Chanhong Kim scite author profile

The conditional fluorescent ( flu ) mutant of Arabidopsis accumulates the photosensitizer protochlorophyllide in the dark. After a dark-to-light shift, the generation of singlet oxygen, a nonradical reactive oxygen species, starts within the first minute of illumination and was shown to be confined to plastids. Immediately after the shift, plants stopped growing and developed necrotic lesions. These early stress responses of the flu mutant do not seem to result merely from physicochemical damage. Peroxidation of chloroplast membrane lipids in these plants started rapidly and led to the transient and selective accumulation of a stereospecific and regiospecific isomer of hydroxyoctadecatrieonic acid, free (13 S )-HOTE, that could be attributed almost exclusively to the enzymatic oxidation of linolenic acid. Within the first 15 min of reillumination, distinct sets of genes were activated that were different from those induced by superoxide/hydrogen peroxide. Collectively, these results demonstrate that singlet oxygen does not act primarily as a toxin but rather as a signal that activates several stress-response pathways. Its biological activity in Arabidopsis exhibits a high degree of specificity that seems to be derived from the chemical identity of this reactive oxygen species and/or the intracellular location at which it is generated.

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T‐DNA insertional mutagenesis for functional genomics in rice

Jeon

et al. 2000

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SummaryWe have produced 22 090 primary transgenic rice plants that carry a T-DNA insertion, which has resulted in 18 358 fertile lines. Genomic DNA gel-blot and PCR analyses have shown that approximately 65% of the population contains more than one copy of the inserted T-DNA. Hygromycin resistance tests revealed that transgenic plants contain an average of 1.4 loci of T-DNA inserts. Therefore, it can be estimated that approximately 25 700 taggings have been generated. The binary vector used in the insertion contained the promoterless b-glucuronidase (GUS) reporter gene with an intron and multiple splicing donors and acceptors immediately next to the right border. Therefore, this gene trap vector is able to detect a gene fusion between GUS and an endogenous gene, which is tagged by T-DNA. Histochemical GUS assays were carried out in the leaves and roots from 5353 lines, mature¯owers from 7026 lines, and developing seeds from 1948 lines. The data revealed that 1.6±2.1% of tested organs were GUS-positive in the tested organs, and that their GUS expression patterns were organ-or tissue-speci®c or ubiquitous in all parts of the plant. The large population of T-DNA-tagged lines will be useful for identifying insertional mutants in various genes and for discovering new genes in rice.

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The Genetic Basis of Singlet OxygenInduced Stress Responses of Arabidopsis thaliana

Wagner

Przybyla

Camp

et al. 2004

Science

570

507

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Plants under oxidative stress suffer from damages that have been interpreted as unavoidable consequences of injuries inflicted upon plants by toxic levels of reactive oxygen species (ROS). However, this paradigm needs to be modified. Inactivation of a single gene, EXECUTER1, is sufficient to abrogate stress responses of Arabidopsis thaliana caused by the release of singlet oxygen: External conditions under which these stress responses are observed and the amounts of ROS that accumulate in plants exposed to these environmental conditions do not directly cause damages. Instead, seedling lethality and growth inhibition of mature plants result from genetic programs that are activated after the release of singlet oxygen has been perceived by the plant.

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Chanhong Kim

Rapid Induction of Distinct Stress Responses after the Release of Singlet Oxygen in Arabidopsis[W]

T‐DNA insertional mutagenesis for functional genomics in rice

The Genetic Basis of Singlet OxygenInduced Stress Responses of Arabidopsis thaliana

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Chanhong Kim

Rapid Induction of Distinct Stress Responses after the Release of Singlet Oxygen in Arabidopsis[W]

T‐DNA insertional mutagenesis for functional genomics in rice

The Genetic Basis of Singlet OxygenInduced Stress Responses of Arabidopsis thaliana

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Product

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The Genetic Basis of Singlet OxygenInduced Stress Responses of Arabidopsis thaliana