12 / J. Agrobiotech., 1, 1-16 (2010)
De Boland, A. R., Garner, G. B. & O’Dell, B. L. 1975. Identification and properties of phytate in cereal grains and oilseed products. Journal of Agricultural and Food Chemistry 23: 1186-1189.
Dey, G., Mitra, A. & Banerjee Maiti, B. R. 2001. Enhanced production of amylase by optimization of nutritional constituents using response surface methodology. Biochemistry of Engineering Journal 7: 227-231.
Dvorakova, J., Kopecky, J., Havlicek, V. & Kren, V. 2000. Formation of myo-inositol phosphates by Aspergillus niger 3-phytase. Folia Microbiology 45(2): 128-132.
Dvorkova, J. 1998. Phytase, sources, preparation and exploitation. Folia Microbiologica 43: 323-338.
Eskin, N. A. M. & Wiebe, S. 1983. Changes in phytate activity and phytase during germination of two faba bean cultivars. Journal of Food Science 48: 270-271.
Fandrejewski, H., Raj, S., Weremko, D. & Zebrowska, T. 1997. Apparent digestibility in experiment feeds and the effect of commercial phytase. Asian-Australasian Journal of Animal Science 10: 665-670.
Fardiaz, D. & Markakis, P. 1981. Degradation of phytic acid in oncom (fermented peanut press cake).
Journal of Food Science 46: 523-525.
Findenegg, G. R. & Nelemans, J. A. 1993. The effect of phytase on the availability of P from myo-inositol hexaphosphate (phytate) for maize roots. Plant Soil 154: 189-196.
Forlich, W. 1990. Chelating properties of dietary fibre and phytate. The role for mineral availability.
Advances of Experimental of Medical Biology 270: 83-93.
Ghosh, S. 1997. Phytase of a thermophilic mould Sporotrichum thermophile apinis. M.Sc dissertation, University of Delhi, New Delhi.
Gibson, D. M. & Ullah, A. H. J. 1990. Phytases and their action in phytic acid. In Inositol Metabolism in Plants. Wiley-Liss, Chichester.
Golovan, S. P., Hayes, M. A., Philips, J. P. & Forsberg, C. W. 2001. Transgenic mice expressing bacterial phytase as a model for phosphorus pollution control. Nature of Biotechnology 19: 429-433.
Greene, D. A., De Jesus, P. V. & Winegrad, A. I. 1975. Effects of insulin and dietary myo-inositol on impaired peripheral motor nerve conduction velocity in acute streptozotocin diabetes. Journal of Clinical Investment 55: 201-206.
Greiner, R., Konietzny, U. & Villavicencio, A. L. C. H. 2003. Reduction in phytate content by lactic acid fermentation. In Proceedings Vol. 2, Koninklijke Vlaamse Chemische Vereniging, Heverlee EURO FOOD CHEM XII. Strategies for Safe Food. Analytical, Industrial and Legal Aspects: Challenges in Organisation and Communication. T. Eklund, H. De Brabander, E. Daeseleire, I. Dirinck and W.
Ooghe (eds.). p. 670-673.
Greiner, R., Haller, E., Konietzny, U. & Jany, K. D. 1997. Purification and characterization of a phytase from Klebsiella terrigena. Archieves of Biochemistry and Biophysical 341: 201-206.
Greiner, R., Konietzny, U. & Jany, K. D. 1993. Purification and characterization of two phytases from Escherichia coli. Archieves of Biochemistry and Biophysical 303: 107–113.
Harland, B. F. & Morris, E. R. 1995. Phytate: A good or bad food component. Nutrition Research 15 (5):
733-754.
Haros, M., Rosell, C. M. & Benedito, C. 2001. Use of fungal phytase to improve breadmaking performance of whole wheat bread. Journal of Agriculture and Food Chemistry 49(11): 5450-5454.
Hayes, J. E., Simpson, R. J. & Richardson, A. E. 2000. The growth and phosphorus utilization of plants in sterile media when supplied with inositol hexaphosphate, glucose 1-phosphate or inorganic phosphate. Plant and Soil 220: 165-174.
12
13 / Anis Shobirin Meor Hussin et al.
Hemrika, W., Renirie, R., Dekker, H. L., Barnett, P. & Weaver, R. 1997. From phosphatase to vanadium peroxidases: A similar architecture of the active site. In Proceeding of Natural Academic Science. USA.
Hübel, F. & Beck, E. 1996. Maize root phytase: Purification, characterization, and localization of enzyme activity and its putative substrate. Plant Physiology 112: 1429-1436.
Idriss, E. E., Makarewicz, O., Farouk, A., Rosner, K., Greiner, R., Bochow, H., Richter, T. & Borris, R. 2002. Extracellular phytase activity of Bacillus amyloliquefaciens FZ45 contributes to its plant growth promoting effect. Microbiology 148: 2097-2109.
Igbal, T. H., Lewis, K. O. & Cooper, B. T. 1994. Phytase activity in the human and rat small intestine.
Gut 35: 1233-1236.
Inada, T. & Nakamura, Y. 1996. Autogenous control of suhB expression of Escherichia coli. Biochimie 78: 209-212.
Ireland, M. M. E., Kart, J. A., Quardokus, E. M., Reilly, J. P. & Brun, Y. V. 2002. Proteomic analysis of the Caulobacter crescentus stalk indicates competence for nutrient uptake. Molecular Microbiology 45: 1029-1041.
Irving, G. C. J. & Cosgrove, D. J. 1971. Inositol phosphate phosphatases of microbiological origin:
Some properties of partially purified bacterial (Pseudomonas sp.) phytase. Australian Journal of Biology Science 24: 547-557.
Janczarek, M., Krol, J. & Skorupska, A. 1999. The pssB gene product of Rhizobium leguminosarum by Trifolii is homologous to a family of inositol monophosphatases. FEMS Microbiology Letters 173: 319-325.
Keruvuo, J., Lauraeus, M., Nurminen, P., Kalkinen, N. & Apajalahti, J. 1998. Isolation, characterization, molecular gene cloning and sequencing of a novel phytase from Bacillus subtilis.
Applied of Environmental Microbiology 64: 2079-2085.
Kim, Y. O., Kim, H. K., Bae, K. S., Yu, J. H. & Oh, T. K. 1998. Cloning of thermo-stable phytase gene (phy) from Bacillus sp. DS11 and its overexpression in Escherichia coli. FEMS Microbiology Letters 162: 185-191.
Knorr, D., Watkins, T. R. & Carlson, B. L. 1981. Enzymatic reduction and phytate in whole wheat breads. Journal of Food Science 46: 1866-1869.
Koneitzny, U. & Greiner, R. 2004. Bacterial phytase: Potential application, in vivo function and regulation of its synthesis. Brazilian Journal of Microbiology 35: 11-18.
Konietzny, U. & Greiner, R. 2002. Molecular and catalytic properties of phytase degrading enzymes (phytases). International Journal of Food Science and Technology 37: 791-812.
Konietzny, U. & Greiner, R. 2003. Phytic acid: Nutritional impact. In Encyclopaedia of Food Science and Nutrition. B. Caballero, L. Trugo and P. Finglas (eds.). Elsevier, London. p. 4555-4563.
Kornegay, E. T. 1996. Nutritional, environmental, and economic considerations for using phytase in pig and poultry diets. In Nutrient Management of Food Animals to Enhance and Protect the Environment.
E. T. Kornegay (eds.). CRC Press, Boca Raton, USA. p. 277–302.
Krystofova, S., Varecka, L., Vollek, V., Grimova, J. & Betina, V. 1994. Growth and condition of Trichoderma viride are affected by non-steroidal anti-inflammatory agents. Folia Microbiology (Prague) 29(1): 44-48.
Laboure, A. M., Gagnon, J. & Lescure, A. M. 1993. Purification and characterization of a phytase (myo-inositol hexakisphosphate phosphohydrolase) accumulated in maize (Zea mays) seedlings during germination. Biochemistry Journal 295: 413-419.
Li, M., Osaki, M., Honma, M. & Tadano, T. 1997. Purification and characterization of phytase induced in tomato roots under phosphorus-deficient conditions. Soil Science and Plant Nutrition 43:
179-190.
13
14 / J. Agrobiotech., 1, 1-16 (2010)
Liu, B. L., Rafiq, A., Tzeng, Y. & Rob, A. 1998. The induction and characterization of phytase and beyond. Enzymes Microbiology and Technology 22: 415-424.
Lott, J. N. A. 1984. Accumulation of seed reserves of phosphorus and other minerals. In Seed Physiology.
D. R. Murray (eds.). Academic Press, London.
Maga, J. A. 1982. Phytate: Its chemistry, occurrence, food interactions, nutritional significance, and methods of analysis. Journal Agricultural Food Chemistry 30: 1-9.
Maugenest, S., Martinez, I. & Lescure, A. M. 1997. Cloning and characterization of a cDNA encoding a maize seedling phytase. Biochemistry Journal 322: 511-517.
Mc Collum, E. V. & Hart, E. B. 1908. On the occurrence of a phytin splitting enzyme in animal tissue.
Journal of Biology and Chemistry 4: 497-500.
Michell, R. H. 1975. Inositol phospholipids and cell surface receptor function. Biochemistry and Biophysical Acta 415(1): 47-81.
Mohanna, C. & Nys, Y. 1999. Changes in zinc and manganese availability in broiler chicks induced by vegetable and microbial phytases. Animal Feed Science and Technology 77: 241-253.
Mullaney, E. J., Daly, C. B. & Ullah, A. H. 2000. Advances in phytase research. Advances of Applied Microbiology 47: 157-199.
Mwachireya, S. A., Beams, R. M., Higgs, D. A. & Dosanjh, B. S. 1999. Digestibility of canola protein products derived from the physical, enzymatic and chemical processing of commercial canola meal in rainbow trout Oncorhynchus mykiss (Walbaum) held in fresh water. Aquaculture Nutrition 5: 73-82.
Nakamura, Y., Fukuhara, H. & Sano, K. 2000. Secreted phytase activities of yeasts. Bioscience Biotechnology and Biochemistry 64: 841–844.
Nelson, T. S. 1967. The utilization of phytase phosphorus by poultry. Poultry Science 46: 862-871.
Norris, F. A., Wilson, M. P., Wallis, T. S. & Galyov, E. E. 1998. SopB, a protein required for virulence of Salmonella dublin, is an inositol phosphate phosphatase. In Proceeding of Natural Academic Science.
USA.
Oberleas, D., Muhrer, M. E. & O’Dell, B. L. 1962. Effects of phytic acid on zinc availability and parakeratosis in swine. Journal of Animal Science 21: 57-61.
Ohkawa, T., Ebisuno, S., Kitagawa, M., Morimoto, S., Miyazaki, Y. & Yasukawa, S. 1984. Rice bran treatment for patients with hypercalciuric stones: Experimental and clinical studies. Journal of Urology 132: 1140-1145.
Pandey, A., Szakacs, G., Soccol, C. R., Rodriguez-Leon, J. A. & Soccol, V. I. 2001. Production, purification and properties of microbial phytases. Bioresource Technology 77: 203-221.
Patwardhan, V. N. 1937. The occurrence of a phytin splitting enzyme in the intestines of albino rats.
Biochemistry Journal 31: 560-564.
Pfeffer, E. 1872. Cited in Billington, D. C.: The Inositol Phosphates, Chemical Synthesis and Biological Significance. Verlag Chemie, Weinheim.
Potter, S. M. 1995. Overview of proposed mechanisms for the hypocholestrolemic effect of soy.
Journal of Nutrition 125: 606S-611S.
Powar, V. K. & Joganathan, V. 1982. Purification and properties of phytate specific phosphatase from Bacillus subtilis. Journal of Bacteriology 151: 1102-1108.
Rapoport, S., Leva, E. & Guest, G. M. 1941. Phytase in plasma and erythrocytes of vertebrates. Journal of Biology and Chemistry 139: 621-632.
Ravindran, V., Bryden, W. L. & Kornegay, E. T. 1995. Phytates: Occurrence, bioavailability and implications in poultry nutrition. Poultry and Avian Biology Reviews 6: 125-143.
14
15 / Anis Shobirin Meor Hussin et al.
Reddy, N. R., Pierson, M. D., Sathe, S. K. & Salunkhe, D. K. 1989. Phytates in Cereal and Legumes. CRC Press Inc, Boca Raton, Florida.
Richardson, A. E. & Hadobas, P. A. 1997. Soil isolates of Pseudomonas spp. that utilize inositol phosphates. Canadian Journal of Microbiology 43: 509-516.
Richardson, A. E., Hadobas, P. A., Hayes, J. E., O’Hara, C. P. & Simpson, R. J. 2001. Utilization of phosphorus by pasture plants supplied with myo-inositol hexakisphosphate is enhanced by the presence of soil micro-organisms. Plant and Soil 229: 47-56.
Robinson, E. H., Jackson, S. & Li, M. H. 1996. Supplemental phytase in catfish diets. Aquaculture Magazine 22: 80-82.
Rumsey, G. L. 1993. Fish meal and alternate sources of protein in fish feeds. Fisheries 18: 14-19.
Sajidan, A., Farouk, A., Greiner, R., Jungblut, P., Mueller, E. C. & Borriss, R. 2004. Molecular and physiological characterization of a 3-phytase from soil bacterium Klebsiella sp. ASR1. Applied Microbiology and Biotechnology 65: 110–118.
Samanta, S., Dalal, B., Biswas, S. & Biswas, B. B. 1993. Myoinositol triphosphate-phytase complex as an elicitor in calcium mobilization in plants. Biochemistry and Biophysical Research Communications 191(2): 427-434.
Sandberg, A. S. & Andlid, T. 2002. Phytogenic and microbial phytases in human nutrition. International Journal of Food Science and Technology 37: 823-834.
Sandberg, A. S., Hulthen, L. R. & Turk, M. 1996. Dietary Aspergillus niger phytase increases iron absorption in humans. Journal of Nutrition 126: 476-480.
Sano, K., Fukuhara, H. & Nakamura, Y. 1999. Phytase of the yeast Arxula adeninivorans. Biotechnology Letters 21: 33-38.
Segueilha, L., Lambrechts, C., Boze, H., Moulin, G. & Galzy, P. 1992. Purification and properties of the phytase from Schwanniomyces castellii. Journal of Fermentation Bioengineering 74: 7–11.
Selle, P. H., Ravindran, V., Caldwell, R. A. & Bryden, W. L. 2000. Phytate and phytase: Consequences for protein utilisation. Nutrition Research Review 13: 255-278.
Shah, V. & Parekh, L. J. 1990. Phytase from Klebsiella sp. No. PG-2: Purification and properties. Indian Journal Biochemistry and Biophysics 27: 98-102.
Shimizu, M. 1992. Purification and characterization of phytase from Bacillus subtilis (natto) N-77.
Bioscience Biotechnology and Biochemistry 56: 1266-1269.
Shirai, K., Revah-Moiseev, S., Garcia-Garibay, M. & Marshall, V. M. 1994. Ability of some strains of lactic acid bacteria to degrade phytic acid. Letters of Applied Microbiology 10: 366-369.
Simell, M., Turunen, M., Piironen, J. & Vaara, T. 1989. Feed and food applications of phytase. Lecture at 3rd Meeting Industrial Applications of Enzymes. Barcelona, Spain.
Siren, M. 1986a. Stabilized pharmaceutical and biological material composition. Patent SE003 165.
Siren, M. 1986b. New myo-inositol triphosphoric acid isomer. Patent SW052 950.
Spitzer, R. S. & Philips, P. H. 1972. (Cited in K. Bitar & J. G. Reinhold) Phytase and alkaline phosphatase activities in intestinal mucosae of rat, chicken, calf and man. Biochemistry and Biophysical Acta 268: 442-452.
Sreeramulu, G., Srinivasa, D. S., Nand, K. & Joseph, R. 1996. Lactobacillus amylovorus as a phytase producer in submerged culture. Letters of Applied Microbiology 23: 385-388.
Suzuki, U., Yoshimura, K. & Takaishi, M. 1907. Ueber ein Enzyme “Phytase” das “Anhydro-oxy-methylen diphosphorsaure” Spaltet. Tokyo Imperative University College Agriculture Bulletin.
15
16 / J. Agrobiotech., 1, 1-16 (2010)
Tambe, S. M., Kaklij, G. S., Keklar, S. M. & Parekh, L. J. 1994. Two distinct molecular forms of phytase from Klebsiella aerogenes: Evidence for unusually small active enzyme peptide. Journal of Fermentation and Bioengineering 77: 23-27.
Taylor, T. G. 1965. The availability of the calcium and phosphorus of plant materials. Proceedings of the Nutrition Society 24(1): f1-f2.
Touati, E., Dassa, E., Dassa, J. & Boquet, P. L. 1987. Acid phosphatase (pH 2.5) of Escherichia coli:
Regulatory characteristics. In Phosphate Metabolism and Cellular Regulation in Microorganisms. A.
Torriani-Gorini, F. G. Rothman, S. Silver, A. Wright and E. Yagil (eds.). American Society for Microbiology, Washington D.C.
Van de Velde, F., Konemann, L., van Rantwij, K. F. & Sheldon, R. A. 2000. The rational design of semisynthetic peroxidase. Biotechnology Bioengineering 67: 87-96.
Vohra, A. & Satyanarayana, T. 2002. Purification and characterization of a thermo-stable and acid-stable phytase from Pichia anomala. World Journal Microbiology and Biotechnology 18: 687–691.
Vohra, A. & Satyanarayana, T. 2003. Phytases: Microbial sources, production, purification, and potential biotechnological applications. Critical Reviews of Biotechnology 23(1): 29-60.
Vucenik, I. & Shamsuddin, A. M. 2003. Cancer inhibition by inositol hexaphosphate (IP6) and inositol:
From laboratory to clinic. Journal of Nutrition 133: 3778S- 3784S.
Walker, A. R. P. & Walker, B. F. 1992. Fibre, phytic acid and mineral metabolism. Nutrition Reviews 50: 246-247.
Wodzinski, R. J. & Ullah, A. M. J. 1996. Phytase. Advances in Applied Microbiology 42: 263-302.
Yanke, L. J., Bae, H. D., Selinger, L. B. & Cheng, K. J. 1998. Phytase activity of anaerobic ruminal bacteria. Microbiology 144: 1565-1573.
Yoon, S. J., Choi, Y. J., Min, H. K., Cho, K. K., Kim, J. W., Lee, S. C. & Jung, Y. H. 1996. Isolation and identification of phytase producing bacterium, Enterobacter sp. 4, and enzymatic properties of phytase enzyme. Enzyme Microbiology Technology 18: 449-454.
Zamudio, M., Gonzales, A. & Bastarrachea, F. 2002. Regulation of Raoutella terrigena comb. nov.
phytase expression. Canadian Journal of Microbiology 48: 71-81.
Zamudio, M., Gonzalez, A. & Medina, J. A. 2001. Lactobacillus plantarum activity is due to non-specific acid phosphatase. Letters in Applied Microbiology 32: 181-184.
Zyta, K., Koreleski, J. & Kujawski, M. 1989. Dephosphorylation of phytate compound by means of acid phosphatase from Aspergillus niger. Journal of Science and Food Agriculture 49: 315-324.
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