- 1) Esaki, H., Onozuka, H., Kawakishi, S., and Osawa, T., Antioxidative activity and isolation from soybeans fermented with Aspergillus spp. J. Agric. Food Chem., 45, 2020–2024 (1997).
- 2) Hu, C. C., Hsiao, C. H., Huang, S. Y., Fu, S. H., Lai, C. C., Hong, T. M., Chen, H. H., and Lu, F. J., Antioxidant activity of fermented soybean extract. J. Agric. Food Chem., 52, 5735–5739 (2004).
- 3) Lin, C. H., Wei, Y. T., and Chou, C. C., Enhanced antioxidative activity of soybean koji prepared with various filamentous fungi. Food Microbiol., 23, 628–633 (2006).
- 4) Hirota, A., Taki, S., Kawaii, S., Yano, M., and Abe, N., 1,1-Diphenyl-2-picrylhydrazyl radical-scavenging compounds from soybean miso and antiproliferative activity of isoflavones from soybean miso toward the cancer cell lines. Biosci. Biotechnol. Biochem., 64, 1038–1040 (2000).
- 5) Taira, J., Miyagi, C., and Aniya, Y., Dimerumic acid as an antioxidant from the mold, Monascus anka: the inhibition mechanisms against lipid peroxidation and hemeprotein-mediated oxidation. Biochem. Pharmacol., 63, 1019–1026 (2002).
- 6) Parvez, S., Malik, K. A., Ah Kang, S., and Kim, H. Y., Probiotics and their fermented food products are beneficial for health. J. Appl. Microbiol., 100, 1171–1185 (2006).
- 7) Kobayashi, M., Immunological functions of soy sauce: hypoallergenicity and antiallergic activity of soy sauce. J. Biosci. Bioeng., 100, 144–151 (2005).
- 8) Lin, C. H., and Chou, C. C., Suppression on the mutagenicity of 4-nitroquinoline-N-oxide by the methanol extracts of soybean koji prepared with various filamentous fungi. Int. J. Food Microbiol., 110, 19–23 (2006).
- 9) Miyake, Y., Ito, C., Itoigawa, M., and Osawa, T., Isolation of the antioxidant pyranonigrin-A from rice mold starters used in the manufacturing process of fermented foods. Biosci. Biotechnol. Biochem., 71, 2515–2521 (2007).
- 10) Dröge, W., Free radicals in the physiological control of cell function. Physiol. Rev., 82, 47–95 (2002).
- 11) Steinberg, D., Parthasarathy, S., Carew, T. E., Khoo, J. C., and Witztum, J. L., Beyond cholesterol. Modifications of low-density lipoprotein that increase its atherogenicity. N. Engl. J. Med., 320, 915–924 (1989).
- 12) Hirano, R., Sasamoto, W., Matsumoto, A., Itakura, H., Igarashi, O., and Kondo, K., Antioxidant ability of various flavonoids against DPPH radicals and LDL oxidation. J. Nutr. Sci. Vitaminol., 47, 357–362 (2001).
- 13) Knekt, P., Kumpulainen, J., Jarvinen, R., Rissanen, H., Heliovaara, M., Reunanen, A., Hakulinen, T., and Aromaa, A., Flavonoid intake and risk of chronic diseases. Am. J. Clin. Nutr., 76, 560–568 (2002).
- 14) Gerritsen, M. E., Carley, W. W., Ranges, G. E., Shen, C. P., Phan, S. A., Ligon, G. F., and Perry, C. A., Flavonoids inhibit cytokine-induced endothelial cell adhesion protein gene expression. Am. J. Pathol., 147, 278–292 (1995).
- 15) Bito, T., Roy, S., Sen, C. K., Shirakawa, T., Gotoh, A., Ueda, M., Ichihashi, M., and Packer, L., Flavonoids differentially regulate IFN gamma-induced ICAM-1 expression in human keratinocytes: molecular mechanisms of action. FEBS Lett., 520, 145–152 (2002).
- 16) Lotito, S. B., and Frei, B., Dietary flavonoids attenuate tumor necrosis factor α-induced adhesion molecule expression in human aortic endothelial cells: structure-function relationship and activity after first pass metabolism. J. Biol. Chem., 281, 37102–37110 (2006).
- 17) O’Brien, K. D., Allen, M. D., McDonald, T. O., Chait, A., Harlan, J. M., Fishbein, D., McCarty, J., Ferguson, M., Hudkins, K., and Benjamin, C. D., Vascular cell adhesion molecule-1 is expressed in human coronary atherosclerotic plaques. J. Clin. Invest., 92, 945–951 (1993).
- 18) Miyake, Y., Mochizuki, M., Okada, M., Hiramitsu, M., Morimitsu, Y., and Osawa, T., Isolation of antioxidative phenolic glucosides from lemon juice and their suppressive effect on the expression of blood adhesion molecules. Biosci. Biotechnol. Biochem., 71, 1911–1919 (2007).
- 19) Kang, D. G., Moon, M. K., Lee, A. S., Kwon, T. O., Kim, J. S., and Lee, H. S., Cornuside suppresses cytokine-induced proinflammatory and adhesion molecules in the human umbilical vein endothelial cells. Biol. Pharm. Bull., 30, 1796–1799 (2007).
- 20) Schlingmann, G., Taniguchi, T., He, H., Bigelis, R., Yang, H. Y., Koehn, F. E., Carter, G. T., and Berova, N., Reassessing the structure of pyranonigrin. J. Nat. Prod., 70, 1180–1187 (2007).
- 21) Hiort, J., Maksimenka, K., Reichert, M., Perovic-Ottstadt, S., Lin, W. H., Wray, V., Steube, K., Schaumann, K., Weber, H., Proksch, P., Ebel, R., Muller, W. E. G., and Bringmann, G., New natural products from the sponge-derived fungus Aspergillus niger. J. Nat. Prod., 67, 1532–1543 (2004).
- 22) Adom, K. K., and Liu, R. H., Antioxidant activity of grains. J. Agric. Food Chem., 50, 6182–6187 (2002).
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Antioxidative Pyranonigrins in Rice Mold Starters and Their Suppressive Effect on the Expression of Blood Adhesion Molecules
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