Leonardo M. Casano scite author profile

Chloroplast-encoded NDH polypeptides (components of the plastid Ndh complex) and the NADH dehydrogenase activity of the Ndh complex (NADH-DH) increased under photooxidative stress. The possible involvement of H 2 O 2 -mediated signaling in the photooxidative induction of chloroplastic ndh genes was thoroughly studied. We have analyzed the changes in the NADH-DH and steady-state levels of NDH-F polypeptide and ndhB and ndhF transcripts in barley (Hordeum vulgare cv Hassan) leaves. Subapical leaf segments were incubated in growing light (GL), photooxidative light (PhL), GL and H 2 O 2 (GL ϩ H 2 O 2 ), or PhL and 50 nm paraquat in the incubation medium. Treatments with H 2 O 2 under GL mimicked the photooxidative stimulus, causing a dose-dependent increase of NADH-DH and NDH-F polypeptide. The kinetic of Ndh complex induction was further studied in leaves pre-incubated with or without the H 2 O 2 -scavenger dimethyltiourea. NADH-DH and NDH-F polypeptide rapidly increased up to 16 h in PhL, GLϩ H 2 O 2 , and, at higher rate, in PhL and paraquat. The observed increases of NADH-DH and NDH-F after 4 h in PhL and GL ϩ H 2 O 2 were not accompanied by significant changes in ndhB and ndhF transcripts. However, at 16-h incubations NADH-DH and NDH-F changes closely correlated with higher ndhB and ndhF transcript levels. All these effects were prevented by dimethylthiourea. It is proposed that the induction of chloroplastic ndh genes under photooxidative stress is mediated by H 2 O 2 through mechanisms that involve a rapid translation of pre-existing transcripts and the increase of the ndh transcript levels.

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The genetic structure of the cosmopolitan three-partner lichenRamalina farinaceaevidences the concerted diversification of symbionts

Campo

Catalá

Gimeno

et al. 2012

FEMS Microbiol Ecol

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The epiphytic lichen Ramalina farinacea is distributed throughout the northern hemisphere in which the same two algal Trebouxia species (provisionally named TR1 and TR9) coexist in every thallus. Ramalina farinacea symbionts were characterized based on the two fungal nuclear loci (nrITS and rpb2) along with the primary and secondary structures of nrITS from each Trebouxia species in the Iberian Peninsula and Canary Islands. The results indicated a noticeable genetic differentiation between mycobionts from these two geographic areas and also suggested concerted changes in the three partners of a lichen symbiosis toward two clearly distinguishable 'holobiont' lineages. Modeling of ITS2 RNA secondary structures suggested their temperature sensitivity in TR1 but not in TR9, which was consistent with the observed superior physiological performance of TR9 phycobionts under relatively high temperatures. Both TR1 and TR9 phycobionts have been also found in a variety of taxonomically distinct lichens with a preferably Mediterranean distribution, being TR1 much more widespread than TR9. Our observations support a model in which ecological diversification and speciation of lichen symbionts in different habitats could include a transient phase consisting of associations with more than one photobiont in individual thalli. Such diversification is likely to be promoted by different physiological backgrounds.

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Identification of the Product of ndhA Gene as a Thylakoid Protein Synthesized in Response to Photooxidative Treatment

Martı́n

Casano

Sabater

1996

Plant and Cell Physiology

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A 76 amino acid sequence of NDH-A (the protein encoded by plastid ndhA gene) from barley (Hordeum vulgare L.) was expressed as a fusion protein with beta-galactosidase in E. coli. The corresponding antibody generated in rabbits was used to investigate localization, expression and synthesis in vitro of NDH-A. NDH-A was identified as a 35 kDa polypeptide localized in thylakoid membrane. Western blots shows a large increase in NDH-A levels when barley leaves were incubated under photooxidative conditions, which was more pronounced in mature-senescent leaves than in young leaves. Immunoprecipitation of the [35S]methionine labelled proteins, synthesized in vitro by isolated chloroplasts, demonstrated the synthesis in chloroplasts of the NDH-A 35 kDa polypeptide when barley leaves had been incubated under photooxidative conditions. The results indicate that ndh genes may be involved in the protection of chloroplasts against photooxidative stress, particularly in mature-senescent leaves.

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