Arabidopsis putative selenium-binding protein1 expression is tightly linked to cellular sulfur demand and can reduce sensitivity to stresses requiring glutathione for tolerance.
Hugouvieux, Véronique
Arabidopsis putative selenium-binding protein1 expression is tightly linked to cellular sulfur demand and can reduce sensitivity to stresses requiring glutathione for tolerance. [electronic resource] - Plant physiology Oct 2009 - 768-81 p. digital
Publication Type: Journal Article; Research Support, Non-U.S. Gov't
0032-0889
10.1104/pp.109.144808 doi
Adaptation, Physiological--drug effects
Arabidopsis--cytology
Arabidopsis Proteins--genetics
Carrier Proteins--genetics
Gene Expression Regulation, Plant--drug effects
Genes, Plant
Glutathione--metabolism
Hydrogen Peroxide--pharmacology
Luciferases--metabolism
Metals, Heavy--toxicity
Plant Roots--drug effects
Plant Shoots--drug effects
Promoter Regions, Genetic--genetics
Seedlings--drug effects
Selenium-Binding Proteins
Stress, Physiological--drug effects
Sulfur--metabolism
Arabidopsis putative selenium-binding protein1 expression is tightly linked to cellular sulfur demand and can reduce sensitivity to stresses requiring glutathione for tolerance. [electronic resource] - Plant physiology Oct 2009 - 768-81 p. digital
Publication Type: Journal Article; Research Support, Non-U.S. Gov't
0032-0889
10.1104/pp.109.144808 doi
Adaptation, Physiological--drug effects
Arabidopsis--cytology
Arabidopsis Proteins--genetics
Carrier Proteins--genetics
Gene Expression Regulation, Plant--drug effects
Genes, Plant
Glutathione--metabolism
Hydrogen Peroxide--pharmacology
Luciferases--metabolism
Metals, Heavy--toxicity
Plant Roots--drug effects
Plant Shoots--drug effects
Promoter Regions, Genetic--genetics
Seedlings--drug effects
Selenium-Binding Proteins
Stress, Physiological--drug effects
Sulfur--metabolism