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Neuronal cell protective effects of phenolic compounds derived from steam exploded nematode-infected pine

Pine wilt disease is one of the most serious forest diseases that kills pine trees. Most of the nematode-infected pines are fumigated or locally incinerated and are thus not appropriately utilized. This study explored methods to utilize abandoned nematode-infected pines. The chemical compositions of...

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Published in:	Bioresources 2024-08, Vol.19 (3), p.4749-4762
Main Authors:	Jung, J Y, Yang, S Y H, Yang, J.-K.
Format:	Article
Language:	English
Subjects:	Acids Apoptosis Cell death Chemical composition Chemical compounds Chemical damage Composition effects Disease Ethanol Explosions Health care Health services Lignin Nematodes Neurodegeneration Neuroprotection Particle size phenolic compound Phenolic compounds Phenols Phytochemicals Pine Pine trees pine wilt disease pinus densiflora Raw materials steam explosion Steam explosions Temperature Wilt
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description	Pine wilt disease is one of the most serious forest diseases that kills pine trees. Most of the nematode-infected pines are fumigated or locally incinerated and are thus not appropriately utilized. This study explored methods to utilize abandoned nematode-infected pines. The chemical compositions of healthy and nematode-infected pines were analyzed, and the neuroprotective effects of phenolic compounds extracted after steam explosion treatment were investigated. In terms of chemical composition, the nematode-infected pine chips suffered more damage from the steam explosion treatment than the healthy pine chips. In addition, the total phenolic compound content showed a clear difference depending on the presence of infection and steam explosion conditions. The maximum total phenolic compound content of extracted ethanol was found when the nematode-infected pine chip was subjected to steam explosion with a severity factor (Ro) of 3.82. The steam exploded pine extract of 10 μg/mL inhibited glutamate-induced early apoptotic cell death compared to cells treated with 10 mM glutamate alone. These results suggested that steam-exploded pine can be used as an effective natural material for neuronal cell protection.
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subjects	Acids Apoptosis Cell death Chemical composition Chemical compounds Chemical damage Composition effects Disease Ethanol Explosions Health care Health services Lignin Nematodes Neurodegeneration Neuroprotection Particle size phenolic compound Phenolic compounds Phenols Phytochemicals Pine Pine trees pine wilt disease pinus densiflora Raw materials steam explosion Steam explosions Temperature Wilt
title	Neuronal cell protective effects of phenolic compounds derived from steam exploded nematode-infected pine
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