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Overexpression of SOD2 increases salt tolerance of Arabidopsis.

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

http://www.wikidata.org/entity/Q52097450

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The Arabidopsis pop2-1 mutant reveals the involvement of GABA transaminase in salt stress tolerance.The SbSOS1 gene from the extreme halophyte Salicornia brachiata enhances Na(+) loading in xylem and confers salt tolerance in transgenic tobacco.Variation in tissue Na(+) content and the activity of SOS1 genes among two species and two related genera of Chrysanthemum.Proteomics with a pinch of salt: a cyanobacterial perspective Bioengineering for salinity tolerance in plants: state of the art.Global plant-responding mechanisms to salt stress: physiological and molecular levels and implications in biotechnology.Over-expression of OSRIP18 increases drought and salt tolerance in transgenic rice plants.Arabidopsis EDT1/HDG11 improves drought and salt tolerance in cotton and poplar and increases cotton yield in the field.Growth at high pH and sodium and potassium tolerance in media above the cytoplasmic pH depend on ENA ATPases in Ustilago maydis.Physiological and Transcriptomic Responses of Chinese Cabbage (Brassica rapa L. ssp. Pekinensis) to Salt Stress.Transmembrane Segment XI of the Na+/H+ Antiporter of S. pombe is a Critical Part of the Ion Translocation Pore.A systems biology approach to investigate the response of Synechocystis sp. PCC6803 to a high salt environment.Some aspects of salinity responses in peppermint (Mentha × piperita L.) to NaCl treatment.Over-expression of a cytosolic isoform of the HbCuZnSOD gene in Hevea brasiliensis changes its response to a water deficit.MAPK-mediated enhanced expression of vacuolar H(+)-ATPase confers the improved adaption to NaCl stress in a halotolerate peppermint (Mentha piperita L.).A multi-year assessment of the environmental impact of transgenic Eucalyptus trees harboring a bacterial choline oxidase gene on biomass, precinct vegetation and the microbial community.Structure and function of yeast and fungal Na+ /H+ antiporters.Chrysanthemum CmHSFA4 gene positively regulates salt stress tolerance in transgenic chrysanthemum.Functional characterization of a plasma membrane Na+/H+ antiporter from alkali grass (Puccinellia tenuiflora).The over-expression of Chrysanthemum crassum CcSOS1 improves the salinity tolerance of chrysanthemum.Difference in miRNA expression profiles between two cotton cultivars with distinct salt sensitivity.The Arabidopsis mutant stg1 identifies a function for TBP-associated factor 10 in plant osmotic stress adaptation.Expression and characterization of the SOS1 Arabidopsis salt tolerance protein.Germination ofProsopis juliflora(Sw.) D.C. seeds at different osmotic potentials and temperatures

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P2860

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

http://www.wikidata.org/entity/Q52097450

description

2003 nî lūn-bûn

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2003年の論文

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年学术文章

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2003年學術文章

@yue

2003年學術文章

@zh-hant

name

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

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Overexpression of SOD2 increases salt tolerance of Arabidopsis.

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type

label

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

@en

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

@nl

prefLabel

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

@en

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

@nl

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Plant Physiology

P1476

Overexpression of SOD2 increases salt tolerance of Arabidopsis.

@en

P2093

Hui Zhang

http://www.w3.org/2001/XMLSchema#string

Xiuhua Gao

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Yanxiu Zhao

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Zhonghai Ren

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P2860

Single-Step Method of RNA Isolation by Acid Guanidinium Thiocyanate–Phenol–Chloroform Extraction

Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana

Characterization of the NHA1 gene encoding a Na+/H+-antiporter of the yeast Saccharomyces cerevisiae.

Arabidopsis thaliana and Saccharomyces cerevisiae NHX1 genes encode amiloride sensitive electroneutral Na+/H+ exchangers.

A novel and conserved salt-induced protein is an important determinant of salt tolerance in yeast

Rapid isolation of high molecular weight plant DNA

Salt tolerance conferred by overexpression of a vacuolar Na+/H+ antiport in Arabidopsis.

Sodium transport in plant cells.

Plant salt tolerance.

Gene amplification at a locus encoding a putative Na+/H+ antiporter confers sodium and lithium tolerance in fission yeast.

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10.1104/PP.103.026062

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