Lactoferricin, a new antimicrobial peptide. J. Appl. Bacteriol. 1994;77:208–214
    • MEDLINE
16. Knekt P, Jarvinen R, Dich J, Hakulinen T. Risk of colorectal and other gastro-intestinal cancers after exposure to nitrate, nitrite and N-nitroso compounds: A follow-up study. Int. J. Cancer. 1999;80:852–856
    • MEDLINE
    • CrossRef
17. Kuwano K, Tanaka N, Shimizu T, Nagatoshi K, Nou S, Sonomoto K. Dual antibacterial mechanisms of nisin Z against gram-positive and gram-negative bacteria. Int. J. Antimicrob. Agents. 2005;26:396–402
    • Abstract
    • Full Text
    • Full-Text PDF (177 KB)
    • CrossRef
18. Kuwata H, Yip T, Tomita M, Hutchens TW. Direct evidence of the generation in human stomach of an antimicrobial peptide domain (lactoferricin) from ingested lactoferrin. Biochim. Biophys. Acta. 1998;1429:129–141
    • MEDLINE
19. Kuwata H, Yip T, Yamauchi K, Teraguchi S, Hayasawa H, Tomita M, et al. The survival of ingested lactoferrin in the gastrointestinal tract of adult mice. Biochem. J. 1998;334:321–323
20. Larrea MT, Gómez-Pinilla I, Farinas JC. Microwaveassisted acid disolution of sintered advanced ceramics for inductively coupled plasma atomic emission spectrometry. J. Anal. At. Spectrom. 1997;12:1323–1332
21. Lönnerdal B. Nutritional and physiological significance of human milk proteins. Am. J. Clin. Nutr. 2003;77:1437S–1443S
22. López-Expósito I, Gómez-Ruiz JA, Amigo L, Recio I. Identification of antibacterial peptides from bovine α_s2-casein. Int. Dairy J. 2006;16:1072–1080
23. López-Expósito I, Minervini F, Amigo L, Recio I. Identification of antibacterial peptides from bovine κ-casein. J. Food Prot. 2006;69:2992–2997
    • MEDLINE
24. López-Expósito I, Recio I. Antibacterial activity of peptides and folding variants from milk proteins. Int. Dairy J. 2006;16:1294–1305
25. Mansour M, Millière JB. An inhibitory synergistic effect of a nisinmonolaurin combination on Bacillus sp. vegetative cells in milk. Food Microbiol. 2001;18:87–94
    • CrossRef
26. McCann, D., A. Barrett, A. Cooper, D. Crumpler, L. Dalen, K. Grimshaw, E. Kitchen, K. Lok, L. Porteous, E. Prince, E. Sonuga-Barke, J. O. Warner, and J. Stevenson. Food additives and hyperactive behaviour in 3-year-old and 8/9-year-old children in the community: A randomised, double-blinded, placebo-controlled trial. Lancet. 370:1560–1567.
27. Pellegrini A, Hülsmeier AJ, Hunziker P, Thomas U. Proteolytic fragments of ovalbumin display antimicrobial activity. Biochim. Biophys. Acta. 2004;1672:76–85
    • MEDLINE
28. Pol IE, Smid J. Combined action of nisin and carvacrol on Bacillus cereus and Listeria monocytogenes. Lett. Appl. Microbiol. 2000;29:166–170
    • MEDLINE
    • CrossRef
29. Recio I, Visser S. Two ion-exchange chromatographic methods for the isolation of antibacterial peptides from lactoferrin. In situ enzymatic hydrolysis on an ion-exchange membrane. J. Chromatogr. A. 1999;831:191–201
    • MEDLINE
    • CrossRef
30. Recio I, Visser S. Identification of two distinct antibacterial domains within the sequence of bovine α_s2-casein. Biochim. Biophys. Acta. 1999;1428:314–326
    • MEDLINE
31. Roberts CM, Hoover DG. Sensitivity of Bacillus coagulans spores to combinations of high hydrostatic pressure, heat, acidity and nisin. J. Appl. Microbiol. 1996;81:363–368
    • CrossRef
32. Schnurer J, Magnusson J. Antifungal lactic acid bacteria as biopreservatives. Trends Food Sci. Technol. 2005;16:70–78
33. Sherman MP, Bennett SH, Hwang FF, Yu C. Neonatal small bowel epithelia: Enhancing anti-bacterial defense with lactoferrin and Lactobacillus GG. Biometals. 2004;17:285–289
    • MEDLINE
    • CrossRef
34. Singh B, Falahee MB, Adams MR. Synergistic inhibition of Listeria monocytogenes by nisin and garlic extract. Food Micro-biol. 2001;18:133–139
    • CrossRef
35. Spik G, Brunet B, Mazurierdehaine C, Fontaine G, Montreuil J. Characterization and properties of the human and bovine lactotransferrins extracted from the feces of newborn-infants. Acta Paediatr. Scand. 1982;71:979–985
    • MEDLINE
36. Stevens KA, Sheldon BW, Klapes NA, Klaenhammer TR. Nisin treatment for inactivation of Salmonella species and other gram-negative bacteria. Appl. Environ. Microbiol. 1991;57:3613–3615
    • MEDLINE
37. Taylor S, Brock J, Kruger C, Berner T, Murphy M. Safety determination for the use of bovine milk-derived lactoferrin as a component of an antimicrobial beef carcass spray. Regul. Toxicol. Pharmacol. 2004;39:12–24
    • MEDLINE
    • CrossRef
38. Valenti P, Antonini G. Lactoferrin: An important host defence against microbial and viral attack. Cell. Mol. Life Sci. 2005;62:2576–2587
    • MEDLINE
    • CrossRef
39. Ward PP, Conneely OM. Lactoferrin: Role in iron homeostasis and host defense against microbial infection. Biometals. 2004;17:203–208
    • MEDLINE
    • CrossRef
40. Zapico P, Medina M, Gaya P, Nuñez M. Synergistic effect of nisin and the lactoperoxidase system on Listeria monocytogenes in skim milk. Int. J. Food Microbiol. 1998;40:35–42
    • MEDLINE
    • CrossRef