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Park Joonho,
Tran Hue T.,
Del Vecchio Hernan A.,
Ying Sheng,
Zins Jacqui L.,
Patel Ketan,
McKnight Thomas D., Plaxton William C.
Journal of Experimental Botany. 2012 63(18). p.6531
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Joh Toshio,
Malick Dia Habib,
Yazaki Junshi, Hayakawa Toshiro
Mycoscience. 1996 37(1). p.65
Evidence for a glycosylinositolphospholipid-anchored alkaline phosphatase in the aquatic plant Spirodela oligorrhiza
Morita N
Biochimica et Biophysica Acta (BBA) - General Subjects. 1996 1290(1). p.53
Multiple Forms of Orthophosphoric Monoester Posphohydrolase in Phosphate Starved Wolffia arrhiza
Jungnickel F., Völksch Beate
Biochemie und Physiologie der Pflanzen. 1979 174(1). p.44
Phosphate influx and extracellular phosphatase activity in barley roots and rose cells
LEE R. B.
New Phytologist. 1988 109(2). p.141
Crops As Enhancers of Nutrient Use (1990)
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Delgado M.,
Zúñiga-Feest A.,
Alvear M., Borie F.
Plant and Soil. 2013 373(1-2). p.765
Root Growth, Nutrient Uptake, and Nutrient-Use Efficiency by Roots of Tropical Legume Cover Crops as Influenced by Phosphorus Fertilization
Fageria N. K.,
Moreira A.,
Moraes L. A. C., Moraes M. F.
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McPharlin I. R., Bieleski R. L.
Physiologia Plantarum. 1989 76(1). p.95
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McCAIN S., DAVIES M. S.
New Phytologist. 1984 96(4). p.589
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GABBRIELLI R.,
GROSSI L., VERGNANO O.
New Phytologist. 1989 111(4). p.631
Plant Nutrition for Sustainable Food Production and Environment (1997)
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Williamson B., Alexander I.J.
Soil Biology and Biochemistry. 1975 7(3). p.195
Phosphorus nutrition and acid phosphatase activity in the leaves of seven plant species
Besford Robert T.
Journal of the Science of Food and Agriculture. 1979 30(3). p.281
Ultrastructural changes and altered localization of acid phosphatases in Monoraphidium and Stichococcus cells (Chlorophyceae) influenced by aluminum
Törnqvist Lilian
Environmental and Experimental Botany. 1989 29(4). p.457
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Shinano Takuro, Tadano Toshiaki
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Shane Michael W.,
Stigter Kyla,
Fedosejevs Eric T., Plaxton William C.
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The Apoplast of Higher Plants: Compartment of Storage, Transport and Reactions (2007)
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Appenroth Klaus J., Sree K. Sowjanya
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Acid phosphatase in the tubers of Dioscorea species and its purification from the white yam (D. rotundata poir)
Ikediobi Christopher O.,
Egwim Isaac C., Ikoku‐Ogbonna Aku
Journal of the Science of Food and Agriculture. 1988 43(1). p.27
Abiontic enzymes in arctic soils: Influence of predominant vegetation upon phosphomonoesterase and sulphatase activity
Neal John L.
Communications in Soil Science and Plant Analysis. 1982 13(10). p.863
Surface phosphatase activity of Sitka spruce mycorrhizas from a serpentine site
Alexander I.J., Hardy Kathleen
Soil Biology and Biochemistry. 1981 13(4). p.301
Special roles of inositol lipids in cell signaling and metabolic regulation
Thompson Guy A.
Progress in Lipid Research. 1994 33(1-2). p.129
Control of phosphatase activities of duckweed by senescence and phosphorus deficiency
Strother S.
Biologia Plantarum. 1984 26(4). p.309
Inorganic Plant Nutrition (1983)
Phosphorus Management in Crop Production (2017)
Effect of cycloheximide and renewal of phosphorus supply on surface acid phosphatase activity of phosphorus deficient tomato roots
Boutin Jean‐Pierre,
Provot Madeleine, Roux Louis
Physiologia Plantarum. 1981 51(4). p.353
ROOT EXUDATION IN RELATION TO SUPPLY OF PHOSPHORUS AND ITS POSSIBLE RELEVANCE TO MYCORRHIZAL FORMATION
RATNAYAKE M.,
LEONARD R. T., MENGE J. A.
New Phytologist. 1978 81(3). p.543
Comparative aspects of cycling of organic C, N, S and P through soil organic matter
McGill W.B., Cole C.V.
Geoderma. 1981 26(4). p.267
Annual Plant Reviews Volume 48 (2015)
Phosphatase and amylase activity of intact fern gametophytes
Smith D.L.
Zeitschrift für Pflanzenphysiologie. 1973 69(5). p.447
Root phosphatase activity of sorghum genotypes grown with organic and inorganic sources of phosphorus1
Furlani A. M. C.,
Clark R. B.,
Maranville J. W., Ross W. M.
Journal of Plant Nutrition. 1984 7(11). p.1583
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Physiology, Biochemistry and Molecular Biology of Plant Lipids (1997)
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Smyth Douglas A., Chevalier Peggy
Journal of Plant Nutrition. 1984 7(8). p.1221
Acid phosphatase activity in maize leaves as related to their evolution and phosphorus deficiency
Kummerová Marie
Biologia Plantarum. 1986 28(5). p.391
Advances in Agronomy Volume 43 (1990)
Effect of nitrogen and phosphorus status on the translocation of three herbicides in field bindweed (Convolvulus arvensis L.)
Shaw David R.,
Peeper Thomas F., Basler Eddie
Plant Growth Regulation. 1985 3(1). p.79
Combined effects of diffusional hindrances, electrostatic repulsion and product inhibition on the kinetic properties of a bound acid phosphatase
Thiébart-Fassy Isabelle, Hervagault Jean-François
FEBS Letters. 1993 334(1). p.89
Purification and properties of acid phosphatase from cultured tobacco cells
Shinshi Hideaki, Katō Kunio
Phytochemistry. 1979 18(2). p.243
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Wasaki Jun,
Kojima Soichi,
Maruyama Hayato,
Haase Susan,
Osaki Mitsuru, Kandeler Ellen
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Plant Roots and their Environment (1991)
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Dinkelaker B., Marschner H.
Plant and Soil. 1992 144(2). p.199
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Journal of Plant Nutrition. 1987 10(3). p.287
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Gheyi H. R.,
Carvalho M. C. S., Moreira A.
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Hirata Hiroshi,
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Comparison of the effects of phosphate fertilizer on the yield, phosphate content and quality of 22 different vegetable and agricultural crops
Greenwood D. J.,
Cleaver T. J.,
Turner Mary K.,
Hunt J.,
Niendorf K. B., Loquens S. M. H.
The Journal of Agricultural Science. 1980 95(2). p.457
