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Bioscience, Biotechnology, and Biochemistry Volume 69, 2005 - Issue 7
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Original Articles

Reverse Reaction of Aspergillus niger APC-9319 α-Galactosidase in a Supersaturated Substrate Solution: Production of α-Linked Galactooligosaccharide (α-GOS)

Akiko YAMASHITADepartment of Bioscience and Biotechnology, Faculty of Agriculture, Shinshu University
,
Hiroyuki HASHIMOTODepartment of Bioscience and Biotechnology, Faculty of Agriculture, Shinshu University
,
Koki FUJITABio Research Corporation of Yokohama
,
Masamichi OKADAAmano Enzyme
,
Shigeharu MORIAmano Enzyme
&
Sumio KITAHATADepartment of Bioscience and Biotechnology, Faculty of Agriculture, Shinshu University
Pages 1381-1388 | Received 16 Mar 2005, Accepted 26 Apr 2005, Published online: 22 May 2014

  • 1) Saini, H. S., Extractability and evaluation of α-galactosides of sucrose in leguminous seeds. Food Chem., 28, 149–157 (1988).
  • 2) Wada, K., Mizutani, J., Suzuki, H., and Hayakawa, K., Effect of manninotriose on human fecal microflora. J. Jpn. Soc. Nutr. Food Sci., 44, 171–176 (1991).
  • 3) Chou, D. K., Dodd, J., Jessell, T. M., Costello, C. E., and Jungalwala, F. B., Identification of α-galactose (α-fucose)-asialo-GM1 glycolipid expressed by subsets of rat dorsal root ganglion neurons. J. Biol. Chem., 264, 3409–3415 (1989).
  • 4) Eckhardt, A. E., and Goldstein, I. J., Occurrence of α-D-galactosyl-containing glycoproteins on Ehrlich tumor cell membranes. Biochemistry, 22, 5280–5289 (1983).
  • 5) Alvarez, F. J., Rodrigo, J., Jessell, T. M., Dodd, J., and Priestley, J. V., Morphology and distribution of primary afferent fibres expressing α-galactose extended oligosaccharides in the spinal cord and brainstem of the rat: light microscopy. J. Neurocytol., 18, 611–629 (1989).
  • 6) Matsuda, M., Takeuchi, S., and Nagura, T., Influence of raffinose for atopic dermatitis. Allergy in Practice (in Japanese), 18, 1092–1095 (1998).
  • 7) Kiyonobu, K., Ohsaki, T., Azuma, A., Osawa, G., Kanda, Y., and Kamoi, K., Effect of an oligosaccharide (raffinose) on immunocytes. Shigaku (in Japanese), 85, 551–558 (1998).
  • 8) Nagura, T., Hachimura, S., Hashiguchi, M., Ueda, Y., Kanno, T., Kikuchi, H., Sayama, K., and Kaminogawa, S., Suppressive effect of dietary raffinose on T-helper 2 cell-mediated immunity. Br. J. Nutr., 88, 421–426 (2002).
  • 9) Watanabe, H., Sonoyama, K., Watanabe, J., Yamaguchi, N., Kikuchi, H., Nagura, T., Aritsuka, T., Fukumoto, K., and Kasai, T., Reduction of allergic airway eosinophilia by dietary raffinose in Brown Norway rats. Br. J. Nutr., 92, 247–255 (2004).
  • 10) Li, J., Robertson, D. E., Short, J. M., and Wang, P. G., Chemical and enzymatic synthesis of glycoconjugates 5: one-pot regioselective synthesis of bioactive galactobiosides using a ClonezymeTM thermophilic glycosidase library. Bioorg. Med. Chem. Lett., 9, 35–38 (1999).
  • 11) Armstrong, G. D., Rowe, P. C., Goodyer, P., Orrbine, E., Klassen, T. P., Wells, G., MacKenzie, A., Lior, H., Blanchard, C., Auclair, F., Thompson, B., Rafter, D. J., and McLaine, P. N., A phase I study of chemically synthesized verotoxin (Shiga-like toxin) Pk-trisaccharide receptors attached to chromosorb for preventing hemolytic-uremic syndrome. J. Infect. Dis., 171, 1042–1045 (1995).
  • 12) Ofek, I., and Sharon, N., Adhesins as lectins: specificity and role in infection. Curr. Top. Microbiol. Immunol., 151, 91–113 (1990).
  • 13) Stromberg, N., Marklund, B.-I., Lund, B., Ilver, D., Hamers, A., Gaastra, W., Karlsson, K.-A., and Normark, S., Host-specificity of uropathogenic Escherichia coli depends on differences in binding specificity to Galα1-4Gal-containing isoreceptors. EMBO J., 9, 2001–2010 (1990).
  • 14) Chen, X., Andreana, P. R., and Wang, P. G., Carbohydrates in transplantation. Curr. Opin. Chem. Biol., 3, 650–658 (1999).
  • 15) Glaser, V., Carbohydrate-based drugs move closer to market: drugs in clinical pipeline validate glycobiology targets. Genet. Eng. News, 18(8), 1, 12, 32 (1998).
  • 16) Urashima, T., Saito, T., Nakamura, T., and Messer, M., Oligosaccharides of milk and colostrum in non-human mammals. Glycoconj. J., 18, 357–371 (2001).
  • 17) Ferguson, M. A. J., Homans, S. W., Dwek, R. A., and Rademacher, T. W., Glycosyl-phosphatidylinositol moiety that anchors Trypanosoma brucei variant surface glycoprotein to the membrane. Science, 239, 753–759 (1988).
  • 18) Wang, C.-C., Lee, J.-C., Luo, S.-Y., Fan, H.-F., Pai, C.-L., Yang, W.-C., Lu, L.-D., and Hung, S.-C., Synthesis of biologically potent α1→2-linked disaccharide derivatives via regioselective one-pot protection-glycosylation. Angew. Chem. Int. Ed., 41, 2360–2362 (2002).
  • 19) Taniguchi, M., Harada, M., Kojo, S., Nakayama, T., and Wakao, H., The regulatory role of Vα14 NKT cells in innate and acquired immune response. Annu. Rev. Immunol., 21, 483–513 (2003).
  • 20) Hashimoto, H., Katayama, C., Goto, M., Okinaga, T., and Kitahata, S., Enzymatic synthesis of α-linked galactooligosaccharides using the reverse reaction of a cell-bound α-galactosidase from Candida guilliermondii H-404. Biosci. Biotechnol. Biochem., 59, 179–183 (1995).
  • 21) Hashimoto, H., Katayama, C., Ikura, K., Okinaga, T., Ogata, C., Yoshizumi, H., Nakano, H., and Kitahata, S., Purification and some properties of cell-bound α-galactosidase from Candida guilliermondii H-404. J. Appl. Glycosci., 43, 25–33 (1996).
  • 22) Hashimoto, H., Katayama, C., Goto, M., Okinaga, T., and Kitahata, S., Transgalactosylation catalyzed by α-galactosidase from Candida guilliermondii H-404. Biosci. Biotechnol. Biochem., 59, 619–623 (1995).
  • 23) Hashimoto, H., Yamashita, A., Ikura, K., Katayama, C., Goto, M., Yasuno, S., Kamei, M., and Kitahata, S., Production of the positional isomers of α-galactosidase by the reverse reaction of α-galactosidase from Candida guilliermondii H-404. J. Appl. Glycosci., 48, 279–285 (2001).
  • 24) Yamashita, A., Hashimoto, H., Kitahata, S., Kikuchi, E., Fujita, K., Okada, M., Mizutani, A., Mori, S., Amano, Y., and Kanda, T., Production of α-linked galactooligosaccharide (α-GOS) by α-galactosidase from Aspergillus niger APC-9319 and its physical and physiological properties. J. Appl. Glycosci. (in Japanese), 51, 115–121 (2004).
  • 25) Abe, C., Fujita, K., Kikuchi, E., Hirano, S., Kuboki, H., Yamashita, A., Hashimoto, H., Mori, S., and Okada, M., Effects of α-linked galactooligosaccharide on adjuvant-induced arthritis in Wistar rats and type II collagen-induced arthritis in DBA/1J mice. Int. J. Tissue React., 26, 65–73 (2004).
  • 26) Sonoyama, K., Watanabe, H., Watanabe, J., Yamaguchi, N., Yamashita, A., Hashimoto, H., Kikuchi, E., Fujita, K., Okada, M., Mori, S., Kitahata, S., and Kawabata, J., Allergic airway eosinophilia is supported in ovalbumin-sensitized Brown Norway rats fed raffinose and α-linked galactooligosaccharide. J. Nutr., 135, 538–543 (2005).

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