M. Maekawa scite author profile

The regulatory nucleotide guanosine 5'-diphosphate 3'-diphosphate (ppGpp), which was originally identified in Escherichia coli, controls the expression of a large gene set and many enzyme activities. The ppGpp-dependent control of cell activities is referred to as the stringent response. Recently, genes responsible for the synthesis and degradation of ppGpp have been identified not only in bacteria, but also in eukaryotes, including plants and animals, indicating that the stringent response is, unexpectedly, widely conserved. However, the exact function of the eukaryotic stringent response remains elusive. Here, we isolated an Arabidopsis mutant that overproduces ppGpp in chloroplasts. This mutant shows metabolite reduction, dwarf chloroplasts and significantly suppressed plastidial transcription and translation. Under nutrient-deficient conditions, the mutant shows more robust growth than the wild type. These results indicate that the ppGpp-dependent control of the organelle function is crucial for the systematic growth of host organisms.

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Biochemical and Physiological Characterization of a BLUF Protein−EAL Protein Complex Involved in Blue Light-Dependent Degradation of Cyclic Diguanylate in the Purple Bacterium Rhodopseudomonas palustris

Kanazawa

Ren²,

Maekawa

et al. 2010

Biochemistry

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Organisms adapt their physiologies in response to the quality and quantity of environmental light. Members of a recently identified photoreceptor protein family, BLUF domain proteins, use a flavin chromophore to sense blue light. Herein, we report that PapB, which contains a BLUF domain, controls the biofilm formation of the purple photosynthetic bacterium Rhodopseudomonas palustris. Purified PapB undergoes a typical BLUF-type photocycle, and light-excited PapB enhances the phosphodiesterase activity of the EAL domain protein, PapA, which degrades the second messenger, cyclic dimeric GMP (c-di-GMP). PapB directly interacts with PapA in vitro in a light-independent manner and induces a conformational change in the preformed PapA-PapB complex. A PapA-PapB docking simulation, as well as a site-directed mutagenesis study, identified amino acids partially responsible for the interaction between the PapA EAL domain and the two C-terminal α-helices of the PapB BLUF domain. Thus, the conformational change, which involves the C-terminal α-helices, transfers the flavin-sensed blue light signal to PapA. Deletion of papB in R. palustris enhances biofilm formation under high-intensity blue light conditions, indicating that PapB functions as a blue light sensor, which negatively regulates biofilm formation. These results demonstrate that R. palustris can control biofilm formation via a blue light-dependent modulation of its c-di-GMP level by the BLUF domain protein, PapB.

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Nucleation of crystals at the bcc-hcp transition line in solid4He

2002

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Untitled

Nomura

Maekawa

Suzuki

et al. 2002

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Melting and growth of solid by ultrasound

Suzuki

Maekawa

Ueno

et al. 2003

Physica B: Condensed Matter

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M. Maekawa

Impact of the plastidial stringent response in plant growth and stress responses

Biochemical and Physiological Characterization of a BLUF Protein−EAL Protein Complex Involved in Blue Light-Dependent Degradation of Cyclic Diguanylate in the Purple Bacterium Rhodopseudomonas palustris

Nucleation of crystals at the bcc-hcp transition line in solid4He

Untitled

Melting and growth of solid by ultrasound

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