scholarly article | Q13442814 |
P356 | DOI | 10.1093/JXB/ERX292 |
P8608 | Fatcat ID | release_sw75ls3gzrf3leyttso6pxcrj4 |
P932 | PMC publication ID | 5853305 |
P698 | PubMed publication ID | 28992334 |
P2093 | author name string | Jiang Tian | |
Hong Liao | |||
Sheng-Nan Zhu | |||
Ying-Bin Xue | |||
Bi-Xian Xiao | |||
Cui-Yue Liang | |||
Xiao-Hui Mo | |||
P2860 | cites work | Genome sequence of the palaeopolyploid soybean | Q22122200 |
MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) Software Version 4.0 | Q26778434 | ||
SPX proteins regulate Pi homeostasis and signaling in different subcellular level | Q26801707 | ||
RNA-Seq Atlas of Glycine max: a guide to the soybean transcriptome | Q28743618 | ||
The story of phosphorus: Global food security and food for thought | Q29302951 | ||
Psr1, a nuclear localized protein that regulates phosphorus metabolism in Chlamydomonas | Q30829133 | ||
A central regulatory system largely controls transcriptional activation and repression responses to phosphate starvation in Arabidopsis. | Q33691476 | ||
A soybean β-expansin gene GmEXPB2 intrinsically involved in root system architecture responses to abiotic stresses | Q33801535 | ||
Genetic regulation by NLA and microRNA827 for maintaining nitrate-dependent phosphate homeostasis in arabidopsis | Q33859507 | ||
Artificial selection for determinate growth habit in soybean | Q33928320 | ||
Molecular cloning, characterization and expression analysis of two members of the Pht1 family of phosphate transporters in Glycine max. | Q33941288 | ||
Functional conservation and divergence of GmCHLI genes in polyploid soybean. | Q50495828 | ||
Phosphate starvation induced OsPHR4 mediates Pi-signaling and homeostasis in rice. | Q51308727 | ||
The purple acid phosphatase GmPAP21 enhances internal phosphorus utilization and possibly plays a role in symbiosis with rhizobia in soybean. | Q51373502 | ||
NITROGEN LIMITATION ADAPTATION recruits PHOSPHATE2 to target the phosphate transporter PT2 for degradation during the regulation of Arabidopsis phosphate homeostasis. | Q53298148 | ||
PHO2, microRNA399, and PHR1 define a phosphate-signaling pathway in plants. | Q53624117 | ||
Phosphorus acquisition and use: critical adaptations by plants for securing a nonrenewable resource | Q56069079 | ||
Peak Phosphorus | Q57073536 | ||
PHO2-dependent degradation of PHO1 modulates phosphate homeostasis in Arabidopsis | Q63641819 | ||
OsPHR2 is involved in phosphate-starvation signaling and excessive phosphate accumulation in shoots of plants | Q80670128 | ||
Increased expression of the MYB-related transcription factor, PHR1, leads to enhanced phosphate uptake in Arabidopsis thaliana | Q81419724 | ||
Essential role of MYB transcription factor: PvPHR1 and microRNA: PvmiR399 in phosphorus-deficiency signalling in common bean roots | Q81930473 | ||
Phosphorus and aluminum interactions in soybean in relation to aluminum tolerance. Exudation of specific organic acids from different regions of the intact root system | Q83221847 | ||
Synergistic interactions between Glomus mosseae and Bradyrhizobium japonicum in enhancing proton release from nodules and hyphae | Q83868806 | ||
SPX4 Negatively Regulates Phosphate Signaling and Homeostasis through Its Interaction with PHR2 in Rice | Q87587335 | ||
A conserved MYB transcription factor involved in phosphate starvation signaling both in vascular plants and in unicellular algae | Q34087322 | ||
PHOSPHATE ACQUISITION. | Q34304435 | ||
Comparative characterization of GmSPX members reveals that GmSPX3 is involved in phosphate homeostasis in soybean | Q34378475 | ||
Rice SPX1 and SPX2 inhibit phosphate starvation responses through interacting with PHR2 in a phosphate-dependent manner | Q34383710 | ||
SPX1 is a phosphate-dependent inhibitor of Phosphate Starvation Response 1 in Arabidopsis | Q34383930 | ||
Brassica napus PHR1 gene encoding a MYB-like protein functions in response to phosphate starvation | Q34406067 | ||
Functional characterization of 14 Pht1 family genes in yeast and their expressions in response to nutrient starvation in soybean | Q34469182 | ||
The pattern of Phosphate transporter 1 genes evolutionary divergence in Glycine max L | Q34627674 | ||
Identification of soybean purple acid phosphatase genes and their expression responses to phosphorus availability and symbiosis | Q35620706 | ||
Coexpression Network Analysis of Macronutrient Deficiency Response Genes in Rice | Q35883648 | ||
Genome-wide analysis of MATE transporters and expression patterns of a subgroup of MATE genes in response to aluminum toxicity in soybean | Q35954403 | ||
Paleopolyploidy and gene duplication in soybean and other legumes | Q36386653 | ||
A phosphate starvation response regulator Ta-PHR1 is involved in phosphate signalling and increases grain yield in wheat | Q36870831 | ||
Signaling network in sensing phosphate availability in plants | Q37849310 | ||
Phosphorus dynamics: from soil to plant | Q37875582 | ||
Bioengineering and management for efficient phosphorus utilization in crops and pastures | Q37996775 | ||
Opportunities for improving phosphorus-use efficiency in crop plants. | Q38018122 | ||
Proteomics dissection of plant responses to mineral nutrient deficiency | Q38063487 | ||
Improvement of phosphorus efficiency in rice on the basis of understanding phosphate signaling and homeostasis | Q38097184 | ||
Control of phosphate homeostasis through gene regulation in crops. | Q38230962 | ||
Integrative Comparison of the Role of the PHOSPHATE RESPONSE1 Subfamily in Phosphate Signaling and Homeostasis in Rice. | Q38298240 | ||
A mutation in NLA, which encodes a RING-type ubiquitin ligase, disrupts the adaptability of Arabidopsis to nitrogen limitation | Q39347896 | ||
Arabidopsis PHL2 and PHR1 Act Redundantly as the Key Components of the Central Regulatory System Controlling Transcriptional Responses to Phosphate Starvation | Q40299228 | ||
GmEXPB2, a Cell Wall β-Expansin, Affects Soybean Nodulation through Modifying Root Architecture and Promoting Nodule Formation and Development. | Q40967911 | ||
An integrated transcriptome atlas of the crop model Glycine max, and its use in comparative analyses in plants | Q43090452 | ||
Biochemical and molecular characterization of PvPAP3, a novel purple acid phosphatase isolated from common bean enhancing extracellular ATP utilization | Q43231787 | ||
Characterization of soybean β-expansin genes and their expression responses to symbiosis, nutrient deficiency, and hormone treatment | Q44027643 | ||
A miRNA involved in phosphate-starvation response in Arabidopsis | Q46219280 | ||
Regulation effect of soil P availability on mycorrhizal infection in relation to root architecture and P efficiency of Glycine max | Q46556830 | ||
The high-affinity phosphate transporter GmPT5 regulates phosphate transport to nodules and nodulation in soybean | Q48048476 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P577 | publication date | 2017-08-23 | |
P1433 | published in | Journal of Experimental Botany | Q6295179 |
P1476 | title | GmPHR25, a GmPHR member up-regulated by phosphate starvation, controls phosphate homeostasis in soybean |
Q57066625 | Can Aluminum Tolerant Wheat Cultivar Perform Better under Phosphate Deficient Conditions? |
Q97519264 | Characterization of Purple Acid Phosphatase Family and Functional Analysis of GmPAP7a/7b Involved in Extracellular ATP Utilization in Soybean |
Q57486693 | Functional Characterization of Arabidopsis PHL4 in Plant Response to Phosphate Starvation |
Q49356594 | Genome-wide identification and comparative analysis of phosphate starvation-responsive transcription factors in maize and three other gramineous plants |
Q60949929 | Interaction and Regulation of Carbon, Nitrogen, and Phosphorus Metabolisms in Root Nodules of Legumes |
Q64112275 | MYB-CC transcription factor, TaMYBsm3, cloned from wheat is involved in drought tolerance |
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