Kana Hashimoto scite author profile

Ab initio calculations at the level of CBS-QB3 theory have been performed to investigate the potential energy surface for the reaction of benzyl radical with molecular oxygen. The reaction is shown to proceed with an exothermic barrierless addition of O2 to the benzyl radical to form benzylperoxy radical (2). The benzylperoxy radical was found to have three dissociation channels, giving benzaldehyde (4) and OH radical through the four-centered transition states (channel B), giving benzyl hydroperoxide (5) through the six-centered transition states (channel C), and giving O2-adduct (8) through the four-centered transition states (channel D), in addition to the backward reaction forming benzyl radical and O2 (channel E). The master equation analysis suggested that the rate constant for the backward reaction (E) of C6H5CH2OO-->C6H5CH2+O2 was several orders of magnitude higher that those for the product dissociation channels (B-D) for temperatures 300-1500 K and pressures 0.1-10 atm; therefore, it was also suggested that the dissociation of benzylperoxy radicals proceeded with the partial equilibrium between the benzyl+O2 and benzylperoxy radicals. The rate constants for product channels B-D were also calculated, and it was found that the rate constant for each dissociation reaction pathway was higher in the order of channel D>channel C>channel B for all temperature and pressure ranges. The rate constants for the reaction of benzyl+O2 were computed from the equilibrium constant and from the predicted rate constant for the backward reaction (E). Finally, the product branching ratios forming CH2O molecules and OH radicals formed by the reaction of benzyl+O2 were also calculated using the stationary state approximation for each reaction intermediate.

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Carbon dioxide recovery from carbonate solutions using bipolar membrane electrodialysis

Iizuka

Hashimoto

Nagasawa

et al. 2012

Separation and Purification Technology

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Functional Characterization of the Bombyx mori Fatty Acid Transport Protein (BmFATP) within the Silkmoth Pheromone Gland

Ohnishi

Hashimoto

Imai

et al. 2009

Journal of Biological Chemistry

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Fatty acid transport protein (FATP) is an evolutionarily conserved membrane-bound protein that facilitates the uptake of extracellular long chain fatty acids. In humans and mice, six FATP isoforms have been identified and their tissue-specific distributions suggest that each plays a discrete role in lipid metabolism in association with fatty acid uptake. While the presence of FATP homologs in insects has been demonstrated, their functional role remains to be characterized. Pheromonogenesis is defined as the dynamic period in which all machinery required for sex pheromone biosynthesis is generated and organized within the pheromone gland (PG) cells. By exploiting this unique system in the PG of the silkmoth, Bombyx mori, we found that BmFATP is predominantly expressed in the PG and undergoes up-regulation 1 day prior to eclosion. Before eclosion, B. mori PG cells accumulate cytoplasmic lipid droplets (LDs), which play a role in storing the pheromone (bombykol) precursor fatty acid in the form of triacylglycerol. RNAi-mediated gene silencing of BmFATP in vivo significantly suppressed LD accumulation by preventing the synthesis of triacylglycerols and resulted in a significant reduction in bombykol production. These results, in conjunction with the findings that BmFATP stimulates the uptake of extracellular long-chain fatty acids and BmFATP knockdown reduces cellular long-chain acyl-CoA synthetase activity, suggest that BmFATP plays an essential role in bombykol biosynthesis by stimulating both LD accumulation and triacylglycerol synthesis via a process called vectorial acylation that couples the uptake of extracellular fatty acids with activation to CoA thioesters during pheromonogenesis.

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Kana Hashimoto

Theoretical Study of the Benzyl + O₂Reaction: Kinetics, Mechanism, and Product Branching Ratios

Carbon dioxide recovery from carbonate solutions using bipolar membrane electrodialysis

Functional Characterization of the Bombyx mori Fatty Acid Transport Protein (BmFATP) within the Silkmoth Pheromone Gland

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About

Kana Hashimoto

Theoretical Study of the Benzyl + O2Reaction: Kinetics, Mechanism, and Product Branching Ratios

Carbon dioxide recovery from carbonate solutions using bipolar membrane electrodialysis

Functional Characterization of the Bombyx mori Fatty Acid Transport Protein (BmFATP) within the Silkmoth Pheromone Gland

Contact Info

Product

Resources

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Theoretical Study of the Benzyl + O₂Reaction: Kinetics, Mechanism, and Product Branching Ratios