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Literature DB >> 10837272

Phosphate transport and signaling.

Abstract

The discovery of phosphate (Pi) transporter genes has provided a basis for the molecular study of the complex pattern of Pi transport in plants. Over the past two years, a significant amount of information has been generated on the molecular regulation of phosphate transport in plants. Recent developments in plant genomics will soon allow the complete dissection of the signal transduction pathway(s) associated with plant responses to Pi limitation in the rhizosphere.

Entities: Chemical

Mesh：

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Year: 2000 PMID： 10837272

Source DB: PubMed Journal: Curr Opin Plant Biol ISSN： 1369-5266 Impact factor: 7.834

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Cited

76 in total

1. High-throughput viral expression of cDNA-green fluorescent protein fusions reveals novel subcellular addresses and identifies unique proteins that interact with plasmodesmata.

Authors: Nieves Medina Escobar; Sophie Haupt; Graham Thow; Petra Boevink; Sean Chapman; Karl Oparka
Journal: Plant Cell Date: 2003-07 Impact factor: 11.277

2. Regulated expression of Arabidopsis phosphate transporters.

Authors: Athikkattuvalasu S Karthikeyan; Deepa K Varadarajan; Uthappa T Mukatira; Matilde Paino D'Urzo; Barbara Damsz; Kashchandra G Raghothama
Journal: Plant Physiol Date: 2002-09 Impact factor: 8.340

3. Integral membrane proteins of the chloroplast envelope: identification and subcellular localization of new transporters.

Authors: Myriam Ferro; Daniel Salvi; Helene Riviere-Rolland; Thierry Vermat; Daphne Seigneurin-Berny; Didier Grunwald; Jerome Garin; Jacques Joyard; Norbert Rolland
Journal: Proc Natl Acad Sci U S A Date: 2002-08-12 Impact factor: 11.205

Review 4. A new insight into root responses to external cues: Paradigm shift in nutrient sensing.

Authors: Deepak Bhardwaj; Anna Medici; Alain Gojon; Benoît Lacombe; Narendra Tuteja
Journal: Plant Signal Behav Date: 2015

5. The Arabidopsis purple acid phosphatase AtPAP10 is predominantly associated with the root surface and plays an important role in plant tolerance to phosphate limitation.

Authors: Liangsheng Wang; Zheng Li; Weiqiang Qian; Wanli Guo; Xiang Gao; Lingling Huang; Han Wang; Huifen Zhu; Jia-Wei Wu; Daowen Wang; Dong Liu
Journal: Plant Physiol Date: 2011-09-22 Impact factor: 8.340

6. Inhibition of phosphate uptake in corn roots by aluminum-fluoride complexes.

Authors: Arnoldo Rocha Façanha; Anna L Okorokova-Façanha
Journal: Plant Physiol Date: 2002-08 Impact factor: 8.340

7. Characterization of the rice PHO1 gene family reveals a key role for OsPHO1;2 in phosphate homeostasis and the evolution of a distinct clade in dicotyledons.

Authors: David Secco; Arnaud Baumann; Yves Poirier
Journal: Plant Physiol Date: 2010-01-15 Impact factor: 8.340

8. Can differences in phosphorus uptake kinetics explain the distribution of cattail and sawgrass in the Florida Everglades?

Authors: Hans Brix; Bent Lorenzen; Irving A Mendelssohn; Karen L McKee; Shili Miao
Journal: BMC Plant Biol Date: 2010-02-08 Impact factor: 4.215

9. Vacuolar SPX-MFS transporters are essential for phosphate adaptation in plants.

Authors: Jinlong Liu; Shaomin Fu; Lei Yang; Mingda Luan; Fugeng Zhao; Sheng Luan; Wenzhi Lan
Journal: Plant Signal Behav Date: 2016-08-02

10. The S-Domain Receptor Kinase Arabidopsis Receptor Kinase2 and the U Box/Armadillo Repeat-Containing E3 Ubiquitin Ligase9 Module Mediates Lateral Root Development under Phosphate Starvation in Arabidopsis.

Authors: Srijani Deb; Subramanian Sankaranarayanan; Gayathri Wewala; Ellen Widdup; Marcus A Samuel
Journal: Plant Physiol Date: 2014-06-25 Impact factor: 8.340