Exemplis Discimus 2007, 151(2):163-174

Lorem ipsum dolor sit amet, consectetuer adipiscing elit.

Fiana Thegasa, Klai Lassiterb, Montacca Teriusa
a Faculty of Neurology, Nilgaard University, Yavin Republic
b 1st Clinic of Forensic Medicine, Thisspias Faculty Hospital, Republic of Hoth

Background: Cum sociis natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus. Vestibulum a metus vitae sem faucibus gravida. Pellentesque vitae elit non diam tempor rutrum. Lorem ipsum dolor sit amet, consectetuer adipiscing elit.. Duis justo ipsum, placerat in, imperdiet vel, venenatis et, justo. Fusce arcu quam, rhoncus vel, ultrices sed, volutpat a, odio. Curabitur et nulla non lorem pretium consectetuer. Aliquam sed nisi id lacus faucibus porttitor.

Methods and Results: Cras ipsum ante, vulputate vitae, facilisis id, imperdiet vel, felis. Praesent magna ligula, pellentesque sed, varius sed, molestie sed, velit. Ut lectus orci, ultricies id, ullamcorper lobortis, porttitor ac, dolor. Maecenas turpis nisl, tincidunt eu, gravida ac, tristique quis, nibh. Suspendisse purus arcu, cursus eu, scelerisque vel, lobortis nec, nunc. Aliquam nulla tellus, fringilla non, tristique vitae, porttitor vitae, ante. In sit amet dolor sit amet turpis pellentesque elementum. Cum sociis natoque penatibus et magnis dis parturient montes, nascetur ridiculus mus.

Conclusions: Nulla consequat, lorem vel vulputate semper, ipsum risus tincidunt elit, varius lobortis orci felis eu metus. Morbi aliquam, tellus nec auctor dapibus, enim risus sodales dui, sed consequat felis leo a sem.

Klíčová slova: Phasellus id orci, Vivamus rutrum, Suspendisse potenti, Mauris id dui

Vloženo: 7. září 2007; Přijato: 12. říjen 2007; Zveřejněno: 1. prosinec 2007 

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Reference

  1. Huxley A. The New Royal Horticultural Society Dictionary of. Gardening. 1992; 3:790.
  2. Fukumoto LR, Mazza G. Assessing antioxidant and prooxidant activities of phenolic compounds. J. Agric. Food Chem. 2000; 48:35973604. Přejít k původnímu zdroji...
  3. Hummer KE. Blue honeysuckle: A new berry crop for North America. J. Am. Pomol. Soc. 2006; 60:38.
  4. Bagchi D, Sen CK, Bagchi M, Atalay M. Anti-angiogenic, antioxidant, and anti-carcinogenic properties of a novel anthocyanin-rich berry extract formula. Biochemistry (Moscow) 2004; 69:75. Přejít k původnímu zdroji...
  5. Doll R. An overview of the epidemiologic evidence linking diet and cancer. Proc. Nutr. Soc. 1990; 49:119131. Přejít k původnímu zdroji...
  6. Armstrong BK, Mann JI, Adelstein AM, Eskin F. Commodity consumption and ischemic heart-disease mortality, with special reference to dietary practices. J.Chron. Dis. 1975; 28:455469. Přejít k původnímu zdroji...
  7. Bingham SA. Mechanisms and experimental and epidemiologic evidence relating dietary fi ber (nonstarch polysaccharides) and starch to protection against large-bowel cancer. Proc. Nutr. Soc. 1990; 49:153171. Přejít k původnímu zdroji...
  8. Puupponen-Pimia R, Nohynek L, Meier C, Kahkonen M, Heinonen M, Hopia A, et al. Antimicrobial properties of phenolic compounds from berries. J. Appl. Microb. 2001; 90:494507. Přejít k původnímu zdroji...
  9. Middleton E, Kandaswami C. Eff ects of fl avonoids on immune and infl ammatory cell functions. Biochem. Pharmacol. 1992; 43:1167 1179. Přejít k původnímu zdroji...
  10. Edenharder R, Vonpetersdorff I, Rauscher R. Antimutagenic eff ects of fl avonoids, chalcones and structurally related-compounds on the activity of 2-amino-3-methylimidazo[4,5-F]quinoline (Iq) and other heterocyclic amine mutagens from cooked food. Mut. Res. 1993; 287:261274. Přejít k původnímu zdroji...
  11. Erstad JLF. Annual shoot growth in different populations of Lonicera involucrata collected in North America and grown in Norway. Euphytica 1991; 53:165171. Přejít k původnímu zdroji...
  12. Plekhanova MN. Blue Honeysuckle: a new berry from Russia. Pomona 1996; 29:46 48.
  13. Herman DE, Davidson, C.G. Evaluation of Lonicera taxa for honeysuckle aphid susceptibility, winter hardiness and use. J. Environ. Hort. 1997; 15:177 182.
  14. Kirtikar KR, Basu, B.D. Indian Medicinal Plants. Delphi 6: Taj Off set Press; 1935.
  15. Thompson M, Chaovanalikit, A. Preliminary observations on adaptation and nutraceutical values of blue honeysuckle (Lonicera caerulea) in Oregon, USA. Acta Hortic. 2003; 626:6572.
  16. Bors B. Blue Honeysuckle. [cited 17. 2. 2007]. Available from: http://www.usask.ca/agriculture/plantsci/dom_fruit/articles/blue_ honeysuckle.pdf
  17. Plekhanova MN. Blue honeysuckle (Lonicera caerulea L.) a new comercial berry crop for temperate climate: genetic resources and breeding. Acta Hortic. 2000; 538:159 164.
  18. Imanishi HT, Suzuki T, Masuda K, Harada T. Accumulation of raffi nose and stachyose in shoot apices of Lonicera caerulea L. during cold acclimation. Sci. Hort. 1998; 72:255263. Přejít k původnímu zdroji...
  19. Goldstein G, Nobel PS. Water relations and low-temperature acclimation for cactus species varying in freezing tolerance. Plant Physiology 1994; 104:675681.
  20. Shahidi F, Naczk, M. Phenolics in Food and Nutraceuticals. Boca Raton: CRC Press; 2003.
  21. Svarcova I, Heinrich, J., Bednar, P., Kren, V., Cvak, L., Ulrichova, J., Simanek, V., Valentova, K. Main components and radical scavenging activity of Lonicera caerulea L. var. kamtschatica berries. 50 Years of the Phytochemical Society of Europe. 11. -14. 4. 2007; Cambridge, UK, p. 9495
  22. Machida K, Asano J, Kikuchi M. Analysis of the components of Lonicera species. 3. Caeruleoside-A and caeruleoside-B, bis-iridoid glucosides from Lonicera caerulea. Phytochemistry 1995; 39:111 114. Přejít k původnímu zdroji...
  23. Machida K, Kikuchi M. An iridoid glucoside from Lonicera caeruee. Phytochemistry 1995; 40:603604. Přejít k původnímu zdroji...
  24. Ulrichova J, Bednar P, Kren V, Valentova K, Heinrich J, Svarcova I, Svobodova A, Reichenbach R, Cvak L, Simanek V. Characterization of Lonicera caerulea anthocyanines and phenolics by LC-MS2 and assessment of their biological activities. 3rd International Conference on Polyphenols and Health. 25.-28.11. 2007; Kyoto, Japan, p.
  25. Wang MF, Li JG, Rangarajan M, Shao Y, LaVoie EJ, Huang TC, et al. Antioxidative phenolic compounds from sage (Salvia offi cinalis). J. Agric. Food Chem. 1998; 46:48694873.
  26. Ono M, Koto M, Komatsu H, Igoshi K, Kobayashi H, Ito Y, et al. Cytotoxic triterpenes and sterol from the fruit of rabbiteye blueberry (Vaccinium ashei). Food Sci. Technol. Res. 2004; 10:5659. Přejít k původnímu zdroji...
  27. Jin XH, Ohgami K, Shiratori K, Suzuki Y, Koyama Y, Yoshida K, et al. Eff ects of blue honeysuckle (Lonicera caerulea L.) extract on lipopolysaccharide-induced infl ammation in vitro and in vivo. Exp. Eye Res. 2006; 82:860867. Přejít k původnímu zdroji... Přejít na PubMed...
  28. Manach C, Williamson G, Morand C, Scalbert A, Remesy C. Bioavailability and bioeffi cacy of polyphenols in humans. I. Review of 97 bioavailability studies. Am. J. Clin. Nutr. 2005; 81:230S- 242S.
  29. Karakaya S. Bioavailability of phenolic compounds. Crit. Rev. Food Sci. Nutr. 2004; 44:453464. Přejít k původnímu zdroji...
  30. Cotelle N. Role of fl avonoids in oxidative stress. Curr. Top. Med. Chem. 2001; 1:569590. Přejít k původnímu zdroji...
  31. McDougall GJ, Dobson P, Smith P, Blake A, Stewart D. Assessing potential bioavailability of rapsberry anthocyanins using an in vitro digestion system. J. Agric. Food Chem. 2005; 53:58965904. Přejít k původnímu zdroji...
  32. Gorelik S, Lapidot T, Shaham I, Granit R, Ligumsky M, Kohen R, et al. Lipid peroxidation and coupled vitamin oxidation in simulated and human gastric fl uid inhibited by dietary polyphenols: Health implications. J. Agric. Food Chem. 2005; 53:33973402. Přejít k původnímu zdroji...
  33. Paganga G, RiceEvans CA. The identifi cation of fl avonoids as glycosides in human plasma. FEBS Lett. 1997; 401:7882. Přejít k původnímu zdroji... Přejít na PubMed...
  34. Basu TK, Temple, N.J., Garg, M.L. Antioxidants in human health and disease. Wallingford, UK: CABI Publishing; 1999.
  35. Scalbert A, Williamson G. Dietary intake and bioavailability of polyphenols. J. Nutr. 2000; 130:2073S2085S.
  36. Hollman PCH, Devries JHM, Vanleeuwen SD, Mengelers MJB, Katan MB. Absorption of dietary quercetin glycosides and quercetin in healthy ileostomy volunteers. Am. J. Clin. Nutr. 1995; 62:12761282.
  37. Wolff ram S, Block M, Ader P. Quercetin-3-glucoside is transported by the glucose carrier SGLT1 across the brush border membrane of rat small intestine. J. Nutr. 2002; 132:630635.
  38. Walgren RA, Karnaky KJ, Lindenmayer GE, Walle T. Effl ux of dietary fl avonoid quercetin 4 '-beta-glucoside across human intestinal Caco-2 cell monolayers by apical multidrug resistance-associated protein-2. J. Pharmacol. Exp. Ther. 2000; 294:830836.
  39. Walle T, Otake Y, Walle UK, Wilson FA. Quercetin glucosides are completely hydrolyzed in ileostomy patients before absorption. J. Nutr. 2000; 130:26582661.
  40. Day AJ, DuPont MS, Ridley S, Rhodes M, Rhodes MJC, Morgan MRA, et al. Deglycosylation of fl avonoid and isofl avonoid glycosides by human small intestine and liver beta-glucosidase activity. FEBS Lett. 1998; 436:7175. Přejít k původnímu zdroji... Přejít na PubMed...
  41. Day AJ, Canada FJ, Diaz JC, Kroon PA, Mclauchlan R, Faulds CB, et al. Dietary fl avonoid and isofl avone glycosides are hydrolysed by the lactase site of lactase phlorizin hydrolase. FEBS Lett. 2000; 468:166170. Přejít k původnímu zdroji... Přejít na PubMed...
  42. Chalas J, Claise C, Edeas M, Messaoudi C, Vergnes L, Abella A, et al. Eff ect of ethyl esterifi cation of phenolic acids on low-density lipoprotein oxidation. Biomed. & Pharmacother. 2001; 55:5460. Přejít k původnímu zdroji...
  43. Cliff ord MN. Chlorogenic acids and other cinnamates nature, occurrence and dietary burden. J. Sci. Food Agric. 1999; 79:362 372. Přejít k původnímu zdroji...
  44. Pietta PG. Flavonoids as antioxidants. J. Nat. Prod. 2000; 63:1035 1042. Přejít k původnímu zdroji... Přejít na PubMed...
  45. Zadernowski R, Naczk M, Nesterowicz J. Phenolic acid profi les in some small berries. J. Agric. Food Chem. 2005; 53:21182124. Přejít k původnímu zdroji...
  46. Chaovanalikit A, Thompson MM, Wrolstad RE. Characterization and quantifi cation of anthocyanins and polyphenolics in blue honeysuckle (Lonicera caerulea L.). J. Agric. Food Chem. 2004; 52:848852. Přejít k původnímu zdroji...
  47. Plumb GW, Garcia-Conesa MT, Kroon PA, Rhodes M, Ridley S, Williamson G. Metabolism of chlorogenic acid by human plasma, liver, intestine and gut microfl ora. J. Sci. Food Agric. 1999; 79:390 392. Přejít k původnímu zdroji...
  48. Kroon PA, Williamson G. Hydroxycinnamates in plants and food: current and future perspectives. J. Sci. Food Agric. 1999; 79:355 361. Přejít k původnímu zdroji...
  49. Olthof MR, Hollman PCH, Katan MB. Chlorogenic acid and caffeic acid are absorbed in humans. J. Nutr. 2001; 131:6671.
  50. Peppercorn MA, Goldman P. Caff eic acid metabolism by bacteria of human gastrointestinal tract. J. Bacteriol 1971; 108:9961000. Přejít na PubMed...
  51. Gonthier MP, Verny MA, Besson C, Remesy C, Scalbert A. Chlorogenic acid bioavailability largely depends on its metabolism by the gut microfl ora in rats. J. Nutr. 2003; 133:18531859.
  52. Adam A, Crespy V, Levrat-Verny MA, Leenhardt F, Leuillet M, Demigne C, et al. The bioavailability of ferulic acid is governed primarily by the food matrix rather than its metabolism in intestine and liver in rats. J. Nutr. 2002; 132:19621968.
  53. Chesson A, Provan GJ, Russell WR, Scobbie L, Richardson AJ, Stewart C. Hydroxycinnamic acids in the digestive tract of livestock and humans. J. Sci. Food Agric. 1999; 79:373378. Přejít k původnímu zdroji...
  54. Andreasen MF, Kroon PA, Williamson G, Garcia-Conesa MT. Intestinal release and uptake of phenolic antioxidant diferulic acids. Free Radic. Biol. Med. 2001; 31:304314. Přejít k původnímu zdroji...
  55. Ferguson LR, Zhu ST, Harris PJ. Antioxidant and antigenotoxic eff ects of plant cell wall hydroxycinnamic acids in cultured HT-29 cells. Mol. Nutr. & Food Res. 2005; 49:585593.
  56. Kikugawa K, Hakamada T, Hasunuma M, Kurechi T. Reaction of para-hydroxycinnamic acid-derivatives with nitrite and its relevance to nitrosamine formation. J. Agric. Food Chem. 1983; 31:780 785. Přejít k původnímu zdroji...
  57. RiceEvans CA, Miller NJ, Paganga G. Structure-antioxidant activity relationships of fl avonoids and phenolic acids. Free Rad. Biol. Med. 1996; 20:933956. Přejít k původnímu zdroji...
  58. Vaidyanathan JB, Walle T. Cellular uptake and effl ux of the tea fl avonoid (-)-epicatechin-3-gallate in the human intestinal cell line Caco-2. J. Pharmacol. Exp. Ther. 2003; 307:745752. Přejít k původnímu zdroji...
  59. Tsyrlov IB, Mikhailenko VM, Gelboin HV. Isozyme-specifi c and species-specifi c susceptibility of cDNA-expressed CYP1A P-450s to diff erent fl avonoids. BBA Prot. Struct. Mol. Enzymol. 1994; 1205:325335. Přejít k původnímu zdroji...
  60. Otake Y, Hsieh F, Walle T. Glucuronidation versus oxidation of the fl avonoid galangin by human liver microsomes and hepatocytes. Drug Metabol. Dispos. 2002; 30:576581. Přejít k původnímu zdroji... Přejít na PubMed...
  61. Boutin JA, Meunier F, Lambert PH, Hennig P, Bertin D, Serkiz B, et al. In-vivo and in-vitro glucuronidation of the fl avonoid diosmetin in rats. DMD 1993; 21:11571166.
  62. Vaidyanathan JB, Walle T. Glucuronidation and sulfation of the tea fl avonoid (-)-epicatechin by the human and rat enzymes. Drug Metabol. Dispos. 2002; 30:897903. Přejít k původnímu zdroji... Přejít na PubMed...
  63. Zhu BT, Ezell EL, Liehr JG. Catechol-O-methyltransferase-catalyzed rapid O-methylation of mutagenic fl avonoids Metabolic inactivation as a possible reason for their lack of carcinogenicity in vivo. J. Biol. Chem. 1994; 269:292299.
  64. Rechner AR, Kuhnle G, Bremner P, Hubbard GP, Moore KP, Rice- Evans CA. The metabolic fate of dietary polyphenols in humans. Free Rad. Biol. Med. 2002; 33:220235. Přejít k původnímu zdroji...
  65. Walle T, Walle UK, Halushka PV. Carbon dioxide is the major metabolite of quercetin in humans. J. Nutr. 2001; 131:26482652.
  66. Galati G, Moridani MY, Chan TS, OBrien PJ. Peroxidative metabolism of apigenin and naringenin versus luteolin and quercetin: Glutathione oxidation and conjugation. Free Rad. Bio. Med. 2001; 30:370382. Přejít k původnímu zdroji...
  67. Walle T, Vincent TS, Walle UK. Evidence of covalent binding of the dietary fl avonoid quercetin to DNA and protein in human intestinal and hepatic cells. Biochem. Pharmacol. 2003; 65:16031610. Přejít k původnímu zdroji...
  68. Harris DM, Besselink E, Henning SM, Go VLW, Heber D. Phytoestrogens induce diff erential estrogen receptor alpha- or betamediated responses in transfected breast cancer cells. Exp. Biol. Med. 2005; 230:558568.
  69. Sesink ALA, OLeary KA, Hollman PCH. Quercetin gluouronides but not glucosides are present in human plasma after consumption of quercetin-3-glucoside or quercetin-4'-glucoside. J. Nutr. 2001; 131:19381941.
  70. Bourne LC, Rice-Evans CA. Urinary detection of hydroxycinnamates and fl avonoids in humans after high dietary intake of fruit. Free Rad. Res. 1998; 28:429438. Přejít k původnímu zdroji...
  71. Olthof MR, Hollman PCH, Vree TB, Katan MB. Bioavailabilities of quercetin-3-glucoside and quercetin-4 '-glucoside do not diff er in humans. J. Nutr. 2000; 130:12001203.
  72. Ferry DR, Smith A, Malkhandi J, Fyfe DW, deTakats PG, Anderson D, et al. Phase I clinical trial of the fl avonoid quercetin: Pharmacokinetics and evidence for in vivo tyrosine kinase inhibition. Clin. Cancer Res. 1996; 2:659668.
  73. Ueno I, Nakano N, Hirono I. Metabolic-fate of [C-14] quercetin in the Acl rat. Jpn. J. Exp. Med. 1983; 53:4150.
  74. Fang J, Xia C, Cao ZX, Zheng JZ, Reed E, Jiang BH. Apigenin inhibits VEGF and HIF-1 expression via P13K/AKT/p70S6K1 and HDM2/p53 pathways. FASEB J. 2005; 19:342353. Přejít k původnímu zdroji...
  75. Schroeter H, Heiss C, Balzer J, Kleinbongard P, Keen CL, Hollenberg NK, et al. (-)-Epicatechin mediates benefi cial eff ects of fl avanol-rich cocoa on vascular function in humans. PNAS 2006; 103:10241029. Přejít k původnímu zdroji...
  76. Katiyar S, Elmets CA, Katiyar SK. Green tea and skin cancer: photoimmunology, angiogenesis and DNA repair. J. Nutr. Biochem. 2007; 18:287296. Přejít k původnímu zdroji...
  77. Manach C, Texier O, Morand C, Crespy V, Regerat F, Demigne C, et al. Comparison of the bioavailability of quercetin and catechin in rats. Free Rad. Biol. Med. 1999; 27:12591266. Přejít k původnímu zdroji...
  78. Cliff ord MN. Anthocyanins nature, occurrence and dietary burden. J. Sci. Food Agric. 2000; 80:10631072.
  79. Kowalczyk E, Krzesinski P, Kura M, Szmigiel B, Blaszczyk J. Anthocyanins in medicine. Pol. J. Pharmacol. 2003; 55:699702.
  80. Lea AGH. HPLC in Food Analysis. London: Academic Press; 1988.
  81. McGhie TK, Walton MC. The bioavailability and absorption of anthocyanins: towards a better understanding. Mol Nutr Food Res 2007; 51:70213. Přejít k původnímu zdroji... Přejít na PubMed...
  82. Cao GH, Muccitelli HU, Sanchez-Moreno C, Prior RL. Anthocyanins are absorbed in glycated forms in elderly women: a pharmacokinetic study. AJCN 2001; 73:920926.
  83. Wu XL, Cao GH, Prior RL. Absorption and metabolism of anthocyanins in elderly women after consumption of elderberry or blueberry. J. Nutr. 2002; 132:18651871.
  84. Perez-Vicente A, Gil-Izquierdo A, Garcia-Viguera C. In vitro gastrointestinal digestion study of pomegranate juice phenolic compounds, anthocyanins, and vitamin C. J. Agric. Food Chem. 2002; 50:23082312. Přejít k původnímu zdroji...
  85. Milbury PE, Cao GH, Prior RL, Blumberg J. Bioavailablility of elderberry anthocyanins. Mech. Ageing Dev. 2002; 123:9971006. Přejít k původnímu zdroji... Přejít na PubMed...
  86. Howell AB. Cranberry proanthocyanidins and the maintenance of urinary tract health. Crit. Rev. Food Sci. Nutr. 2002; 42:273278. Přejít k původnímu zdroji...
  87. Ali BH, Mousa HM, El-Mougy S. The eff ect of a water extract and anthocyanins of Hibiscus sabdariff a L. on paracetamol-induced hepatoxicity in rats. Phytother. Res. 2003; 17:5659. Přejít k původnímu zdroji...
  88. Rechner AR, Kuhnle G, Hu HL, Roedig-Penman A, van den Braak MH, Moore KP, et al. The metabolism of dietary polyphenols and the relevance to circulating levels of conjugated metabolites. Free Rad. Res. 2002; 36:12291241. Přejít k původnímu zdroji...
  89. Seeram NP, Nair MG. Inhibition of lipid peroxidation and structure- activity-related studies of the dietary constituents anthocyanins, anthocyanidins, and catechins. J. Agric. Food Chem. 2002; 50:53085312. Přejít k původnímu zdroji...
  90. Valentova K, Stejskal D, Bednar P, Vostalova J, Cihalik C, Vecerova R, et al. Biosafety, antioxidant status, and metabolites in urine after consumption of dried cranberry juice in healthy women: A pilot double-blind placebo-controlled trial. J. Agric. Food Chem. 2007; 55:32173224. Přejít k původnímu zdroji...
  91. Amico V, Napoli EM, Renda A, Ruberto G, Spatafora C, Tringali C. Constituents of grape pomace from the Sicilian cultivar 'Nerello Mascalese. Food Chem. 2004; 88:599607. Přejít k původnímu zdroji...
  92. Macheix J, Fleuriet, A., Billot, J. Fruit phenolics. Boca Raton: CRC Press; 1990.
  93. Wang H, Cao GH, Prior RL. Oxygen radical absorbing capacity of anthocyanins. J. Agric. Food Chem. 1997; 45:304309. Přejít k původnímu zdroji...
  94. Matsui T, Ueda T, Oki T, Sugita K, Terahara N, Matsumoto K. Alpha-glucosidase inhibitory action of natural acylated anthocyanins. 1. Survey of natural pigments with potent inhibitory activity. J. Agric. Food Chem. 2001; 49:19481951. Přejít k původnímu zdroji...
  95. Umoren J, Kies C. Commercial soybean starch blocker consumption Impact on weight-gain and on copper, lead and zinc status of rats. Plant Food. Hum. Nutr. 1992; 42:135142. Přejít k původnímu zdroji...
  96. Block TM, Lu XY, Platt FM, Foster GR, Gerlich WH, Blumberg BS, et al. Secretion of human hepatitis-B virus is inhibited by the imino sugar N-butyldeoxynojirimycin. PNAS 1994; 91:22352239. Přejít k původnímu zdroji...
  97. Martin S, Giannone G, Andriantsitohaina R, Martinez MC. Delphinidin, an active compound of red wine, inhibits endothelial cell apoptosis via nitric oxide pathway and regulation of calcium homeostasis. Br. J. Pharmacol. 2003; 139:10951102. Přejít k původnímu zdroji...
  98. Hamdy MK, Pratt DE, Powers JJ, Somaatmadja D. Anthocyanins. 3. Disc sensitivity assay of Inhibition of bacterial growth by pelargonidin 3-monoglucoside and its degradation products. J. Food Sci. 1961; 26:457-&. Přejít k původnímu zdroji...
  99. Kwon JY, Lee KW, Hur HJ, Lee HJ. Peonidin inhibits phorbol-ester- induced COX-2 expression and transformation in JB6 P+ cells by blocking phosphorylation of ERK-1 and -2. Sig. Transduction Pathways, Pt C 2007; 1095:513520.
  100. Neto CC, Krueger CG, Lamoureaux TL, Kondo M, Vaisberg AJ, Hurta RAR, et al. MALDI-TOF MS characterization of proanthocyanidins from cranberry fruit (Vaccinium macrocarpon) that inhibit tumor cell growth and matrix metalloproteinase expression in vitro. J. Sci. Food Agric. 2006; 86:1825. Přejít k původnímu zdroji...
  101. Howell AB. Bioactive compounds in cranberries and their role in prevention of urinary tract infections. Mol Nutr Food Res 2007; 51:7327. Přejít k původnímu zdroji... Přejít na PubMed...
  102. Foo LY, Lu YR, Howell AB, Vorsa N. A-type proanthocyanidin trimers from cranberry that inhibit adherence of uropathogenic P-fi mbriated Escherichia coli. J. Nat. Prod. 2000; 63:12251228. Přejít k původnímu zdroji... Přejít na PubMed...
  103. Ferreira D, Marais JP, Slade D. Phytochemistry of the mopane, Colophospermum mopane. Phytochemistry 2003; 64:3151. Přejít k původnímu zdroji... Přejít na PubMed...
  104. de Colmenares NG, Ramirez-Martinez JR, Aldana JO, Ramos- Nino ME, Cliff ord MN, Pekerar S, et al. Isolation, characterisation and determination of biological activity of coff ee proanthocyanidins. J. Sci. Food Agric. 1998; 77:368372. Přejít k původnímu zdroji...
  105. Puupponen-Pimia R, Nohynek L, Hartmann-Schmidlin S, Kahkonen M, Heinonen M, Maatta-Riihinen K, et al. Berry phenolics selectively inhibit the growth of intestinal pathogens. J. Appl. Microb. 2005; 98:9911000. Přejít k původnímu zdroji...
  106. Puupponen-Pimia R, Nohynek L, Alakomi HL, Oksman-Caldentey KM. Bioactive berry compounds novel tools against human pathogens. Appl. Microb. Biotechnol. 2005; 67:818. Přejít k původnímu zdroji...
  107. Aviram M, Fuhrman B. Wine fl avonoids protect against LDL oxidation and atherosclerosis. Ann. N. Y. Acad. Sci. 2002; 957:146 161. Přejít k původnímu zdroji...
  108. Ruel G, Couillard C. Evidences of the cardioprotective potential of fruits: the case of cranberries. Mol Nutr Food Res 2007; 51:692701. Přejít k původnímu zdroji... Přejít na PubMed...
  109. Zafra-Stone S, Yasmin T, Bagchi M, Chatterjee A, Vinson JA, Bagchi D. Berry anthocyanins as novel antioxidants in human health and disease prevention. Mol Nutr Food Res 2007; 51:675 83. Přejít k původnímu zdroji... Přejít na PubMed...
  110. Heinonen M. Antioxidant activity and antimicrobial eff ect of berry phenolics--a Finnish perspective. Mol Nutr Food Res 2007; 51:68491. Přejít k původnímu zdroji... Přejít na PubMed...
  111. Kim YC, Chung, S.K. Reactive oxygen radical species scavenging eff ects of Korean medicinal plant leaves. Food Sci. Biotechnol. 2002; 11:407411.
  112. Neto CC. Cranberry and its phytochemicals: A review of in vitro anticancer studies. J. Nutr. 2007; 137:186S-193S.
  113. Reed J. Cranberry fl avonoids, atherosclerosis and cardiovascular health. Crit. Rev. Food Sci. Nutr. 2002; 42:301316. Přejít k původnímu zdroji...
  114. Tsuda T, Horio F, Osawa T. Cyanidin 3-O-beta-D-glucoside suppresses nitric oxide production during a zymosan treatment in rats. J. Nutr. Sci. Vitaminology 2002; 48:305310. Přejít k původnímu zdroji... Přejít na PubMed...
  115. Duthie SJ. Berry phytochemicals, genomic stability and cancer: evidence for chemoprotection at several stages in the carcinogenic process. Mol. Nutr. Food Res. 2007; 51:66574. Přejít k původnímu zdroji...
  116. Duthie SJ, Jenkinson AM, Crozier A, Mullen W, Pirie L, Kyle J, et al. The eff ects of cranberry juice consumption on antioxidant status and biomarkers relating to heart disease and cancer in healthy human volunteers. Eur. J. Nutr. 2006; 45:113122. Přejít k původnímu zdroji...
  117. Neto CC. Cranberry and blueberry: evidence for protective eff ects against cancer and vascular diseases. Mol Nutr Food Res 2007; 51: 65264 Přejít k původnímu zdroji... Přejít na PubMed...
  118. Svarcova I, Valentova, K., Ulrichova, J., Simanek, V. Antioxidant activity of phenolic fraction from Lonicera caerulea L. var. kamtschatica berries. XXIV. Xenobiochemicke sympozium. 22.-24.5. 2007; Liptovsky Jan, p. 76
  119. Duthie SJ. Berry phytochemicals, genomic stability and cancer: Evidence for chemoprotection at several stages in the carcinogenic process. Mol. Nutr. Food Res. 2007; 51:665674. Přejít k původnímu zdroji...
  120. Ahn D, Putt D, Kresty L, Stoner GD, Fromm D, Hollenberg PF. The eff ects of dietary ellagic acid on rat hepatic and esophageal mucosal cytochromes P450 and phase II enzymes. Carcinogenesis 1996; 17:821828. Přejít k původnímu zdroji... Přejít na PubMed...
  121. Carlton PS, Kresty LA, Siglin JC, Morse MA, Lu J, Morgan C, et al. Inhibition of N-nitrosomethylbenzylamine-induced tumorigenesis in the rat esophagus by dietary freeze-dried strawberries. Carcinogenesis 2001; 22:441446. Přejít k původnímu zdroji... Přejít na PubMed...
  122. Lee LT, Huang YT, Hwang JJ, Lee PPH, Ke FC, Nair MP, et al. Blockade of the epidermal growth factor receptor tyrosine kinase activity by quercetin and luteolin leads to growth inhibition and apoptosis of pancreatic tumor cells. Anticancer Res. 2002; 22:16151627.
  123. Choi JA, Kim JY, Lee JY, Kang CM, Kwon HJ, Yoo YD, et al. Induction of cell cycle arrest and apoptosis in human breast cancer cells by quercetin. Int. J. Oncology 2001; 19:837844.
  124. Ranelletti FO, Maggiano N, Serra FG, Ricci R, Larocca LM, Lanza P, et al. Quercetin inhibits p21-ras expression in human colon cancer cell lines and in primary colorectal tumors. Int. J. Cancer 2000; 85:438445. Přejít k původnímu zdroji...
  125. Morrow DMP, Fitzsimmons PEE, Chopra M, McGlynn H. Dietary supplementation with the anti-tumour promoter quercetin: its eff ects on matrix metalloproteinase gene regulation. Mutat. Res. Fund. Mol. Mech. Mut. 2001; 480:269276. Přejít k původnímu zdroji...
  126. Chen PN, Chu SC, Chiou HL, Kuo WH, Chiang CL, Hsieh YS. Mulberry anthocyanins, cyanidin 3-rutinoside and cyanidin 3- glucoside, exhibited an inhibitory eff ect on the migration and invasion of a human lung cancer cell line. Cancer Lett. 2006; 235:248259. Přejít k původnímu zdroji... Přejít na PubMed...
  127. Serraino I, Dugo L, Dugo P, Mondello L, Mazzon E, Dugo G, et al. Protective eff ects of cyanidin-3-O-glucoside from blackberry extract against peroxynitrite-induced endothelial dysfunction and vascular failure. Life Sci. 2003; 73:10971114. Přejít k původnímu zdroji... Přejít na PubMed...
  128. Cooke D, Steward WP, Gescher AJ, Marczylo T. Anthocyans from fruits and vegetables Does bright colour signal cancer chemopreventive activity? Eur. J. Cancer 2005; 41:19311940. Přejít k původnímu zdroji...
  129. Schmidt BM, Erdman JW, Lila MA. Diff erential eff ects of blueberry proanthocyanidins on androgen sensitive and insensitive human prostate cancer cell lines. Cancer Lett. 2006; 231:240246. Přejít k původnímu zdroji... Přejít na PubMed...
  130. Roy S, Khanna S, Alessio HM, Vider J, Bagchi D, Bagchi M, et al. Anti-angiogenic property of edible berries. Free Rad. Res. 2002; 36:10231031. Přejít k původnímu zdroji...
  131. Broadhurst CL, Polansky MM, Anderson RA. Insulin-like biological activity of culinary and medicinal plant aqueous extracts in vitro. J. Agric. Food Chem. 2000; 48:849852. Přejít k původnímu zdroji...
  132. McDougall GJ, Dobson P, Smith P, Blake A, Stewart D. Assessing potential bioavallability of raspberry anthocyanins using an in vitro digestion system. Journal of Agricultural and Food Chemistry 2005; 53:58965904. Přejít k původnímu zdroji... Přejít na PubMed...
  133. McDougall GJ, Stewart D. The inhibitory eff ects of berry polyphenols on digestive enzymes. BioFactors 2005; 23:189195. Přejít k původnímu zdroji... Přejít na PubMed...
  134. Jayaprakasam B, Vareed SK, Olson LK, Nair MG. Insulin secretion by bioactive anthocyanins and anthocyanidins present in fruits. J. Agric. Food Chem. 2005; 53:2831. Přejít k původnímu zdroji...
  135. Yawadio R, Tanimori S, Morita N. Identifi cation of phenolic compounds isolated from pigmented rices and their aldose reductase inhibitory activities. Food Chem. 2007; 101:16161625. Přejít k původnímu zdroji... Přejít na PubMed...
  136. Adisakwattana S, Ngamrojanavanich N, Kalampakorn K, Tiravanit W, Roengsumran S, Yibchok-Anun S. Inhibitory activity of cyanidin- 3-rutinoside on alpha-glucosidase. J. Enzym. Inhib. Med. Chem. 2004; 19:313316. Přejít k původnímu zdroji...
  137. Camire ME. Billberries and blueberries as functional foods and nutraceuticals. Herbs, Botanicals and Teas. Lancaster: Technomic Publishing Company; 2000.
  138. Bickford PC, Gould T, Briederick L, Chadman K, Pollock A, Young D, et al. Antioxidant-rich diets improve cerebellar physiology and motor learning in aged rats. Brain Res. 2000; 866:211 217. Přejít k původnímu zdroji... Přejít na PubMed...

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