Hydrolytic Enzymes in the Secretome of the Mushrooms <i>P. eryngii</i> and <i>P. ostreatus</i>: A Comparison Between the Two Species

Hydrolytic Enzymes in the Secretome of the Mushrooms <i>P. eryngii</i> and <i>P. ostreatus</i>: A Comparison Between the Two Species

The fungi belonging to the genus <i>Pleurotus</i> can be cultivated in different substrates and represent excellent producers of several extracellular enzymes. In this study, we analyzed eleven hydrolytic enzymes of the <i>P. eryngii</i> and <i>P. ostreatus</i> se...

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Main Authors: Tania Petraglia, Tiziana Latronico, Grazia Maria Liuzzi, Angela Fanigliulo, Aniello Crescenzi, Rocco Rossano
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Molecules
Subjects:
mushroom substrate
hydrolytic enzymes
secretome
mushroom cultivation
cellulases
hemicellulases
Online Access:https://www.mdpi.com/1420-3049/30/12/2505
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Summary:The fungi belonging to the genus <i>Pleurotus</i> can be cultivated in different substrates and represent excellent producers of several extracellular enzymes. In this study, we analyzed eleven hydrolytic enzymes of the <i>P. eryngii</i> and <i>P. ostreatus</i> secretomes, which were collected at three different growth stages after 23 days (mycelial colonization of about 50% of the substrate), 34 days (100% colonization of the substrate) and 50 days (after the first flush). Mushrooms were axenically cultivated on the same substrate. The results demonstrate that proteases, lipases, amylases, α-glucosidase, cellulases (endoglucanase, β-cellobiohydrolase and β-glucosidase) and hemicellulase (xylosidase, glucuronidase, arabinosidase and mannosidase) activities were higher in the secretomes from <i>P. eryngii</i> than those from <i>P. ostreatus</i>. Time course analysis revealed for both species a similar enzymatic activity profile, in which in the early stages of mycelium development, both species use starch as the main carbon source. Protease and lipase activities increased and remained constant during the subsequent formation of fruiting bodies, whereas cellulase and hemicellulase activities decreased after the complete mycelial colonization of the substrate. The zymographic analysis suggested the presence in the secretomes of proteolytic activities belonging to different classes. In conclusion, both mushroom species released into the secretomes a broad spectrum of hydrolytic enzymes potentially useful in various biotechnological fields.
ISSN:1420-3049

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