Non-thermal atmospheric-pressure plasma promotes cellulase production in Neurospora crassa
Nan-Nan Yu, Wirinthip Ketya, Kirubel Amsalu, Jun-Sup Lim, Hu-Nan Sun, Eun-Ha Choi, Gyungsoon Park

TL;DR
Non-thermal plasma treatment increases cellulase production in Neurospora crassa, offering a potential industrial application for enzyme production.
Contribution
This study demonstrates that micro-surface dielectric barrier discharge plasma can enhance cellulase production in Neurospora crassa.
Findings
MS-DBD plasma treatment increased cellulase activity by up to 10.41 ± 3.44%.
Plasma treatment elevated transcription levels of cellulase genes and intracellular Ca2+ and NO levels.
Plasma-mediated enhancement occurs at energies below 500–600 J and can be applied to bioreactors.
Abstract
Microorganisms, particularly filamentous fungi, have become the dominant platforms for industrial enzyme production due to their rapid growth, low cost, and adaptability. However, current production technologies face limitations in yield and cost-efficiency, prompting the need for innovative enhancement strategies. Non-thermal atmospheric-pressure plasma has emerged as a promising tool for stimulating microbial enzyme production. In this study, we have employed micro-surface dielectric barrier discharge (MS-DBD) plasma, which operates in a completely different manner from jet plasma, and evaluated its potential for enhancing the production of cellulolytic enzymes in Neurospora crassa. The extracellular activity of cellulases increased (maximum 10.41 ± 3.44% increase) after MS-DBD plasma treatment. The transcription levels of the four cellulase genes were significantly elevated (highest…
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Taxonomy
TopicsPlasma Applications and Diagnostics · Microbial Inactivation Methods · Algal biology and biofuel production
