Environmental Engineering Reference
In-Depth Information
Mortvedt JJ, Beaton JD (1995) Heavy metal and radio-
nucleide contaminants in phosphate fertilizers, scope
54, phosphorus in the global environment—transfers,
cycles and Management. Wiley, London, 480 pp
Mullaney EJ, Daly CB, Sethumadhavan K, Rodriquez
E, Gen Lei X, Ullah AHJ (2000) Phytase activity in
Aspergillus fumigatus
isolates. Biochem Biophys Res
Commun 275:759-763
Nakamura Y, Fukuhara H, Sano K (2000) Secreted phy-
tase activities of yeasts. Biosci Biotechnol Biochem
64:841-844
National Research Council (NRC) (2001) Nutrient
Requirements of Dairy Cattle. 7th rev. ed. Nat. Acad.
Press, Washington, DC
National Research Council (NRC) (1993) Nutrient
requirements of fish. National Academy Press, Wash-
ington, DC, 114 pp
Nayini NR, Markakis P (1984) The phytase of yeast. Leb-
ensm Wiss Technol 17:24-26
Olstorpe M, Schnrer J, Passoth V (2009) Screening of
yeast strains for phytase activity. FEMS Yeast Res
9:478-488
Oryschak MA, Simmins PH, Zijlstra RT (2002) Effect of
dietary particle size and carbohydrase and/or phytase
supplementation on nitrogen and phosphorus excre-
tion of grower pigs. Can J Anim Sci 82:533-540
Paik IK (2001) Management and excretion of phosphorus,
nitrogen and pharmaceutical level minerals to reduce
environmental pollution from animal production: a
review. Asian Aust J Anim Sci 14(3):384-394
Paik IK (2003) Application of phytase, microbial or plant
origin, to reduce phosphorus excretion in poultry pro-
duction. Asian Aust J Anim Sci 16:124-135
Paik IK, Um JS, Lee SJ, Lee JG (2000) Evaluation of the
efficacy of crude phytase preparations in broiler chick-
ens. Asian Aust J Anim Sci 13:673-680
Pandey A, Szakacs G, Soccol CR, Rodriguez-Leon
JA, Soccol VT (2001) Production, purification and
properties of microbial phytases. Bioresour Technol
77:203-214
Peng YL, Guo YM, Yuan JM (2003) Effects of microbial
phytase replacing partial inorganic phosphorus sup-
plementation and xylanase on the growth performance
and nutrient digestibility in broilers fed wheat-based
diets. Asian Aust J Anim Sci 16:239-247
Powar VK, Jagannathan V (1982) Purification and prop-
erties of phytate specific phosphatase from
Bacillus
subtilis
. J Bacteriol 115:1102-1108
Powers W, Angel R (2008) A review of the capacity for
nutritional strategies to address environmental chal-
lenges in poultry production. Poult Sci 87:1929-938
Raghavendra P, Halami PM (2009) Screening, selection
and characterization of phytic acid degrading lactic
acid bacteria from chicken intestine. Int J Food Micro-
biol 133:129-134
Ragon M, Neugnot-Roux V, Chemardin P, Moulin G,
Boze H (2008) Molecular gene cloning and overex-
pression of the phytase from
Debaryomyces castellii
CBS 2923. Protein Expr Purif 58:275-283
Kim Y, Kim H, Bae K, Yu J, Oh T (1998) Purification and
properties of a thermostable phytase from
Bacillus sp
.
DS11. Enzyme Microb Technol 22:2-7
Kumar V, Singh P, Jorquera M, Sangwan P, Kumar P,
Verma AK, Agrawal S (2013) Isolation of phytase-
producing bacteria from Himalayan soils and their
effect on growth and phosphorus uptake of Indian
mustard (
Brassica juncea
). World J Microbiol Bio-
technol 29:1361-1369
Kumar V, Sangwan P, Verma AK, Agrawal S (2014)
Molecular and biochemical characteristics of recom-
binant ʲ-propeller Phytase from
Bacillus licheniformis
strain PB-13 with potential application in aquafeed.
Appl Biochem Biotechnol 173(2):646-659
Lata S, Rastogi S, Kapoor A, Imran M (2013) Optimiza-
tion of culture conditions for the production of phytase
from
Aspergillus heteromorphus
MTCC 10685. Int J
Adv Biotechnol Res 4:224-235
Lei XG, Porres JM (2003) Phytase enzymology,
applications, and biotechnology. Biotechnol Lett
25:1787-1794
Lei X, Ku PK, Miller ER, Ullrey DE, Yokoyama MT
(1993) Supplemental microbial phytase improves bio-
availability of dietary zinc to weanling pigs. J Nutr
123:1117-1123
Li X, Chi Z, Liu Z, Yan K, Li H (2008) Phytase produc-
tion by a marine yeast
Kodamea ohmeri
BG3. Appl
Biochem Biotechnol 149:183-193
Li X, Liu Z, Chi Z, Li J, Wang X (2009) Molecular clon-
ing, characterization and expression of the phytase
gene from marine yeast
Kodamaea ohmeri
BG3.
Mycol Res 113:24-36
Li R-J, Lu W-J, Guo C-J, Li X-J, Gu J-T, Xiao K (2012)
Molecular characterization and functional analysis
of OsPHY1, a purple acid phosphatase (PAP)-type
phytase gene in rice (
Oryza sativa
L.). J Integr Agric
11:1217-1226
Liu N, Ru Y, Wang J, Xu T (2010) Effect of dietary
sodium phytate and microbial phytase on the lipase
activity and lipid metabolism of broiler chickens. Br
J Nutr 103:862-868
Lopez H, Leenhardt F, Coudray C, Remesy C (2002)
Minerals and phytic acid interactions: is it a real
problem for human nutrition? Int J Food Sci Technol
37:727-739
Magette W, Carton O (1996) Agricultural pollution. In:
Kiely G (ed) Environmental engineering. McGraw-
Hill, Berkshire, pp. 420-434
Mallin MA, Cahoon LB (2003) Industrialized Animal
production—a major source of nutrient and micro-
bial pollution to aquatic ecosystems. Popul Environ
24:369-385
McCollum EV, Hart EB (1908) On the occurrence of a
phytin-splitting enzyme in animal tissues. J Biol Chem
4:497-500
Mitchell DB, Vogel K, Weimann BJ, Pasamontes L, van
Loon AP (1997) The phytase subfamily of histidine
acid phosphatases: isolation of genes for two novel
phytases from the fungi
Aspergillus terreus
and
Myce-
liophthora thermophila
. Microbiology 143:245-252
Search WWH ::
Custom Search