Characterization of damage to photosystems I and II in a cyanobacterium lacking detectable iron superoxide dismutase activity.

Herbert, Stephen K.; Samson, Guy; Fork, David C.; Laudenbach, David E.

doi:10.1073/pnas.89.18.8716

Cited by 98 publications

(67 citation statements)

References 20 publications

(19 reference statements)

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“…In contrast, the mRNA level for a DnaJ-like protein of the HSP40 family was substantially decreased. The transcript concentration for the Fe superoxide dismutase (Herbert et al, 1992;Samson et al, 1994) was found to be lower in Fedepleted cells than in Fe-sufficient cells. Altogether, these findings reveal that Fe-independent detoxification systems compensate in part the Fe-dependent parts of the cellular detoxification system.…”

Section: Transcripts Of Genes Encoding General Stress Proteinsmentioning

confidence: 97%

Transcript Profiling Reveals New Insights into the Acclimation of the Mesophilic Fresh-Water CyanobacteriumSynechococcus elongatusPCC 7942 to Iron Starvation

Nodop

Pietsch²,

Höcker³

et al. 2008

Plant Physiology

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The regulatory network for acclimation of the obligate photoautotrophic fresh water cyanobacterium Synechococcus elongatus PCC 7942 to iron (Fe) limitation was studied by transcript profiling with an oligonucleotide whole genome DNA microarray. Six regions on the chromosome with several Fe-regulated genes each were identified. The irpAB and fut region encode putative Fe uptake systems, the suf region participates in [Fe-sulfur] cluster assembly under oxidative stress and Fe limitation, the isiAB region encodes CP43# and flavodoxin, the idiCB region encodes the NuoE-like electron transport associated protein IdiC and the transcriptional activator IdiB, and the ackA/pgam region encodes an acetate kinase and a phosphoglycerate mutase. We also investigated the response of two S. elongatus PCC 7942 mutants to Fe starvation. These were mutant K10, lacking IdiB but containing IdiC, and mutant MuD, representing a idiC-merodiploid mutant with a strongly reduced amount of IdiC as well as IdiB. The absence of IdiB in mutant K10 or the strongly reduced amount of IdiB in mutant MuD allowed for the identification of additional members of the Fe-responsive IdiB regulon. Besides idiA and the irpAB operon somB(1), somA(2), ftr1, ackA, pgam, and nat also seem to be regulated by IdiB. In addition to the reduced amount of IdiB in MuD, the low concentration of IdiC may be responsible for a number of additional changes in the abundance of mainly photosynthesis-related transcripts as compared to the wild type and mutant K10.

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Section: Transcripts Of Genes Encoding General Stress Proteinsmentioning

confidence: 97%

Transcript Profiling Reveals New Insights into the Acclimation of the Mesophilic Fresh-Water CyanobacteriumSynechococcus elongatusPCC 7942 to Iron Starvation

Nodop

Pietsch²,

Höcker³

et al. 2008

Plant Physiology

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“…Thus, the increased PSI content in the mutants may result in much more production of reactive species of oxygen, which might account for the loss of viability of the mutants under the prolonged stress of HL. It is widely accepted that electrons generated from PSI react with oxygen to produce the superoxide anions, which are mainly scavenged by superoxide dismutase and ascorbate peroxidase (Asada, 1992;Herbert et al, 1992). It was recently demonstrated that irreversible photoinhibition of PSI occurs at its acceptor side in chilling-sensitive plants under chilling stress, possibly due to a loss of protection against the reactive species of oxygen (Sonoike and Terashima, 1994;Sonoike, 1996).…”

Section: Discussionmentioning

confidence: 99%

A Novel Gene, pmgA, Specifically Regulates Photosystem Stoichiometry in the CyanobacteriumSynechocystis Species PCC 6803 in Response to High Light1

1998

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“…These results suggest that CSD2 is essential for protecting the chloroplasts in higher plants from photooxidative damage. In the unicellular cyanobacterium Synechococcus, which possesses two SODs, MnSOD in the thylakoids and FeSOD in the cytosol, a mutant strain lacking FeSOD is sensitive to photooxidative stress, and its PSI complex is inactivated (Herbert et al, 1992;Samson et al, 1994;Thomas et al, 1998). However, the role of FeSOD isozymes in maintaining chloroplast function has not yet been documented.…”

Section: Introductionmentioning

confidence: 99%

A Heterocomplex of Iron Superoxide Dismutases Defends Chloroplast Nucleoids against Oxidative Stress and Is Essential for Chloroplast Development inArabidopsis

et al. 2008

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There are three iron superoxide dismutases in Arabidopsis thaliana: FE SUPEROXIDE DISMUTASE1 (FSD1), FSD2, and FSD3. Their biological roles in chloroplast development are unknown. Here, we show that FSD2 and FSD3 play essential roles in early chloroplast development, whereas FSD1, which is found in the cytoplasm, does not. An fsd2-1 fsd3-1 double mutant had a severe albino phenotype on agar plates, whereas fsd2 and fsd3 single knockout mutants had pale green phenotypes. Chloroplast development was arrested in young seedlings of the double mutant. The mutant plants were highly sensitive to oxidative stress and developed increased levels of reactive oxygen species (ROS) during extended darkness. The FSD2 and FSD3 proteins formed a heteromeric protein complex in the chloroplast nucleoids. Furthermore, transgenic Arabidopsis plants overexpressing both the FSD2 and FSD3 genes showed greater tolerance to oxidative stress induced by methyl viologen than did the wild type or single FSD2-or FSD3-overexpressing lines. We propose that heteromeric FSD2 and FSD3 act as ROS scavengers in the maintenance of early chloroplast development by protecting the chloroplast nucleoids from ROS.

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Characterization of damage to photosystems I and II in a cyanobacterium lacking detectable iron superoxide dismutase activity.

Cited by 98 publications

References 20 publications

Transcript Profiling Reveals New Insights into the Acclimation of the Mesophilic Fresh-Water CyanobacteriumSynechococcus elongatusPCC 7942 to Iron Starvation

Transcript Profiling Reveals New Insights into the Acclimation of the Mesophilic Fresh-Water CyanobacteriumSynechococcus elongatusPCC 7942 to Iron Starvation

A Novel Gene, pmgA, Specifically Regulates Photosystem Stoichiometry in the CyanobacteriumSynechocystis Species PCC 6803 in Response to High Light1

A Heterocomplex of Iron Superoxide Dismutases Defends Chloroplast Nucleoids against Oxidative Stress and Is Essential for Chloroplast Development inArabidopsis

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