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Literature DB >> 12758039

14-3-3 proteins find new partners in plant cell signalling.

Abstract

14-3-3 proteins are phosphoserine-binding proteins that regulate the activities of a wide array of targets via direct protein-protein interactions. In animal cells, the majority of their known targets are involved in signal transduction and transcription. In plants, we know about them primarily through their regulation of the plasma membrane H(+)-ATPase and enzymes of carbon and nitrogen metabolism. Nevertheless, an increasing number of plant signalling proteins are now being recognized as 14-3-3-interacting proteins. Plant 14-3-3 proteins bind a range of transcription factors and other signalling proteins, and have roles regulating plant development and stress responses. Important mechanisms of regulation by 14-3-3 include shuttling proteins between different cellular locations and acting as scaffolds for the assembly of larger signalling complexes.

Entities: Chemical

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Year: 2003 PMID： 12758039 DOI： 10.1016/S1360-1385(03)00056-6

Source DB: PubMed Journal: Trends Plant Sci ISSN： 1360-1385 Impact factor: 18.313

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Cited

59 in total

1. A description of the Mei2-like protein family; structure, phylogenetic distribution and biological context.

Authors: Daniel C Jeffares; Matthew J Phillips; Stanley Moore; Bruce Veit
Journal: Dev Genes Evol Date: 2004-02-17 Impact factor: 0.900

2. Involvement of 14-3-3 protein GRF9 in root growth and response under polyethylene glycol-induced water stress.

Authors: Yuchi He; Jingjing Wu; Bing Lv; Jia Li; Zhiping Gao; Weifeng Xu; František Baluška; Weiming Shi; Pang Chui Shaw; Jianhua Zhang
Journal: J Exp Bot Date: 2015-04-06 Impact factor: 6.992

3. Expression profiling of the 14-3-3 gene family in response to salt stress and potassium and iron deficiencies in young tomato (Solanum lycopersicum) roots: analysis by real-time RT-PCR.

Authors: Wei Feng Xu; Wei Ming Shi
Journal: Ann Bot Date: 2006-08-30 Impact factor: 4.357

4. Phosphorylation-independent interaction between 14-3-3 and exoenzyme S: from structure to pathogenesis.

Authors: Christian Ottmann; Lubna Yasmin; Michael Weyand; Jeffrey L Veesenmeyer; Maureen H Diaz; Ruth H Palmer; Matthew S Francis; Alan R Hauser; Alfred Wittinghofer; Bengt Hallberg
Journal: EMBO J Date: 2007-01-18 Impact factor: 11.598

5. Identification of a gene from the arbuscular mycorrhizal fungus Glomus intraradices encoding for a 14-3-3 protein that is up-regulated by drought stress during the AM symbiosis.

Authors: Rosa Porcel; Ricardo Aroca; Custodia Cano; Alberto Bago; Juan Manuel Ruiz-Lozano
Journal: Microb Ecol Date: 2006-08-31 Impact factor: 4.552

6. Phosphoproteomic identification of targets of the Arabidopsis sucrose nonfermenting-like kinase SnRK2.8 reveals a connection to metabolic processes.

Authors: Ryoung Shin; Sophie Alvarez; Adrien Y Burch; Joseph M Jez; Daniel P Schachtman
Journal: Proc Natl Acad Sci U S A Date: 2007-04-02 Impact factor: 11.205

14-3-3 proteins find new partners in plant cell signalling.

1. A description of the Mei2-like protein family; structure, phylogenetic distribution and biological context.

2. Involvement of 14-3-3 protein GRF9 in root growth and response under polyethylene glycol-induced water stress.

3. Expression profiling of the 14-3-3 gene family in response to salt stress and potassium and iron deficiencies in young tomato (Solanum lycopersicum) roots: analysis by real-time RT-PCR.

4. Phosphorylation-independent interaction between 14-3-3 and exoenzyme S: from structure to pathogenesis.

5. Identification of a gene from the arbuscular mycorrhizal fungus Glomus intraradices encoding for a 14-3-3 protein that is up-regulated by drought stress during the AM symbiosis.

6. Phosphoproteomic identification of targets of the Arabidopsis sucrose nonfermenting-like kinase SnRK2.8 reveals a connection to metabolic processes.

7. Defense/stress responses activated by chitosan in sycamore cultured cells.

8. Multisite phosphorylation of 14-3-3 proteins by calcium-dependent protein kinases.

9. 14-3-3 proteins SGF14c and SGF14l play critical roles during soybean nodulation.

10. The Arabidopsis pop2-1 mutant reveals the involvement of GABA transaminase in salt stress tolerance.