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Overexpression of phyA and appA genes improves soil organic phosphorus utilisation and seed phytase activity in Brassica napusPhosphate Uptake and Allocation - A Closer Look at Arabidopsis thaliana L. and Oryza sativa LFrom the Lab to the Farm: An Industrial Perspective of Plant Beneficial MicroorganismsRoot adaptations to soils with low fertility and aluminium toxicityFungal association and utilization of phosphate by plants: success, limitations, and future prospectsThe Calcium Sensor CBL-CIPK Is Involved in Plant's Response to Abiotic StressesA dual role of strigolactones in phosphate acquisition and utilization in plantsReplace, reuse, recycle: improving the sustainable use of phosphorus by plantsMolecular control of acid phosphatase secretion into the rhizosphere of proteoid roots from phosphorus-stressed white lupinInduction of a major leaf acid phosphatase does not confer adaptation to low phosphorus availability in common beanDifferent pathways are involved in phosphate and iron stress-induced alterations of root epidermal cell developmentAttenuation of phosphate starvation responses by phosphite in ArabidopsisSoil chemical property changes in eggplant/garlic relay intercropping systems under continuous croppingRole of root microbiota in plant productivityCorrelations between Polyacetylene Concentrations in Carrot (Daucus carota L.) and Various Soil ParametersDissecting nutrient-related co-expression networks in phosphate starved poplarsPsr1, a nuclear localized protein that regulates phosphorus metabolism in Chlamydomonas.Context-dependent effects of nutrient loading on the coral-algal mutualism.The impact of elevated carbon dioxide on the phosphorus nutrition of plants: a reviewIsolation and characterization of root-specific phosphate transporter promoters from Medicago trunatula.Signal transduction-related responses to phytohormones and environmental challenges in sugarcanePhosphate starvation induces a determinate developmental program in the roots of Arabidopsis thaliana.Global expression pattern comparison between low phosphorus insensitive 4 and WT Arabidopsis reveals an important role of reactive oxygen species and jasmonic acid in the root tip response to phosphate starvation.HPS4/SABRE regulates plant responses to phosphate starvation through antagonistic interaction with ethylene signalling.WRKY6 restricts Piriformospora indica-stimulated and phosphate-induced root development in Arabidopsis.A novel role for the root cap in phosphate uptake and homeostasis.Genome-wide investigation and expression analysis suggest diverse roles and genetic redundancy of Pht1 family genes in response to Pi deficiency in tomatoPhosphate (Pi) and arsenate uptake by two wheat (Triticum aestivum) cultivars and their doubled haploid lines.Proteins for transport of water and mineral nutrients across the membranes of plant cells.Identification of extracellular glycerophosphodiesterases in Pseudomonas and their role in soil organic phosphorus remineralisationA second dimension to the leaf economics spectrum predicts edaphic habitat association in a tropical forestPhytate degradation by fungi and bacteria that inhabit sawdust and coffee residue composts.Quantitative trait loci affecting seed mineral concentrations in Brassica napus grown with contrasting phosphorus supplies.Molecular cloning, characterization and expression analysis of two members of the Pht1 family of phosphate transporters in Glycine max.A versatile monosaccharide transporter that operates in the arbuscular mycorrhizal fungus Glomus sp is crucial for the symbiotic relationship with plants.The effects of fluctuations in the nutrient supply on the expression of five members of the AGL17 clade of MADS-box genes in rice.Rice phosphate transporters include an evolutionarily divergent gene specifically activated in arbuscular mycorrhizal symbiosis.The response and recovery of the Arabidopsis thaliana transcriptome to phosphate starvation.The use of microelectrodes to investigate compartmentation and the transport of metabolized inorganic ions in plants.Genome-based approaches to understanding phosphorus deprivation responses and PSR1 control in Chlamydomonas reinhardtii.
P2860
Q21089795-F1C29E9A-BDA9-44EC-B78E-797433E3A1D1Q26738313-508E2ADE-9045-4C90-AAD3-F0DC44A8AD33Q26740325-4EEA8D67-DDD3-496E-BCB4-A64C0536B600Q26743871-C85E7AB2-4BC1-4DC9-8ED0-CB5FED43E452Q26777224-3F550E0D-8E67-4D09-875B-D14D110930FBQ26780149-E8EDBF6F-E92A-48DD-974E-1650C0E24E05Q26852983-5D1EF1AB-0D3F-43B7-87AD-C1A230AC4AA4Q26859282-D0AA8168-5F7F-4AD1-8994-99F89AFBB634Q28361421-1CB7F4D8-37DC-4957-A841-36BA078EFA0EQ28362435-F91C6633-EBBB-4047-82DC-7138EE632F88Q28362470-D0B05D29-DC00-4439-B584-02B37E6ECFACQ28363879-ADEA6027-645C-40B8-BE70-41439FA9A8C3Q28544079-9C2A53D5-C839-431A-8134-749E83EBE062Q28597782-24948ED0-3AF4-4631-A81E-3E71BCB78586Q28817006-9A4E9EEF-A8CB-4769-B57E-DC9D81F31932Q30378484-257CE72F-5209-4702-A174-FD102A501599Q30829133-E22CAA53-7135-41E6-A987-8B27B4C8D687Q30845363-76F35B92-ABF9-4239-9323-DBD4CC09FBC3Q30976862-6C152CE6-89E5-445B-8B37-C4FFCF882413Q33254408-0A39A019-B1DD-459A-A140-05EAACE85F2DQ33278150-65529096-4F0B-4797-9B48-A25ACBC498CDQ33340801-C0AE33F8-B339-4D59-A683-BB7699CBA92FQ33350737-FA9D0D4A-82E5-4EEB-8184-D220E1480AE7Q33353589-BB8D2DF4-2D97-448E-9387-D1A58C7E847CQ33362209-DA4E56E4-106C-4377-ACD3-AC26F7EB2DAFQ33362905-5BBD1693-04AD-442B-8BCF-21612B1F50B9Q33557706-036B8369-16FC-48D3-9166-5CC24A5578C6Q33579029-A2E6B177-6B75-4A0D-B72B-3A792DD674C4Q33600198-C7583A68-8E18-478A-AB02-D2900DBB0A1EQ33708487-F81230C4-7EE7-4C99-80DF-ADAAEB4A33DEQ33722153-3CB96AA7-9805-408C-AEF8-6CEBC4B03EA8Q33805695-906B5816-8032-4D67-A804-771A97B84E0BQ33918806-1DD4077A-A333-4CFF-8E1A-42461083BA59Q33941288-95ADE34E-E00B-4D8E-9EBD-374E1B64C7DAQ34040208-C2398ECB-AC7D-43A4-86E0-2B456EDC4649Q34070961-8C0281CE-7F81-433D-9748-5FAA9F92D9BEQ34192745-DC0B2928-2FD4-46A0-98CD-91D333061FB0Q34254762-695107F3-FEBB-4FB4-A63A-9F47983E810DQ34261673-DB77578E-4CC6-41C2-B52E-E6A42FC1D205Q34333947-D35B88C9-561A-4159-994A-C442BF7A3FD0
P2860
description
1998 nî lūn-bûn
@nan
1998 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Phosphorus Uptake by Plants: From Soil to Cell
@ast
Phosphorus Uptake by Plants: From Soil to Cell
@en
Phosphorus Uptake by Plants: From Soil to Cell
@nl
type
label
Phosphorus Uptake by Plants: From Soil to Cell
@ast
Phosphorus Uptake by Plants: From Soil to Cell
@en
Phosphorus Uptake by Plants: From Soil to Cell
@nl
prefLabel
Phosphorus Uptake by Plants: From Soil to Cell
@ast
Phosphorus Uptake by Plants: From Soil to Cell
@en
Phosphorus Uptake by Plants: From Soil to Cell
@nl
P2093
P356
P1433
P1476
Phosphorus Uptake by Plants: From Soil to Cell
@en
P2093
P304
P356
10.1104/PP.116.2.447
P407
P577
1998-02-01T00:00:00Z