Quality and flavor development of solid-state fermented surimi with Actinomucor elegans: A perspective on the impacts of carbon and nitrogen sources

The influence of four carbon and nitrogen substrates on the quality and flavor of a novel surimi-based product fermented with Actinomucor elegans (A. elegans) was investigated, with a focus on carbon and nitrogen catabolite repression. The results showed that the substrate significantly affected myc...

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Veröffentlicht in:	Food chemistry 2024-07, Vol.447, p.139053-139053, Article 139053
Hauptverfasser:	Ding, Yicheng, He, Wenjia, Dai, Wangli, Xie, Xiaoben, Pan, Yibiao, Tang, Xiaoling, Zheng, Renchao, Zhou, Xuxia
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Sprache:	eng
Schlagworte:	Actinomucor elegans alpha-amylase Carbon Catabolite repression Endopeptidases enzyme activity Fermentation flavor food chemistry glucose Glutens metabolites Mucorales mycelium nitrogen odors protein degradation proteinases secretion Solid fermentation solid state fermentation soy protein starch Surimi Volatile compounds wheat gluten
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description	The influence of four carbon and nitrogen substrates on the quality and flavor of a novel surimi-based product fermented with Actinomucor elegans (A. elegans) was investigated, with a focus on carbon and nitrogen catabolite repression. The results showed that the substrate significantly affected mycelial growth, enzyme activities, and the metabolites of A. elegans. Although glucose significantly promoted A. elegans growth by 116.69%, it decreased enzyme secretion by 69.79% for α-amylase and 59.80% for protease, most likely by triggering the carbon catabolite repression pathway. Starch, soy protein, and wheat gluten substantially affected the textural properties of the fermented surimi. Furthermore, wheat gluten significantly promoted the protease activity (102.70%) and increased protein degradation during surimi fermentation. The fishy odor of surimi was alleviated through fermentation, and a correlation between the volatile compounds and A. elegans metabolism was observed. These results explore fermentation substrates in filamentous fungi metabolism from a catabolite repression perspective. •Influence of carbon and nitrogen sources on surimi fermentation was evaluated.•Glucose triggers carbon catabolite repression in A. elegans during fermentation.•Soy protein and wheat gluten promote protease secretion and protein degradation.•Glucose leads to higher production of alcohols and fatty aldehydes by A. elegans.•Corn starch raises α-amylase activity and affects carbon metabolism of A. elegans.
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These results explore fermentation substrates in filamentous fungi metabolism from a catabolite repression perspective. •Influence of carbon and nitrogen sources on surimi fermentation was evaluated.•Glucose triggers carbon catabolite repression in A. elegans during fermentation.•Soy protein and wheat gluten promote protease secretion and protein degradation.•Glucose leads to higher production of alcohols and fatty aldehydes by A. elegans.•Corn starch raises α-amylase activity and affects carbon metabolism of A. elegans.</description><identifier>ISSN: 0308-8146</identifier><identifier>EISSN: 1873-7072</identifier><identifier>DOI: 10.1016/j.foodchem.2024.139053</identifier><identifier>PMID: 38518616</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Actinomucor elegans ; alpha-amylase ; Carbon ; Catabolite repression ; Endopeptidases ; enzyme activity ; Fermentation ; flavor ; food chemistry ; glucose ; Glutens ; metabolites ; Mucorales ; mycelium ; nitrogen ; odors ; protein degradation ; proteinases ; secretion ; Solid fermentation ; solid state fermentation ; soy protein ; starch ; Surimi ; Volatile compounds ; wheat gluten</subject><ispartof>Food chemistry, 2024-07, Vol.447, p.139053-139053, Article 139053</ispartof><rights>2023</rights><rights>Copyright © 2023. 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The results showed that the substrate significantly affected mycelial growth, enzyme activities, and the metabolites of A. elegans. Although glucose significantly promoted A. elegans growth by 116.69%, it decreased enzyme secretion by 69.79% for α-amylase and 59.80% for protease, most likely by triggering the carbon catabolite repression pathway. Starch, soy protein, and wheat gluten substantially affected the textural properties of the fermented surimi. Furthermore, wheat gluten significantly promoted the protease activity (102.70%) and increased protein degradation during surimi fermentation. The fishy odor of surimi was alleviated through fermentation, and a correlation between the volatile compounds and A. elegans metabolism was observed. 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subjects	Actinomucor elegans alpha-amylase Carbon Catabolite repression Endopeptidases enzyme activity Fermentation flavor food chemistry glucose Glutens metabolites Mucorales mycelium nitrogen odors protein degradation proteinases secretion Solid fermentation solid state fermentation soy protein starch Surimi Volatile compounds wheat gluten
title	Quality and flavor development of solid-state fermented surimi with Actinomucor elegans: A perspective on the impacts of carbon and nitrogen sources
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