Shuntaro Miyake scite author profile

Intracellular and intercellular signalling networks play an essential role in optimizing cellular homoeostasis and are thought to be partly reflected in nuclear mRNA dynamics. However, the regulation of nuclear mRNA dynamics by intracellular and intercellular signals remains largely unexplored, and research tools are lacking. Through an original screening based on the mRNA metabolic mechanism, we discovered that eight well-known inhibitors cause significant nuclear poly(A) + RNA accumulation. Among these inhibitors, we discovered a new mRNA metabolic response in which the addition of antimycin A, an inhibitor of mitochondrial respiratory-chain complex III (complex III), resulted in a marked accumulation of poly(A) + RNA near the nuclear speckles. Furthermore, dihydroorotate dehydrogenase (DHODH) inhibitors, a rate-limiting enzyme in the intracellular de novo pyrimidine synthesis reaction that specifically exchanges electrons with complex III, also caused a remarkable accumulation of nuclear poly(A) + RNA adjacent to the nuclear speckles, which was abolished by extracellular uridine supply, indicating that the depletion of intracellular pyrimidine affects poly(A) + RNA metabolism. Further analysis revealed that ataxia telangiectasia mutated (ATM), a serine and threonine kinase and a master regulator of DNA double-strand break (DSB) and nucleolar stress, is required for this poly(A) + RNA nuclear accumulation phenomenon. This study reports new insights into novel aspects of nuclear poly(A) + RNA metabolism, especially the relationship between mitochondrial respiratory-chain functions, pyrimidine metabolism, and nuclear RNA metabolism.

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Lead-Zirconate-Titanate Acoustic Energy Harvester Equipped with Sound-Collecting Helmholtz Resonator

Matsuda

Tomii

Iizumi

et al. 2013

IEICE Trans. Electron.

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Optimization of Electrode Structures of PZT Acoustic Energy Harvesters Fabricated on SOI Substrate

Tomii

Tomioka

Iizumi

et al. 2013

AMR

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This paper reports on the power generation performances of a PZT microelectromechanical system (MEMS) acoustic energy harvester having dual top electrodes to utilize the different polarizations of charges on the surface of a vibrating PZT diaphragm at first resonance. The PZT acoustic energy harvester was fabricated on a silicon-on-insulator (SOI) substrate, and had a diaphragm with a diameter of 2 mm consisting of Al (0.1 μm)/PZT (1 μm)/Pt (0.1 μm)/Ti (0.1 μm)/Si (1.0μm)/ (0.5 μm), and the diaphragm vibrations were excited by sound pressure. The top Al electrodes independently cover the peripheral surface and the central surface of the PZT diaphragm. The peripheral energy harvester generated a power of W, and the central energy harvester generated a power of W at an SPL of 100 dB at 9.95 kHz.

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Shuntaro Miyake

Helmholtz Resonator for Lead Zirconate Titanate Acoustic Energy Harvester

Inhibition of mitochondrial complex III or dihydroorotate dehydrogenase (DHODH) triggers formation of poly(A) ⁺ RNA foci adjacent to nuclear speckles following activation of ATM (ataxia telangiectasia mutated)

Lead-Zirconate-Titanate Acoustic Energy Harvester Equipped with Sound-Collecting Helmholtz Resonator

Optimization of Electrode Structures of PZT Acoustic Energy Harvesters Fabricated on SOI Substrate

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About

Shuntaro Miyake

Helmholtz Resonator for Lead Zirconate Titanate Acoustic Energy Harvester

Inhibition of mitochondrial complex III or dihydroorotate dehydrogenase (DHODH) triggers formation of poly(A) + RNA foci adjacent to nuclear speckles following activation of ATM (ataxia telangiectasia mutated)

Lead-Zirconate-Titanate Acoustic Energy Harvester Equipped with Sound-Collecting Helmholtz Resonator

Optimization of Electrode Structures of PZT Acoustic Energy Harvesters Fabricated on SOI Substrate

Contact Info

Product

Resources

About

Inhibition of mitochondrial complex III or dihydroorotate dehydrogenase (DHODH) triggers formation of poly(A) ⁺ RNA foci adjacent to nuclear speckles following activation of ATM (ataxia telangiectasia mutated)