| scholarly article | Q13442814 |
| P2093 | author name string | Ping Wu | |
| Guohua Xu | |||
| Huixia Shou | |||
| Xinming Lian | |||
| P433 | issue | 2 | |
| P304 | page(s) | 205-212 | |
| P577 | publication date | 2013-04-06 | |
| P1433 | published in | Current Opinion in Plant Biology | Q15756095 |
| P1476 | title | Improvement of phosphorus efficiency in rice on the basis of understanding phosphate signaling and homeostasis | |
| P478 | volume | 16 |
| Q38543071 | A new insight into root responses to external cues: Paradigm shift in nutrient sensing |
| Q42082594 | A novel Brassica-rhizotron system to unravel the dynamic changes in root system architecture of oilseed rape under phosphorus deficiency |
| Q51737104 | Abscisic acid is involved in root cell wall phosphorus remobilization independent of nitric oxide and ethylene in rice (Oryza sativa). |
| Q88248637 | An SPX-RLI1 Module Regulates Leaf Inclination in Response to Phosphate Availability in Rice |
| Q40299228 | Arabidopsis PHL2 and PHR1 Act Redundantly as the Key Components of the Central Regulatory System Controlling Transcriptional Responses to Phosphate Starvation |
| Q50062775 | Association of extracellular dNTP utilization with a GmPAP1-like protein identified in cell wall proteomic analysis of soybean roots |
| Q41170620 | Bioinformatic and empirical analysis of a gene encoding serine/threonine protein kinase regulated in response to chemical and biological fertilizers in two maize (Zea mays L.) cultivars |
| Q64970021 | Carbon Dioxide Improves Phosphorus Nutrition by Facilitating the Remobilization of Phosphorus From the Shoot Cell Wall in Rice (Oryza sativa). |
| Q37635487 | Characterization of purple acid phosphatases involved in extracellular dNTP utilization in Stylosanthes |
| Q47250706 | Characterization of the rice NLA family reveals a key role for OsNLA1 in phosphate homeostasis |
| Q34378475 | Comparative characterization of GmSPX members reveals that GmSPX3 is involved in phosphate homeostasis in soybean |
| Q26771686 | Complex Regulation of Plant Phosphate Transporters and the Gap between Molecular Mechanisms and Practical Application: What Is Missing? |
| Q36864235 | Deciphering Phosphate Deficiency-Mediated Temporal Effects on Different Root Traits in Rice Grown in a Modified Hydroponic System |
| Q47875223 | Disruption of OsSULTR3;3 reduces phytate and phosphorus concentrations and alters the metabolite profile in rice grains |
| Q37314348 | Diversity in the complexity of phosphate starvation transcriptomes among rice cultivars based on RNA-Seq profiles |
| Q90446891 | Early Transcriptomic Response to Phosphate Deprivation in Soybean Leaves as Revealed by RNA-Sequencing |
| Q64095888 | Editing of the OsACS locus alters phosphate deficiency-induced adaptive responses in rice seedlings |
| Q39363691 | Engineering crop nutrient efficiency for sustainable agriculture |
| Q26784195 | Engineering food crops to grow in harsh environments |
| Q41632346 | Ethylene is involved in root phosphorus remobilization in rice (Oryza sativa) by regulating cell-wall pectin and enhancing phosphate translocation to shoots |
| Q64065043 | Exploring the adaptive mechanism of Passiflora edulis in karst areas via an integrative analysis of nutrient elements and transcriptional profiles |
| Q54408582 | Expression of four phosphate transporter genes from Finger millet (Eleusine coracana L.) in response to mycorrhizal colonization and Pi stress. |
| Q58691912 | Genetic enhancement of phosphorus starvation tolerance through marker assisted introgression of OsPSTOL1 gene in rice genotypes harbouring bacterial blight and blast resistance |
| Q51010856 | Genetic manipulation of a high-affinity PHR1 target cis-element to improve phosphorous uptake in Oryza sativa L. |
| Q37604128 | Genome-Wide Identification and Characterization of SPX Domain-Containing Members and Their Responses to Phosphate Deficiency in Brassica napus |
| Q49356594 | Genome-wide identification and comparative analysis of phosphate starvation-responsive transcription factors in maize and three other gramineous plants |
| Q33557706 | Genome-wide investigation and expression analysis suggest diverse roles and genetic redundancy of Pht1 family genes in response to Pi deficiency in tomato |
| Q46290672 | GmPHR25, a GmPHR member up-regulated by phosphate starvation, controls phosphate homeostasis in soybean |
| Q33364038 | Identification and expression analysis of OsLPR family revealed the potential roles of OsLPR3 and 5 in maintaining phosphate homeostasis in rice |
| Q46872989 | Identification of microRNAs in six solanaceous plants and their potential link with phosphate and mycorrhizal signaling |
| Q48071573 | In memory of Professor Ping Wu (1957-2014). |
| Q38298240 | Integrative Comparison of the Role of the PHOSPHATE RESPONSE1 Subfamily in Phosphate Signaling and Homeostasis in Rice. |
| Q30382619 | Knock out of the PHOSPHATE 2 Gene TaPHO2-A1 Improves Phosphorus Uptake and Grain Yield under Low Phosphorus Conditions in Common Wheat. |
| Q38179093 | Meta-analysis and candidate gene mining of low-phosphorus tolerance in maize |
| Q37113493 | Molecular Evolution and Association of Natural Variation in ZmARF31 with Low Phosphorus Tolerance in Maize |
| Q55086298 | Molecular Mechanisms of Acclimatization to Phosphorus Starvation and Recovery Underlying Full-Length Transcriptome Profiling in Barley (Hordeum vulgare L.). |
| Q38530654 | NPKS uptake, sensing, and signaling and miRNAs in plant nutrient stress |
| Q89475254 | Nitric oxide acts upstream of ethylene in cell wall phosphorus reutilization in phosphorus-deficient rice |
| Q41584860 | Nitric oxide induces the alternative oxidase pathway in Arabidopsis seedlings deprived of inorganic phosphate |
| Q43351492 | Nutrient removal by Chlorella vulgaris F1068 under cetyltrimethyl ammonium bromide induced hormesis |
| Q48241424 | OsHAD1, a Haloacid Dehalogenase-Like APase, Enhances Phosphate Accumulation |
| Q51126229 | OsNLA1, a RING-type ubiquitin ligase, maintains phosphate homeostasis in Oryza sativa via degradation of phosphate transporters. |
| Q51644201 | OsPAP10c, a novel secreted acid phosphatase in rice, plays an important role in the utilization of external organic phosphorus. |
| Q58605284 | OsPHR3 affects the traits governing nitrogen homeostasis in rice |
| Q49168941 | OsPT4 Contributes to Arsenate Uptake and Transport in Rice. |
| Q53261587 | OsSIZ1, a SUMO E3 Ligase Gene, is Involved in the Regulation of the Responses to Phosphate and Nitrogen in Rice. |
| Q42363716 | OsSIZ2 exerts regulatory influences on the developmental responses and phosphate homeostasis in rice |
| Q51003244 | Overexpression of the nitrate transporter, OsNRT2.3b, improves rice phosphorus uptake and translocation. |
| Q87574029 | Oxygen deficit alleviates phosphate overaccumulation toxicity in OsPHR2 overexpression plants |
| Q51308727 | Phosphate starvation induced OsPHR4 mediates Pi-signaling and homeostasis in rice. |
| Q90170643 | Phosphorus (P) use efficiency in rice is linked to tissue-specific biomass and P allocation patterns |
| Q37598063 | Phosphorus remobilization from rice flag leaves during grain filling: an RNA-seq study. |
| Q47558309 | Regulatory feedback response mechanisms to phosphate starvation in rice. |
| Q40480543 | Rice SPX-Major Facility Superfamily3, a Vacuolar Phosphate Efflux Transporter, Is Involved in Maintaining Phosphate Homeostasis in Rice. |
| Q48158685 | Rice nucleosome patterns undergo remodeling coincident with stress-induced gene expression. |
| Q92424244 | Root plasticity and Pi recycling within plants contribute to low-P tolerance in Tibetan wild barley |
| Q26801707 | SPX proteins regulate Pi homeostasis and signaling in different subcellular level |
| Q34383930 | SPX1 is a phosphate-dependent inhibitor of Phosphate Starvation Response 1 in Arabidopsis |
| Q87587335 | SPX4 Negatively Regulates Phosphate Signaling and Homeostasis through Its Interaction with PHR2 in Rice |
| Q35046447 | Spatio-temporal transcript profiling of rice roots and shoots in response to phosphate starvation and recovery |
| Q54985667 | The Soybean Purple Acid Phosphatase GmPAP14 Predominantly Enhances External Phytate Utilization in Plants. |
| Q38668203 | The knowns and unknowns of phosphorus loading into grains, and implications for phosphorus efficiency in cropping systems. |
| Q53289384 | The metabolic flux phenotype of heterotrophic Arabidopsis cells reveals a flexible balance between the cytosolic and plastidic contributions to carbohydrate oxidation in response to phosphate limitation. |
| Q37584774 | The paralogous SPX3 and SPX5 genes redundantly modulate Pi homeostasis in rice |
| Q43882532 | Trait-directed de novo population transcriptome dissects genetic regulation of a balanced polymorphism in phosphorus nutrition/arsenate tolerance in a wild grass, Holcus lanatus |
| Q58744372 | Transcriptional response of rice flag leaves to restricted external phosphorus supply during grain filling in rice cv. IR64 |
| Q38756591 | Transporters involved in mineral nutrient uptake in rice |
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