5. Références bibliographiques :


1 - Analysis of myo-inositol hexakisphosphate hydrolysis by Bacillus phytase :Indication of a novel reaction mechanism ; J. Kerovuo, J. Rouvinen, F. Hatzack. Biochem. J. (2000), 352, 623-628.

2 - Dephosphorylation of phytate by Using the Aspergillus niger Phytase with a High Affinity for Phytate ; T. Nagashima, T. Tange, H. Anazawa. App. Env. Microbiol. Oct. (1999), 4682- 4684.

3 - Inositol phosphates from barley low-phytate grain mutants analysed by metal-dye detection HPLC and NMR; F. Hatzack, F. Hübel, W. Zhang, P. Hansen, S. Rasmussen. Biochemistry (2001), 354, 473-480.

4 - Biochemstry ; Stryer, 4 th Ed. 344.

5 - Molecular cloning and espression of a rat hepatic multiple inositol polyphosphate phosphatase; A. Craxton, J. Caffrey, W. Burkhart, S. Safrany, S. Shears. Biochemistry (1997), 328, 75-81.

6 - The phytase subfamily of histidine acid phosphatases: isolation of genes for two novel phytases from the fungi Aspergillus terreus and Myceliophora thermophila; B. Mitchell, K. Vogel, L. Pasamontes, Microbiology (1997), 143, 245-252.

7 - The Metal Dependance of Bacillus subtilis Phytase; J. Kerovuo, I. Lappalainen, T. Reinikainen. Biochemical and Biophysical Research Communications. (2000), 268, 365- 369.

8 - Crystal structure of phytase from Aspergillus ficuum at 2.5 A resolution; D. Kostrewa, F. Grüninger-Leitch, A. D’Arcy, A. M. van Loon. Nature structural biology,March(1997), 4, 185-190.

9 - Crystal structure of Escherichia coli phytase and its complex with phytate; D. Lim, S. Golovan, C. Forsberg, Z. Jia. Nature structural biology, Feb(2000),7, 108-113.

10 - Crystal Structure of Aspergillus niger pH 2.5 Acid phosphatase at 2.4 A Resolution; D. Kostrewa, M. Wyss, A. D’Arcy. Journal Molecular Biology, (1999), 288, 965-974.

11 - Active site residue 297 of Aspergillus niger phytase critically affects the catalytic properties; A. Tomschy, M. Wyss, D. Kostrewa, K. Vogel, L. Pasamontes. FEBS Letters (2000),472, 169-172.

12 - Molecular Characterization and Expression of a Phytase Gene from the Thermophilic Fungus Thermomyces lanuginosus; R. Berka, M. Rey, K. Brown, A. Klotz. Applied and Environmental Microbiology,Nov(1998),4423-4427.

13 - Phytase activity of anaerobic rumial bacteria; L. Yanke, H. Bae, L. Selinger, J. Cheng. Microbiology (1998), 144, 1565-1573.

14 - Biochemical Characterization of Cloned Aspergillus fumigatus Phytase(phyA); J. Ullah, K. Sethumadhavan, E. Mullaney. Biochemical and Biophysical Research Communications (2000),275, 279-285.

15 - Gene Cloning, Purification, and Characterization of a Heat-Stable Phytase from the Fungus Aspergillus fumigatus;L. Pasamontes, Monika Haiker, M. Wyss, M. Tessier, A. van Loon. Applied and Environmental Microbiology, May(1997), 1696-1700.

16 - Phytase Activity in Aspergillus fumigatus Isolates; A. Ullah, K. Sethumadhavan, X. Lei, E. Mullaney, C. Daly. Biochemical and Biophysical Research Communications (2000),275, 759-763.

17 - Biochemical Characterization of Fungal Phytases (myo- Inositol Hexakisphosphate Phosphohydrolases): Catalytic Properties; M. Wyss, R. Brugger, A. Kronenberger, R. Remy, Lehmann. Applied and Environmental Microbioly, Feb(1999), 367-373.

18 - Biophysical Characterization of Fungal pyhatses ( myo-Inositol Hexakisphopshate Phosphohydrolases): Molecular size, Glycosylation Pattern, and Engineering of Proteolytic Resistance; M. Wyss, R. Brugger, A. Kronenberger, R. Remy, M. Lehmann. Applied and Environmental Microbioly, Feb(1999), 359-366.

19 - Cloning and characterization of a cDNA encoding a maize seedling phytase; S. Maugenest, Martinez, A. Lescure. Biochemistry (1997) 322, 511-517.

20 - Isolation, Characterization, Molecular gene Cloning, and Sequencing of a Novel phytase from Bacillus subtilis; j. Kerovuo, M. Lauraeus, P. Nurminen, N. Kalkkinen, J. Apajalahti. Applied and Environmental Microbioly, Jun(1998), 2079-2085.

21 - Preliminary X-ray crystallographic analysis of a novel phytase from a Bacillus amyloliquefaciens; N. Ha, Y. Kim, T. Oh, B, Oh. Acta Crystallography, (1999) D55,, 691- 693.

22 - Crystal structures of a novel, thermostable phytase in partially an fully calcium-loaded states; N. Ha, B. Oh, S. Shin, H. Kim, T. Oh, Y. Kim, K. Choi, B. Oh. Nature structural biology, Feb(2000), 7, 147-153.

23 - A high Oat-Bran intake does not impair Zinc absorption in Humans when added to a low-fiber Animal protein-based diet;B. Sandström, S. Bügel, B. McGaw, J. Price, M. Reid. American Society for Nutritional Sciences, Sept(1999), 594-599.

24 - From DNA sequence to improved functionality: using protein sequence comparaisons to rapidly design a thermostableconsensus phytase. M. Lhemann, A. D’Arcy, L. Pasamontes, A. van Loon. Protein Engineering, (2000), 13, 49-57.

25 - The consensus concept for thermostability engineering of proteins. M. Lehmann, L. Pasamontes, S. Lassen, M. Wyss. Biochimica et Biophysica Acta, (2000), 1543, 408-415.

26 - Expression of an Aspergillus niger Phytase Gene (phyA) in Saccharomyces cerevisiae; Y. Han, D. Wilson, X. Lei;Applied and Environmental Microbiology, May(1999), 1915-1918.

27 - Comparison of the Thermostability Properties of Three Acid Phosphatases from Molds: Aspergillus fumigatus Phytase, A. niger phytase, and A. niger pH 2.5 acid phosphatase. M. Wyss, L. Pasamontes, R. Rémy, J. Kohler, E. Kusznir, M. Gadient, F. Muller, A. van Loon. Applied and Environmental Microbiology, Nov(1998), 4446-4451.

28 - Site-directed Mutagenesis improves catalytic efficiency and Thermostability of Escherichia coli pH 2.5 Acid Phosphatase/Phytase Expressed in Pichia pastoris; E. Rodriguez, Z. Wood, Karplus, X. Gen Lei. Archives of Biochemistry and Biophysics, Oct(2000), 382,105-112.

29 - Transgenic mice expressing bacterial phytase as a model for phosphorous pollution control; S. Golovan, M. Hayes, J. Phillips, C. Forsberg. Nature biotechnology, May(2001), 19, 429-432.

30 - Extracellular secretion of Aspergillus phytase from Arabidopsis roots enables plants to obtain phosphorus from phytate; A. Richardson, P. Hadobas, J. Hayes. The plant journal, (2001), 25(6), 641-649.

31 - 1 a-Hydroxycholecalciferol Does not Increase the Specific Activity of Intestinal Phytase but Does Improve Phosphorus Utilization in Both Cecectomized and Sham-Operated Chicks Fed Cholecalciferol-Adequate Diets; R. Biehl, D. Baker. American Society for Nutritional Sciences, May(1997), 2054-2059.