Altered Expression of OsNLA1 Modulates Pi Accumulation in Rice (Oryza sativa L.) Plants
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Title
Altered Expression of OsNLA1 Modulates Pi Accumulation in Rice (Oryza sativa L.) Plants
Authors
Keywords
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Journal
Frontiers in Plant Science
Volume 8, Issue -, Pages -
Publisher
Frontiers Media SA
Online
2017-06-02
DOI
10.3389/fpls.2017.00928
References
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Related references
Note: Only part of the references are listed.- OsNLA1, a RING-type ubiquitin ligase, maintains phosphate homeostasis in Oryza sativa via degradation of phosphate transporters
- (2017) Wenhao Yue et al. PLANT JOURNAL
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- G-protein α-subunit (GPA1) regulates stress, nitrate and phosphate response, flavonoid biosynthesis, fruit/seed development and substantially shares GCR1 regulation in A. thaliana
- (2015) Navjyoti Chakraborty et al. PLANT MOLECULAR BIOLOGY
- OsSPX-MFS3, a vacuolar phosphate efflux transporter, is involved in maintaining Pi homeostasis in rice
- (2015) Chuang Wang et al. PLANT PHYSIOLOGY
- Ammonium-induced architectural and anatomical changes with altered suberin and lignin levels significantly change water and solute permeabilities of rice (Oryza sativa L.) roots
- (2015) Kosala Ranathunge et al. PLANTA
- AtNIGT1/HRS1 integrates nitrate and phosphate signals at the Arabidopsis root tip
- (2015) Anna Medici et al. Nature Communications
- Role of microRNAs involved in plant response to nitrogen and phosphorous limiting conditions
- (2015) Giao N. Nguyen et al. Frontiers in Plant Science
- SPX4 Negatively Regulates Phosphate Signaling and Homeostasis through Its Interaction with PHR2 in Rice
- (2014) Q. Lv et al. PLANT CELL
- Analysis of the Root System Architecture of Arabidopsis Provides a Quantitative Readout of Crosstalk between Nutritional Signals
- (2014) F. Kellermeier et al. PLANT CELL
- NITROGEN LIMITATION ADAPTATION Recruits PHOSPHATE2 to Target the Phosphate Transporter PT2 for Degradation during the Regulation of Arabidopsis Phosphate Homeostasis
- (2014) B. S. Park et al. PLANT CELL
- miR444a has multiple functions in the rice nitrate-signaling pathway
- (2014) Yongsheng Yan et al. PLANT JOURNAL
- Rice SPX1 and SPX2 inhibit phosphate starvation responses through interacting with PHR2 in a phosphate-dependent manner
- (2014) Z. Wang et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- The paralogous SPX3 and SPX5 genes redundantly modulate Pi homeostasis in rice
- (2013) Jing Shi et al. JOURNAL OF EXPERIMENTAL BOTANY
- Fine characterization of OsPHO2 knockout mutants reveals its key role in Pi utilization in rice
- (2013) Yue Cao et al. JOURNAL OF PLANT PHYSIOLOGY
- NITROGEN LIMITATION ADAPTATION, a Target of MicroRNA827, Mediates Degradation of Plasma Membrane-Localized Phosphate Transporters to Maintain Phosphate Homeostasis in Arabidopsis
- (2013) W.-Y. Lin et al. PLANT CELL
- Functional characterization of the rice SPX-MFS family reveals a key role of OsSPX-MFS1 in controlling phosphate homeostasis in leaves
- (2012) Chuang Wang et al. NEW PHYTOLOGIST
- Maize Source Leaf Adaptation to Nitrogen Deficiency Affects Not Only Nitrogen and Carbon Metabolism But Also Control of Phosphate Homeostasis
- (2012) U. Schluter et al. PLANT PHYSIOLOGY
- Signaling Network in Sensing Phosphate Availability in Plants
- (2011) Tzyy-Jen Chiou et al. Annual Review of Plant Biology
- Acquisition of phosphorus and other poorly mobile nutrients by roots. Where do plant nutrition models fail?
- (2011) Philippe Hinsinger et al. PLANT AND SOIL
- Genetic Regulation by NLA and MicroRNA827 for Maintaining Nitrate-Dependent Phosphate Homeostasis in Arabidopsis
- (2011) Surya Kant et al. PLoS Genetics
- Complex Regulation of Two Target Genes Encoding SPX-MFS Proteins by Rice miR827 in Response to Phosphate Starvation
- (2010) S.-I. Lin et al. PLANT AND CELL PHYSIOLOGY
- Regulation of OsSPX1 and OsSPX3 on Expression ofOsSPXdomain Genes and Pi-starvation Signaling in Rice
- (2009) Zhiye Wang et al. Journal of Integrative Plant Biology
- Adaptation of Arabidopsis to nitrogen limitation involves induction of anthocyanin synthesis which is controlled by the NLA gene
- (2008) M. Peng et al. JOURNAL OF EXPERIMENTAL BOTANY
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