Advanced search
Publication Cover
Critical Reviews in Environmental Science and Technology Volume 43, 2013 - Issue 9
Submit an article Journal homepage
995
Views
61
CrossRef citations to date
0
Altmetric
Original Articles

Phytases and Phytase-Labile Organic Phosphorus in Manures and Soils

Daniel Menezes-Blackburn Chile–Italy International Doctorate in Environmental Resources Science, Universidad de La Frontera, Temuco, Chile; Department of Food Technology and Bioprocess Engineering, Max Rubner-Institut, Federal Research Institute of Nutrition and Food, Karlsruhe, Germany; Università di Napoli Federico II, Portici, Italy
,
Milko A. Jorquera Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, Temuco, Chile
,
Ralf Greiner Department of Food Technology and Bioprocess Engineering, Max Rubner-Institut, Federal Research Institute of Nutrition and Food, Karlsruhe, Germany
,
Liliana Gianfreda Dipartimento di Scienze del Suolo, della Pianta, dell’Ambiente e delle produzioni Animali, Università di Napoli, Federico II, Italy
&
Maria de la Luz Mora Scientific and Technological Bioresource Nucleus (BIOREN), Universidad de La Frontera, Temuco, Chile
Pages 916-954 | Published online: 14 Mar 2013

REFERENCES

  • Abelson , P. 1999 . A potential phosphate crisis . Science , 283 ( 5410 ) : 2015
  • Adams , M. A. and Pate , J. S. 1992 . Availability of organic and inorganic forms of phosphorus to Lupins (Lupinus spp) . Plant Soil , 145 : 107 – 113 .
  • Al-Asheh , S. and Duvnjak , Z. 1994 . Characteristics of phytase produced by Aspergillus carbonarius NRC 401121 in canola meal . Acta Biotechnol. , 14 : 223 – 233 .
  • Anderson , G. and Arlidge , E. Z. 2006 . The adsorption of inositol phosphates and glycerophosphate by soil clays, clay minerals, and hydrated sesquioxides in acid media . Eur. J. Soil Biol. , 13 : 216 – 224 .
  • Andlid , T. , Veide , J. and Sandberg , A. 2004 . Metabolism of extracellular inositol hexaphosphate (phytate) by Saccharomyces cerevisiae . Int. J. Food Microbiol. , 97 : 157 – 169 .
  • Asan , M. 2007 . Microbial phytases, applications and biotechnology . Tarım Bilim. Derg. , 13 : 147 – 155 .
  • Berg , A. S. and Joern , B. C. 2006 . Sorption dynamics of organic and inorganic phosphorus compounds in soil . J. Environ. Qual. , 35 : 1855 – 1862 .
  • Berka , R. , Rey , M. , Brown , K. , Byun , T. and Klotz , A. 1998 . Molecular characterization and expression of a phytase gene from the thermophilic fungus Thermomyces lanuginosus . Appl. Environ. Microbiol. , 64 : 4423 – 4427 .
  • Berry , D. F. , Shang , C. , Sajdak , C. A. W. and Zelazny , L. W. 2007 . Measurement of phytase activity using tethered phytic acid as an artificial substrate: Methods development . Soil Biol. Biochem. , 39 : 361 – 367 .
  • Bieleski , R. L. 1973 . Phosphate pools, phosphate transport, and phosphate availability . Annu. Rev. Plant Physiol. , 24 : 225 – 252 .
  • Bohn , L. , Meyer , A. and Rasmussen , S. 2008 . Phytate: impact on environment and human nutrition. A challenge for molecular breeding . J. Zhejiang Univ. Sci. , 9 : 165 – 191 .
  • Borie , F. and Rubio , R. 2003 . Total and organic phosphorus in Chilean volcanic soils . Gayana Bot. , 60 : 69 – 73 .
  • Borie , F. , Zunino , H. and Martínez , L. 1989 . Macromolecule-P associations and inositol phosphates in some Chilean volcanic soils of temperate regions . Commun. Soil Sci. Plant Anal. , 20 : 1881 – 1894 .
  • Boyce , A. and Walsh , G. 2007 . Purification and characterisation of an acid phosphatase with phytase activity from Mucor hiemalis Wehmer . J. Biotechnol. , 132 : 82 – 87 .
  • Boyd , S. and Mortland , M. 1990 . “ Enzyme interactions with clays and clay-organic matter complexes ” . In Soil biochemistry (6th ed. , Edited by: Bollag , J. M. and Stotzky , G. 79 – 122 . New York , NY : Marcel Dekker .
  • Brinch-Pedersen , H. , Sorensen , L. D. and Holm , P. B. 2002 . Engineering crop plants: getting a handle on phosphate . Trends Plant Sci. , 7 : 118 – 125 .
  • Bunemann , E. K. 2008 . Enzyme additions as a tool to assess the potential bioavailability of organically bound nutrients . Soil Biol. Biochem. , 40 : 2116 – 2129 .
  • Cairney , J. W. G. and Chambers , S. M. 1997 . Interactions between Pisolithus tinctorius and its hosts: a review of current knowledge . Mycorriza , 7 : 117 – 131 .
  • Caldwell , B. 2005 . Enzyme activities as a component of soil biodiversity: A review . Pedobiol.–Int. J. Soil Biol. , 49 : 637 – 644 .
  • Cao , L. 2005 . Immobilised enzymes: Science or art? . Curr. Opin. Chem. Biol. , 9 : 217 – 226 .
  • Casey , A. and Walsh , G. 2003 . Purification and characterization of extracellular phytase from Aspergillus niger ATCC 9142 . Bioresour. Technol. , 86 : 183 – 188 .
  • Celi , L. and Barberis , E. 2005 . “ Abiotic stabilization of organic phosphorus in the environment ” . In Organic phosphorus in the environment , Edited by: Turner , B. L. , Frossard , E. and Baldwin , D. 113 – 132 . Cambridge, MA , , USA : CABI .
  • Celi , L. , Lamacchia , S. and Barberis , E. 2000 . Interaction of inositol phosphate with calcite . Nutr. Cycling Agroecosyst. , 57 : 271 – 277 .
  • Celi , L. , Lamacchia , S. , Marsan , F. A. and Barberis , E. 1999 . Interaction of inositol hexaphosphate on clays: Adsorption and charging phenomena . Soil Sci. , 164 : 574 – 585 .
  • Celi , L. , Presta , M. , Ajmore-Marsan , F. and Barberis , E. 2001 . Effects of pH and electrolytes on inositol hexaphosphate interaction with goethite . Soil Sci. Soc. Am. J. , 65 : 753 – 760 .
  • Chadha , B. S. , Harmeet , G. , Mandeep , M. , Saini , H. S. and Singh , N. 2004 . Phytase production by the thermophilic fungus Rhizomucor pusillus . World J. Microbiol. Biotechnol , 20 : 105 – 109 .
  • Chen , C. R. , Condron , L. M. , Turner , B. L. , Mahieu , N. , Davis , M. R. , Xu , Z. H. and Sherlock , R. R. 2004 . Mineralisation of soil orthophosphate monoesters under pine seedlings and ryegrass . Aust. J. Soil Res. , 42 : 189 – 196 .
  • Cheryan , M. and Rackis , J. 1980 . Phytic acid interactions in food systems . Crit. Rev. Food Sci. Nutr. , 13 : 297 – 335 .
  • Cho , C. and Bureau , D. 2001 . A review of diet formulation strategies and feeding systems to reduce excretory and feed wastes in aquaculture . Aquacult. Res. , 32 : 349 – 360 .
  • Cho , J. , Lee , C. , Kang , S. , Lee , J. , Bok , J. , Moon , Y. , Lee , H. , Kim , S. and Choi , Y. 2003 . Purification and characterization of a phytase from Pseudomonas syringae MOK1 . Curr. Microbiol. , 47 : 290 – 294 .
  • Choi , Y. M. , Suh , H. J. and Kim , J. M. 2001 . Purification and properties of extracellular phytase from Bacillus sp KHU-10 . J. Protein Chem. , 20 : 287 – 292 .
  • Chu , H. , Guo , R. , Lin , T. , Chou , C. , Shr , H. , Lai , H. , Tang , T. , Cheng , K. , Selinger , B. and Wang , A. 2004 . Structures of Selenomonas ruminantium phytase in complex with persulfated phytate DSP phytase fold and mechanism for sequential substrate hydrolysis . Structure , 12 : 2015 – 2024 .
  • Dalal , R. 1977 . Soil organic phosphorus . Adv. Agron. , 29 : 83 – 117 .
  • Dao , T. 2003 . Polyvalent cation effects on myo-inositol hexa kis dihydrogenphosphate enzymatic dephosphorylation in dairy wastewater . J. Environ. Qual. , 32 : 694 – 701 .
  • Dao , T. 2004a . Ligands and phytase hydrolysis of organic phosphorus in soils amended with dairy manure . Agron. J. , 96 : 1188 – 1195 .
  • Dao , T. 2004b . Organic ligand effects on myo-inositol hexakis dihydrogenphosphate enzymatic dephosphorylation in dairy wastewater . J. Environ. Qual. , 33 : 349 – 358 .
  • Dao , T. 2007 . “ Ligand effects on inositol phosphate solubility and bioavailability in animal manures ” . In Inositol phosphates: Linking agriculture and the environment , Edited by: Turner , B. L. , Richardson , A. E. and Mullaney , E. J. 169 – 185 . Cambridge, MA , , USA : CABI .
  • Dao , T. , Lugo-Ospina , A. , Reeves , J. and Zhang , H. 2006 . Wastewater chemistry and fractionation of bioactive phosphorus in dairy manure . Commun. Soil Sci. Plant Anal. , 37 : 907 – 924 .
  • Dao , T. and Hoang , K. Q. 2008 . Dephosphorylation and quantification of organic phosphorus in poultry litter by purified phytic-acid high affinity Aspergillus phosphohydrolases . Chemosphere , 72 : 1782 – 1787 .
  • De Angelis , M. , Gallo , G. , Corbo , M. , McSweeney , P. , Faccia , M. , Giovine , M. and Gobbetti , M. 2003 . Phytase activity in sourdough lactic acid bacteria: Purification and characterization of a phytase from Lactobacillus sanfranciscensis CB1 . Int. J. Food Microbiol. , 87 : 259 – 270 .
  • Doolette , A. L. and Dougherty , R. 2009 . Spiking improved solution phosphorus-31 nuclear magnetic resonance identification of soil phosphorus compounds . Soil Sci. Soc. Am. J. , 73 ( 3 ) : 919
  • Dox , A. and Golden , R. 1911 . Phytase in lower fungi . J. Biol. Chem. , 10 : 183 – 186 .
  • Dvoráková , J. 1998 . Phytase: Sources, preparation and exploitation . Folia Microbiol. , 43 : 323 – 338 .
  • Erdman , J. 1979 . Oilseed phytates: Nutritional implications . J. Am. Oil Chem. Soc. , 56 : 736 – 741 .
  • Feng , G. , Song , Y. C. , Li , X. L. and Christie , P. 2003 . Contribution of arbuscular mycorrhizal fungi to utilization of organic sources of phosphorus by red clover in a calcareous soil . Appl. Soil Ecol. , 22 : 139 – 148 .
  • Findenegg , G. R. and Nelemans , J. A. 1993 . The effect of phytase on the availability of p from myoinositol hexaphosphate (phytate) for maize roots . Plant Soil , 154 : 189 – 196 .
  • Food and Agriculture Organization of the United Nations . 2006 . Food and agriculture organization yearbook , Rome , , Italy : UN FAO .
  • Fu , S. J. , Sun , J. Y. , Qian , L. C. and Li , Z. Y. 2008 . Bacillus phytases: Present scenario and future perspectives . Appl. Biochem. Biotechnol. , 151 : 1 – 8 .
  • Fuentes , B. , Bolan , N. , Naidu , R. and Mora , M. 2006 . Phosphorus in organic waste-soil systems . J. Soil Sci. Plant Nutr. , 6 : 64 – 83 .
  • Fuentes , B. , Jorquera , M. and Mora , M. D. 2009 . Dynamics of phosphorus and phytate-utilizing bacteria during aerobic degradation of dairy cattle dung . Chemosphere , 74 : 325 – 331 .
  • George , T. S. , Quiquampoix , H. , Simpson , R. J. and Richardson , A. E. 2005a . “ Interactions between phytase and soil constituents: implications for hydrolysis of inositol phosphates ” . In Inositol phosphates in the soil–plant–animal system: Linking agriculture and environment , Edited by: Turner , B. L. , Richardson , A. E. and Mullaney , E. J. 47 – 48 . Sun Valley , ID : Soil Science Society of America .
  • George , T. S. , Quiquampoix , H. , Simpson , R. J. and Richardson , A. E. 2007b . “ Interactions between phytases and soil constituents: Implications for the hydrolysis of inositol phosphates ” . In Inositol phosphates, linking agriculture and the environment , Edited by: Turner , B. , Richardson , A. and Mullaney , E. 221 – 241 . Wallingford , , England : CAB International .
  • George , T. S. , Richardson , A. E. , Hadobas , P. A. and Simpson , R. J. 2004 . Characterization of transgenic Trifolium subterraneum L. which expresses phyA and releases extracellular phytase: Growth and P nutrition in laboratory media and soil . Plant Cell Environ. , 27 : 1351 – 1361 .
  • George , T. S. , Richardson , A. E. and Simpson , R. J. 2005b . Behaviour of plant-derived extracellular phytase upon addition to soil . Soil Biol. Biochem. , 37 : 977 – 988 .
  • George , T. S. , Simpson , R. J. , Gregory , P. J. and Richardson , A. E. 2007c . Differential interaction of Aspergillus niger and Peniophora lycii phytases with soil particles affects the hydrolysis of inositol phosphates . Soil Biol. Biochem. , 39 : 793 – 803 .
  • George , T. S. , Simpson , R. J. , Hadobas , P. , Marshall , D. and Richardson , A. 2007a . Accumulation and phosphatase-lability of organic phosphorus in fertilised pasture soils . Aust. J. Agric. Res. , 58 : 47 – 56 .
  • George , T. S. , Simpson , R. J. , Hadobas , P. A. and Richardson , A. E. 2005c . Expression of a fungal phytase gene in Nicotiana tabacum improves phosphorus nutrition of plants grown in amended soils . Plant Biotechnol. J. , 3 : 129 – 140 .
  • Giaveno , C. , Celi , L. , Richardson , A. E. , Simpson , R. J. and Barberis , E. 2010 . Interaction of phytases with minerals and availability of substrate affect the hydrolysis of inositol phosphates . Soil Biol. Biochem. , 42 : 491 – 498 .
  • Gilbert , G. , Knight , J. , Vance , C. and Allan , D. 1999 . Acid phosphatase activity in phosphorus-deficient white lupin roots . Plant Cell Environ. , 22 : 801 – 810 .
  • Godoy , S. , Chicco , C. , Meschy , F. and Requena , F. 2005 . Phytic phosphorus and phytase activity of animal feed ingredients . Interciencia , 30 : 24
  • Godoy , S. and Meschy , F. 2001 . Utilisation of phytate phosphorus by rumen bacteria in a semi-continuous culture system (Rusitec) in lactating goats fed on different forage to concentrate ratios . Reprod. Nutr. Dev. , 41 : 259 – 265 .
  • Golovan , S. , Wang , G. , Zhang , J. and Forsberg , C. 2000 . Characterization and overproduction of the Escherichia coli appA encoded bifunctional enzyme that exhibits both phytase and acid phosphatase activities . Can. J. Microbiol. , 46 : 59 – 71 .
  • Graf , E. , Empson , K. and Eaton , J. 1987 . Phytic acid. A natural antioxidant . J. Biol. Chem. , 262 : 11647 – 11650 .
  • Greaves , M. , Anderson , G. and Webley , D. 1967 . The hydrolysis of inositol phosphates by Aerobacter aerogenes . Biochim. Biophys. Acta , 132 : 412
  • Green , V. , Dao , T. H. , Cavigelli , M. A. and Flanagan , D. C. 2006 . Phosphorus fractions and dynamics among soil aggregate size classes of organic and conventional cropping systems . Soil Sci. , 171 : 874 – 885 .
  • Green , V. , Dao , T. H. , Stone , G. , Cavigelli , M. , Baumhardt , R. and Devine , T. 2007 . Bioactive phosphorus loss in simulated runoff from a phosphorus-enriched soil under two forage management systems . Soil Sci. , 172 : 721
  • Greenwood , A. and Lewis , D. 1977 . Phosphatases and the utilisation of inositol hexaphosphate by soil yeasts of the genus Cryptococcus . Soil Biol. Biochem. , 9 : 161 – 166 .
  • Greiner , R. 2004 . Purification and properties of a phytate-degrading enzyme from Pantoea agglomerans . Protein J. , 23 : 567 – 576 .
  • Greiner , R. , Haller , E. , Konietzny , U. and Jany , K. 1997 . Purification and characterization of a phytase from Klebsiella terrigena . Arch. Biochem. Biophys. , 341 : 201 – 206 .
  • Greiner , R. , Konietzny , U. and Jany , K. 1993 . Purification and characterization of two phytases from Escherichia coli . Arch. Biochem. Biophys. , 303 : 107 – 113 .
  • Greiner , R. , Lim , B. L. , Cheng , C. W. and Carlsson , N. G. 2007 . Pathway of phytate dephosphorylation by beta-propeller phytases of different origins . Can. J. Microbiol. , 53 : 488 – 495 .
  • Guan , X. H. , Shang , C. , Zhu , J. and Chen , G. H. 2006 . ATR-FTIR investigation on the complexation of myo-inositol hexaphosphate with aluminum hydroxide . J. Colloid Interface Sci. , 293 : 296 – 302 .
  • Gulati , H. K. , Chadha , B. and Saini , H. S. 2007a . Production, purification and characterization of thermostable phytase from thermophilic fungus Thermomyces lanuginosus TL-7 . Acta Microbiol. Hung. , 54 : 121 – 138 .
  • Gulati , H. K. , Chadha , B. S. and Saini , H. S. 2007b . Production and characterization of thermostable alkaline phytase from Bacillus laevolacticus isolated from rhizosphere soil . J. Ind. Microbiol. Biotechnol. , 34 : 91 – 98 .
  • Gulati , H. K. , Chadha , B. S. and Saini , H. S. 2007c . Production of feed enzymes (phytase and plant cell wall hydrolyzing enzymes) by Mucor indicus MTCC 6333: Purification and characterization of phytase . Folia Microbiol. , 52 : 491 – 497 .
  • Haefner , S. , Knietsch , A. , Scholten , E. , Braun , J. , Lohscheidt , M. and Zelder , O. 2005 . Biotechnological production and applications of phytases . Appl. Microbiol. Biotechnol. , 68 : 588 – 597 .
  • Harter , R. and Stotzky , G. 1971 . Formation of clay-protein complexes . Soil Sci. Soc. Am. J. , 35 ( 3 ) : 383
  • Hayes , J. E. , Richardson , A. E. and Simpson , R. J. 2000a . Components of organic phosphorus in soil extracts that are hydrolysed by phytase and acid phosphatase . Biol. Fertil. Soils , 32 : 279 – 286 .
  • Hayes , J. E. , Simpson , R. J. and Richardson , A. E. 2000b . The growth and phosphorus utilisation of plants in sterile media when supplied with inositol hexaphosphate, glucose 1-phosphate or inorganic phosphate . Plant Soil , 220 : 165 – 174 .
  • He , Z. Q. , Cade-Menun , B. , Toor , G. , Fortuna , A. , Honeycutt , C. and Sims , J. 2007 . Comparison of phosphorus forms in wet and dried animal manures by solution phosphorus-31 nuclear magnetic resonance spectroscopy and enzymatic hydrolysis . J. Environ. Qual. , 36 : 1086
  • He , Z. Q. , Griffin , T. and Honeycutt , C. 2004a . Enzymatic hydrolysis of organic phosphorus in swine manure and soil . J. Environ. Qual. , 33 : 367 – 372 .
  • He , Z. Q. , Griffin , T. and Honeycutt , C. 2004b . Evaluation of soil phosphorus transformations by sequential fractionation and phosphatase hydrolysis . Soil Sci. , 169 : 515
  • He , Z. Q. and Honeycutt , C. W. 2001 . Enzymatic characterization of organic phosphorus in animal manure . J. Environ. Qual. , 30 : 1685 – 1692 .
  • He , Z. Q. , Honeycutt , C. W. and Griffin , T. S. 2003 . Enzymatic hydrolysis of organic phosphorus in extracts and resuspensions of swine manure and cattle manure . Biol. Fertil. Soils , 38 : 78 – 83 .
  • He , Z. Q. , Olk , D. C. , Honeycutt , C. W. and Fortuna , A. M. 2009b . Enzymatically and ultraviolet-labile phosphorus in humic acid fractions from rice soils . Soil Sci. , 174 : 81 – 87 .
  • He , Z. Q. , Toor , G. , Honeycutt , C. and Sims , J. 2006 . An enzymatic hydrolysis approach for characterizing labile phosphorus forms in dairy manure under mild assay conditions . Bioresour. Technol. , 97 : 1660 – 1668 .
  • He , Z. Q. , Waldrip , H. , Honeycutt , C. , Erich , M. and Senwo , Z. 2009a . Enzymatic quantification of phytate in animal manure . Commun. Soil Sci. Plant Anal. , 40 : 566 – 575 .
  • Hens , M. and Merckx , R. 2001 . Functional characterization of colloidal phosphorus species in the soil solution of sandy soils . Environ. Sci. Technol. , 35 : 493 – 500 .
  • Hill , J. E. 2006 . Organic phosphorus pollution: the fate of phytate in the chesapeake bay wateshed , 176 Yale University .
  • Hill , J. E. , Kysela , D. and Elimelech , M. 2007 . Isolation and assessment of phytate-hydrolysing bacteria from the DelMarVa Peninsula . Environ. Microbiol. , 9 : 3100 – 3107 .
  • Hill , J. E. and Richardson , A. 2007 . “ Isolation and assessment of microorganisms that utilize phytate ” . In Inositol phosphates: Linking agriculture and the environment , Edited by: Turner , B. L. 61 – 77 . Wallingford , , England : CAB International .
  • Huang , H. Q. , Luo , H. Y. , Yang , P. L. , Meng , K. , Wang , Y. R. , Yuan , T. Z. , Bai , Y. G. and Yao , B. 2006 . A novel phytase with preferable characteristics from Yersinia intermedia . Biochem. Biophys. Res. Commun. , 350 : 884 – 889 .
  • Huang , Q. , Zhao , Z. and Chen , W. 2003 . Effects of several low-molecular weight organic acids and phosphate on the adsorption of acid phosphatase by soil colloids and minerals . Chemosphere , 52 : 571 – 579 .
  • Irvine , R. F. and Schell , M. J. 2001 . Back in the water: The return of the inositol phosphates . Nat. Rev. Mol. Cell Biol. , 2 : 327 – 338 .
  • Jareonkitmongkol , S. , Ohya , M. , Watanabe , R. , Takagi , H. and Nakamori , S. 1997 . Partial purification of phytase from a soil isolate bacterium, Klebsiella oxytoca MO-3 . J. Ferment. Bioeng. , 83 : 393 – 394 .
  • Jongbloed , A. , Mroz , Z. and Kemme , P. 1992 . The effect of supplementary Aspergillus niger phytase in diets for pigs on concentration and apparent digestibility of dry matter, total phosphorus, and phytic acid in different sections of the alimentary tract . Am. Soc. Animal Sci. , : 1159 – 1168 .
  • Jorquera , M. A. , Crowley , D. E. , Marschner , P. , Greiner , R. , Fernández , M. T. , Romero , D. , Menezes−Blackburn , D. and Mora , M. L. 2011 . Identification of β–propeller phytase−encoding genes in culturable Paenibacillus and Bacillus spp. from the rhizosphere of pasture plants on volcanic soils . FEMS Microbiol. Ecol. , 75 : 163 – 172 .
  • Jorquera , M. A. , Hernandez , M. T. , Rengel , Z. , Marschner , P. and Mora , M. D. 2008b . Isolation of culturable phosphobacteria with both phytate-mineralization and phosphate-solubilization activity from the rhizosphere of plants grown in a volcanic soil . Biol. Fertil. Soils , 44 : 1025 – 1034 .
  • Jorquera , M. A. , Martínez , O. , Maruyama , F. , Marschner , P. and Mora , M. L. 2008a . Current and future biotechnological applications of bacterial phytases and phytase-producing bacteria . Microbes Environ. , 23 : 182 – 191 .
  • Kerovuo , J. , Lappalainen , I. and Reinikainen , T. 2000a . The metal dependence of Bacillus subtilis phytase . Biochem. Biophys. Res. Commun. , 268 : 365 – 369 .
  • Kerovuo , J. , Lauraeus , M. , Nurminen , P. , Kalkkinen , N. and Apajalahti , J. 1998 . Isolation, characterization, molecular gene cloning, and sequencing of a novel phytase from Bacillus subtilis . Appl. Environ. Microbiol. , 64 : 2079 – 2085 .
  • Kerovuo , J. , Rouvinen , J. and Hatzack , F. 2000b . Analysis of myo-inositol hexakisphosphate hydrolysis by Bacillus phytase: Indication of a novel reaction mechanism . Biochem. J. , 352 : 623
  • Kim , Y. , Kim , H. , Bae , K. , Yu , J. and Oh , T. 1998a . Purification and properties of a thermostable phytase from Bacillus sp. DS11 . Enzyme Microb. Technol. , 22 : 2 – 7 .
  • Kim , Y. , Lee , J. , Kim , H. , Yu , J. and Oh , T. 1998b . Cloning of the thermostable phytase gene (phy) from Bacillus sp. DS11 and its overexpression in Escherichia coli . FEMS Microbiol. Lett. , 162 : 185 – 191 .
  • Koide , R. T. and Kabir , Z. 2000 . Extraradical hyphae of the mycorrhizal fungus Glomus intraradices can hydrolyse organic phosphate . New Phytol. , 148 : 511 – 517 .
  • Kondo , A. , Murakami , F. and Higashitani , K. 1992 . Circular dichroism studies on conformational changes in protein molecules upon adsorption on ultrafine polystyrene particles . Biotechnol. Bioeng. , 40 : 889 – 894 .
  • Konietzny , U. and Greiner , R. 2004 . Bacterial phytase: potential application, in vivo function and regulation of its synthesis . Braz. J. Microbiol. , 35 : 12 – 18 .
  • Lassen , S. , Breinholt , J. , Ostergaard , P. , Brugger , R. , Bischoff , A. , Wyss , M. and Fuglsang , C. 2001 . Expression, gene cloning, and characterization of five novel phytases from four basidiomycete fungi: Peniophora lycii, Agrocybe pediades, a Ceriporia sp., and Trametes pubescens . Appl. Environ. Microbiol. , 67 : 4701 – 4707 .
  • Le Casida , J. 1959 . Phosphatase activity of some common soil fungi . Soil Sci. , 87 : 305
  • Lee , Y. S. , Huang , K. X. , Quiocho , F. A. and O’Shea , E. K. 2008 . Molecular basis of cyclin-CDK-CKI regulation by reversible binding of an inositol pyrophosphate . Nat. Chem. Biol. , 4 : 25 – 32 .
  • Lei , X. , Porres , J. , Mullaney , E. and Brinch-Pedersen , H. 2007 . Phytase: source, structure and application, industrial enzymes: Structure, function and applications , Dordrecht , , the Netherlands : Springer .
  • Leprince , F. and Quiquampoix , H. 1996 . Extracellular enzyme activity in soil: Effect of pH and ionic strength on the interaction with montmorillonite of two acid phosphatases secreted by the ectomycorrhizal fungus Hebeloma cylindrosporum . Eur. J. Soil Sci. , 47 : 511 – 522 .
  • Li , X. , Chi , Z. , Liu , Z. , Yan , K. and Li , H. 2008 . Phytase production by a marine yeast Kodamea ohmeri BG3 . Appl. Biochem. Biotechnol. , 149 : 183 – 193 .
  • Lim , B. L. , Yeung , P. , Cheng , C. and Hill , J. E. 2007 . Distribution and diversity of phytate-mineralizing bacteria . ISME J. , 1 : 321 – 330 .
  • Liu , B. , Jong , C. and Tzeng , Y. 1999 . Effect of immobilization on pH and thermal stability of Aspergillus ficuum phytase . Enzyme Microb. Technol. , 25 : 517 – 521 .
  • Lott , J. N. A. , Ockenden , I. , Raboy , V. and Batten , G. D. 2001 . Phytic acid and phosphorus in crop seeds and fruits: A global estimate . Seed Sci. Res. , 11 : 181 – 181 .
  • Martin , M. , Celi , L. and Barberis , E. 2004 . Desorption and plant availability of myo-inositol hexaphosphate adsorbed on goethite . Soil Sci. , 169 : 115 – 124 .
  • Mateo , C. , Palomo , J. , Fernandez-Lorente , G. , Guisan , J. and Fernandez-Lafuente , R. 2007 . Improvement of enzyme activity, stability and selectivity via immobilization techniques . Enzyme Microb. Technol. , 40 : 1451 – 1463 .
  • Matumoto-Pintro , P. and Quiquampoix , H. 1997 . “ La phase solides des sols comme contrainte au fonctionnement des enzymes secretees par les microorganismes: comparaison des phytases intra et extracellulaires ” . In [Soil solid phase as a constraint to the functioning of enzymes secreted by microorganisms: comparison of intra-and extracellular phytases]. Microbiologie Industrielle et Environment, SF de Microbiologie 195 – 204 .
  • McDowell , R. , Scott , J. , Stewart , I. and Condron , L. 2007 . Influence of aggregate size on phosphorus changes in a soil cultivated intermittently: Analysis by 31 P nuclear magnetic resonance . Biol. Fertil. Soils , 43 : 409 – 415 .
  • McKelvie , I. , Hart , B. , Cardwell , T. and Cattrall , R. 1995 . Use of immobilized 3-phytase and flow injection for the determination of phosphorus species in natural waters . Anal. Chim. Acta , 316 : 277 – 289 .
  • Megazyme . 2007 . Phytic acid (phytate)/total phosphorus measured as phosphorus released by phytase and alkaline phosphatase , Bray , , Wicklow, Ireland : Megazyme International .
  • Menezes-Blackburn , D. , Jorquera , M. , Gianfreda , L. , Rao , M. , Greiner , R. , Garrido , E. , de la and Luz Mora , M. 2011 . Activity stabilization of Aspergillus niger and Escherichia coli phytases immobilized on allophanic synthetic compounds and montmorillonite nanoclays . Bioresour. Technol. , 102 : 9360 – 9367 .
  • Mitchell , D. , Vogel , K. , Weimann , B. , Pasamontes , L. and Van Loon , A. 1997 . The phytase subfamily of histidine acid phosphatases: Isolation of genes for two novel phytases from the fungi Aspergillus terreus and Myceliophthora thermophila . Microbiology , 143 : 245 – 252 .
  • Mudge , S. R. , Smith , F. W. and Richardson , A. E. 2003 . Root-specific and phosphate-regulated expression of phytase under the control of a phosphate transporter promoter enables Arabidopsis to grow on phytate as a sole P source . Plant Sci. , 165 : 871 – 878 .
  • Mullaney , E. J. , Daly , C. and Ullah , A. 2000 . Advances in phytase research . Adv. Appl. Microbiol. , 47 : 158 – 200 .
  • Mullaney , E. J. and Ullah , A. H. J. 2003 . The term phytase comprises several different classes of enzymes . Biochem. Biophys. Res. Commun. , 312 : 179 – 184 .
  • Nagashima , T. , Tange , T. and Anazawa , H. 1999 . Dephosphorylation of phytate by using the Aspergillus niger phytase with a high affinity for phytate . Appl. Environ. Microbiol. , 65 : 4682 – 4684 .
  • Nair , V. , Laflamme , J. and Duvnjak , Z. 1991 . Production of phytase by Aspergillus ficuum and reduction of phytic acid content in canola meal . J. Sci. Food Agric. , : 54
  • Nakamura , Y. , Fukuhara , H. and Sano , K. 2000 . Secreted phytase activities of yeasts . Biosci. Biotechnol. Biochem. , 64 : 841 – 844 .
  • Nannipieri , P. , Kandeler , E. and Ruggiero , P. 2002 . Enzymes in the environment: Activity, ecology and applications , Boca Raton , FL : CRC Press .
  • Nomenclature Committee of the International Union of Biochemistry and Molecular Biology . NC-IUBMB, 2007 . Internet database (http://www.chem.qmul.ac.uk/iupac/jcbn/). Maintained by Moss, G.P., Department of Chemistry, Queen Mary University of London, London, UK
  • Norde , W. 1986 . Adsorption of proteins from solution at the solid-liquid interface . Adv. Colloid Interface Sci. , 25 : 267 – 340 .
  • Norde , W. , Tan , W. and Koopal , L. 2008 . Protein adsorption at solid surfaces and protein complexation with humic acids . J. Soil Sci. Plant Nutr. , 8 : 64 – 74 .
  • Oh , B. , Choi , W. , Park , S. , Kim , Y. and Oh , T. 2004 . Biochemical properties and substrate specificities of alkaline and histidine acid phytases . Appl. Microbiol. Biotechnol. , 63 : 362 – 372 .
  • Otani , T. and Ae , N. 1999 . Extraction of organic phosphorus in andosols by various methods . Soil Sci. Plant Nutr. , 45 : 151 – 161 .
  • Pandey , A. , Szakacs , G. , Soccol , C. , Rodriguez-Leon , J. and Soccol , V. 2001 . Production, purification and properties of microbial phytases . Bioresour. Technol. , 77 : 203 – 214 .
  • Pant , H. , Edwards , A. and Vaughan , D. 1994 . Extraction, molecular fractionation and enzyme degradation of organically associated phosphorus in soil solutions . Biol. Fertil. Soils , 17 : 196 – 200 .
  • Pant , H. and Warman , P. 2000 . Enzymatic hydrolysis of soil organic phosphorus by immobilized phosphatases . Biol. Fertil. Soils , 30 : 306 – 311 .
  • Pasamontes , L. , Haiker , M. , Henriquez-Huecas , M. , Mitchell , D. and van Loon , A. 1997a . Cloning of the phytases from Emericella nidulans and the thermophilic fungus Talaromyces thermophilus . Biochim. Biophys. Acta, Gene Struct. Expression , 1353 : 217 – 223 .
  • Pasamontes , L. , Haiker , M. , Wyss , M. , Tessier , M. and Van Loon , A. 1997b . Gene cloning, purification, and characterization of a heat-stable phytase from the fungus Aspergillus fumigatus . Appl. Environ. Microbiol. , 63 : 1696
  • Perez Corona , M. E. , Klundert , I. and Verhoeven , J. T. A. 1996 . Availability of organic and inorganic phosphorus compounds as phosphorus sources for Carex species . New Phytol. , 133 : 225 – 231 .
  • Powar , V. and Jagannathan , V. 1982 . Purification and properties of phytate-specific phosphatase from Bacillus subtilis . J. Bacteriol. , 151 : 1102 – 1108 .
  • PubChem . 2009 . Phytic acid: Substance summary (SID 49985092) Retrieved from http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?sid=49985092&loc= es_rss
  • Puhl , A. , Greiner , R. and Selinger , L. 2008 . Kinetics, substrate specificity, and stereospecificity of two new protein tyrosine phosphatase-like inositol polyphosphatases from Selenomonas lacticifex . Biochem. Cell Biol. , 86 : 322 – 330 .
  • Puhl , A. , Greiner , R. and Selinger , L. 2009 . Stereospecificity of myo-inositol hexakisphosphate hydrolysis by a protein tyrosine phosphatase-like inositol polyphosphatase from Megasphaera elsdenii . Appl. Microbiol. Biotechnol. , 82 : 95 – 103 .
  • Quan , C. S. , Tian , W. , Fan , S. and Kikuchi , J. 2004 . Purification and properties of a low-molecular-weight phytase from Cladosporium sp. FP-1 . J. Biosci. Bioeng. , 97 : 260 – 266 .
  • Quan , C. S. , Fan , S. D. , Mang , L. H. , Wang , Y. J. and Ohta , Y. 2002 . Purification and properties of a phytase from Candida krusei WZ-001 . J. Biosci. Bioeng. , 94 : 419 – 425 .
  • Quiquampoix , H. 2000 . “ Mechanisms of protein adsorption on surfaces and consequences for extracellular enzyme activity in soil ” . In Soil biochemistry (6th ed. , Edited by: Bollag , J. M. and Stotzky , G. 171 – 206 . New York , NY : Marcel Dekker .
  • Quiquampoix , H. and Mousain , D. 2005 . “ Enzymatic hydrolysis of organic phosphorus ” . In Organic phosphorus in the environment , Edited by: Turner , B. L. 89 – 112 . Wallingford , , England : CAB International .
  • Rao , D. , Rao , K. , Reddy , T. and Reddy , V. 2009 . Molecular characterization, physicochemical properties, known and potential applications of phytases: An overview . Crit. Rev. Biotechnol. , 29 : 182 – 198 .
  • Rao , M. , Gianfreda , L. , Palmiero , F. and Violante , A. 1996 . Interactions of acid phosphatase with clays, organic molecules and organo-mineral complexes . Soil Sci. , 161 : 751
  • Rao , M. , Violante , A. and Gianfreda , L. 2000 . Interaction of acid phosphatase with clays, organic molecules and organo-mineral complexes: Kinetics and stability . Soil Biol. Biochem. , 32 : 1007 – 1014 .
  • Richardson , A. E. 2001 . Prospects for using soil microorganisms to improve the acquisition of phosphorus by plants . Aust. J. Plant Physiol. , 28 : 897 – 906 .
  • Richardson , A. E. , George , T. S. , Jakobsen , I. and Simpson , R. J. 2005 . “ Plant access to inositol phosphates in soil ” . In Inositol phosphates in the soil–plant–animal system: Linking agriculture and environment , Edited by: Turner , B. L. , Richardson , A. E. and Mullaney , E. J. 42 – 43 . Sun Valley , ID : Soil Science Society of America .
  • Richardson , A. E. , George , T. S. , Jakobsen , I. , Simpson , R. J. , Turner , B. L. and Mullaney , E. J. 2007 . “ Plant utilization of inositol phosphates ” . In Inositol phosphates, linking agriculture and the environment , Edited by: Turner , B. , Richardson , A. and Mullaney , E. 242 – 260 . Wallingford , , England : CAB International .
  • Richardson , A. E. and Hadobas , P. 1997 . Soil isolates of Pseudomonas spp. that utilize inositol phosphates . Can. J. Microbiol. , 43 : 509 – 516 .
  • Richardson , A. E. , Hadobas , P. A. and Hayes , J. E. 2000 . Acid phosphomonoesterase and phytase activities of wheat (Triticum aestivum L.) roots and utilization of organic phosphorus substrates by seedlings grown in sterile culture . Plant Cell Environ. , 23 : 397 – 405 .
  • Richardson , A. E. , Hadobas , P. A. and Hayes , J. E. 2001b . Extracellular secretion of Aspergillus phytase from Arabidopsis roots enables plants to obtain phosphorus from phytate . Plant J. , 25 : 641 – 649 .
  • Richardson , A. E. , Hadobas , P. , Hayes , J. , O’Hara , C. and Simpson , R. 2001a . Utilization of phosphorus by pasture plants supplied with myo-inositol hexaphosphate is enhanced by the presence of soil micro-organisms . Plant Soil , 229 : 47 – 56 .
  • Richardson , A. E. , Hadobas , P. A. , Simpson , R. J. , Horst , W. J. , Schenk , M. K. , Bürkert , A. , Claassen , N. , Flessa , H. , Frommer , W. B. and Goldbach , H. 2001c . Phytate as a source of phosphorus for the growth of transgenic Trifolium subterraneum . Dev. Plant Soil Sci. , 92 : 560 – 561 .
  • Rodriguez , E. , Mullaney , E. and Lei , X. 2000 . Expression of the Aspergillus fumigatus phytase gene in Pichia pastoris and characterization of the recombinant enzyme . Biochem. Biophys. Res. Commun. , 268 : 373 – 378 .
  • Rodríguez , H. , Fraga , R. , Gonzalez , T. and Bashan , Y. 2006 . Genetics of phosphate solubilization and its potential applications for improving plant growth-promoting bacteria . Plant Soil , 287 : 15 – 21 .
  • Rosas , A. , de la Luz Mora , M. , Jara , A. , López , R. , Rao , M. and Gianfreda , L. 2008 . Catalytic behaviour of acid phosphatase immobilized on natural supports in the presence of manganese or molybdenum . Geoderma , 145 : 77 – 83 .
  • Sebastian , S. , Touchburn , S. and Chavez , E. 1998 . Implications of phytic acid and supplemental microbial phytase in poultry nutrition: A review . World Poult. Sci. J. , 54 : 27 – 47 .
  • Segueilha , L. , Lambrechts , C. , Boze , H. , Moulin , G. and Galzy , P. 1992 . Purification and properties of the phytase from Schwanniomyces castellii . J. Ferment. Bioeng. , 74 : 7 – 11 .
  • Shand , C. and Smith , S. 1997 . Enzymatic release of phosphate from model substrates and P compounds in soil solution from a peaty podzol . Biol. Fertil. Soils , 24 : 183 – 187 .
  • Shang , C. , Caldwell , D. E. , Stewart , J. W. B. , Tiessen , H. and Huang , P. M. 1996 . Bioavailability of organic and inorganic phosphates adsorbed on short-range ordered aluminum precipitate . Microb. Ecol. , 31 : 29 – 39 .
  • Shang , C. , Stewart , J. and Huang , P. 1992 . pH effect on kinetics of absorption of organic and inorganic phosphates by short-range ordered aluminum and iron precipitates . Geoderma , 53 : 1 – 14 .
  • Sharpley , A. and Moyer , B. 2000 . Phosphorus forms in manure and compost and their release during simulated rainfall . J. Environ. Qual. , 29 : 1462
  • Shieh , T. and Ware , J. 1968 . Survey of microorganisms for the production of extracellular phytase . Appl. Environ. Microbiol. , 16 : 1348 – 1351 .
  • Shimizu , M. 1992 . Purification and characterization of phytase from Bacillus subtilis (natto) N-77 . Biosci. Biotechnol. Biochem ,
  • Shimizu , M. 1993 . Purification and characterization of phytase and acid phosphatase produced by Aspergillus oryzae K 1 . Biosci. Biotechnol. Biochem. , 57 : 1364 – 1365 .
  • Silva , P. 2008 . Eficiência e diversidade molecular de fungos e bactérias mineralizadores de fitato isolados da rizosfera de linhagens de milho [Efficiency and molecular diversity of phytate-mineralizing fungi and bacteria isolated from the rhizosphere of maize] , Lavras , Brasil : Master degree thesis, Universidade Federal de Lavras .
  • Simon , O. and Igbasan , F. 2002 . In vitro properties of phytases from various microbial origins . Int. J. Food Sci. Technol. , 37 : 813 – 822 .
  • Skujins , J. 1976 . Extracellular enzymes in soil . Crit. Rev. Microbiol. , 4 : 383
  • Smernik , R. J. D. and Warwick , J. 2007 . Identification of phytate in phosphorus-31 nuclear magnetic resonance spectra: The need for spiking . Soil Sci. Soc. Am. J. , 71 : 1045
  • Stevenson , F. J. and Cole , M. A. 1999 . Cycles of soils: Carbon, nitrogen, phosphorus, sulfur, micronutrients (2nd ed.) , New York , NY : Wiley .
  • Sutardi , M. and Buckle , K. 1988 . Characterization of extra-and intracellular phytase from Rhizopus oligosporus used in tempeh production . Int. J. Food Microbiol. , 6 : 67 – 69 .
  • Tambe , S. , Kaklij , G. , Kelkar , S. and Parekh , L. 1994 . Two distinct molecular forms of phytase from Klebsiella aerogenes: Evidence for unusually small active enzyme peptide . J. Ferment. Bioeng. , 77 : 23 – 27 .
  • Tang , J. , Leung , A. , Leung , C. and Lim , B. L. 2006 . Hydrolysis of precipitated phytate by three distinct families of phytases . Soil Biol. Biochem. , 38 : 1316 – 1324 .
  • Tarafdar , J. C. and Marschner , H. 1995 . Dual inoculation with Aspergillus fumigatus and Glomus mosseae enhances biomass production and nutrient uptake in wheat (Triticum aestivum L.) supplied with organic phosphorus as Na-phytate . Plant Soil , 173 : 97 – 102 .
  • Tarafdar , J. C. , Yadav , R. S. and Niwas , R. 2002 . Relative efficiency of fungal intra- and extracellular phosphatases and phytase . J. Plant Nutr. Soil Sci. , 165 : 17 – 19 .
  • Thakore , Y. 2008 . Enzymes for industrial applications (BIO030E) , Wellesley , , Massachusetts, USA : MBCC Research . http://www.bccresearch.com/report/enzymes-industrial-applications-bio030e.html
  • Toor , G. , Cade-Menun , B. and Sims , J. 2005 . Establishing a linkage between phosphorus forms in dairy diets, feces, and manures . J. Environ. Qual. , 34 : 1380 – 1391 .
  • Tsai , S. M. and Rosseto , R. 1992 . “ Transformações microbianas do fósforo [Microbial transformations of phosphorus] ” . In Microbiologia do solo [Soil microbiology] , Edited by: Cardoso , E. J. B. N. Campinas , São Paulo, Brasil : Sociedade Brasileira Ciencia do Solo .
  • Tseng , Y. , Fang , T. and Tseng , S. 2000 . Isolation and characterization of a novel phytase from Penicillium simplicissimum . Folia Microbiol. , 45 : 121 – 127 .
  • Turner , B. L. , Cade-Menun , B. J. and Westermann , D. T. 2003 . Organic phosphorus composition and potential bioavailability in semi-arid arable soils of the western United States . Soil Sci. Soc. Am. J. , 67 : 1168 – 1179 .
  • Turner , B. L. and Haygarth , P. 2005 . Phosphatase activity in temperate pasture soils: Potential regulation of labile organic phosphorus turnover by phosphodiesterase activity . Sci. Total Environ. , 344 : 27 – 36 .
  • Turner , B. L. , Mahieu , N. , Condron , L. M. and Chen , C. 2005 . Quantification and bioavailability of scyllo-inositol hexakisphosphate in pasture soils . Soil Biol. Biochem. , 37 : 2155 – 2158 .
  • Turner , B. L. , McKelvie , I. D. and Haygarth , P. M. 2002a . Characterisation of water-extractable soil organic phosphorus by phosphatase hydrolysis . Soil Biol. Biochem. , 34 : 27 – 35 .
  • Turner , B. L. , Paphazy , M. J. , Haygarth , P. M. and McKelvie , I. D. 2002b . Inositol phosphates in the environment . Philos. Trans. R. Soc., B , 357 : 449 – 469 .
  • Turner , B. L. and Richardson , A. E. 2004 . Identification of scyllo-inositol phosphates in soil by solution phosphorus-31 nuclear magnetic resonance spectroscopy . Soil Sci. Soc. Am. J. , 68 : 802 – 808 .
  • Tye , A. , Siu , F. , Leung , T. and Lim , B. 2002 . Molecular cloning and the biochemical characterization of two novel phytases from B. subtilis 168 and B. licheniformis . Appl. Microbiol. Biotechnol. , 59 : 190 – 197 .
  • Unno , Y. , Okubo , K. , Wasaki , J. , Shinano , T. and Osaki , M. 2005 . Plant growth promotion abilities and microscale bacterial dynamics in the rhizosphere of Lupin analysed by phytate utilization ability . Environ. Microbiol. , 7 : 396 – 404 .
  • Vats , P. and Banerjee , U. 2004 . Production studies and catalytic properties of phytases (myo-inositolhexakisphosphate phosphohydrolases): An overview . Enzyme Microb. Technol. , 35 : 3 – 14 .
  • Vats , P. , Bhattacharyya , M. S. and Banerjee , U. C. 2005 . Use of phytases (myo-inositolhexakisphosphate phosphohydrolases) for combatting environmental pollution: A biological approach . Crit. Rev. Environ. Sci. Technol. , 35 : 469 – 486 .
  • Wang , X. , Upatham , S. , Panbangred , W. , Isarangkul , D. , Summpunn , P. , Wiyakrutta , S. and Meevootisom , V. 2004 . Purification, characterization, gene cloning and sequence analysis of a phytase from Klebsiella pneumoniae subsp. pneumoniae XY-5 . ScienceAsia , 30 : 383 – 390 .
  • Wyss , M. , Brugger , R. , Kronenberger , A. , Remy , R. , Fimbel , R. , Oesterhelt , G. , Lehmann , M. and van Loon , A. 1999a . Biochemical characterization of fungal phytases (myo-inositol hexakisphosphate phosphohydrolases): Catalytic properties . Appl. Environ. Microbiol. , 65 : 367 – 373 .
  • Wyss , M. , Pasamontes , L. , Friedlein , A. , Remy , R. , Tessier , M. , Kronenberger , A. , Middendorf , A. , Lehmann , M. , Schnoebelen , L. and Rothlisberger , U. 1999b . Biophysical characterization of fungal phytases (myo-inositol hexakisphosphate phosphohydrolases): Molecular size, glycosylation pattern, and engineering of proteolytic resistance . Appl. Environ. Microbiol. , 65 : 359 – 366 .
  • Yadav , B. K. and Tarafdar , J. C. 2004 . Phytase activity in the rhizosphere of crops, trees and grasses under arid environment . J. Arid. Environ. , 58 : 285 – 293 .
  • Yanke , L. , Bae , H. , Selinger , L. and Cheng , K. 1998 . Phytase activity of anaerobic ruminal bacteria . Microbiology , 144 : 1565 – 1573 .
  • Yanke , L. , Selinger , L. and Cheng , K. 1999 . Phytase activity of Selenomonas ruminantium: a preliminary characterization . Lett. Appl. Microbiol. , 29 : 20 – 25 .
  • Yoon , S. , Choi , Y. , Min , H. , Cho , K. , Kim , J. , Lee , S. and Jung , Y. 1996 . Isolation and identification of phytase-producing bacterium, Enterobacter sp. 4, and enzymatic properties of phytase enzyme . Enzyme Microb. Technol. , 18 : 449 – 454 .
  • Zimmermann , P. , Zardi , G. , Lehmann , M. , Zeder , C. , Amrhein , N. , Frossard , E. and Bucher , M. 2003 . Engineering the root-soil interface via targeted expression of a synthetic phytase gene in trichoblasts . Plant Biotechnol. J. , 1 : 353 – 360 .
  • Zinin , N. , Serkina , A. , Gelfand , M. , Shevelev , A. and Sineoky , S. 2004 . Gene cloning, expression and characterization of novel phytase from Obesumbacterium proteus . FEMS Microbiol. Lett. , 236 : 283 – 290 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.