通过种植特定物种提升葡萄渣用于酶和子实体的生产

Upgrading Grape Pomace through spp. Cultivation for the Production of Enzymes and Fruiting Bodies.

作者信息

Papadaki Aikaterini, Kachrimanidou Vasiliki, Papanikolaou Seraphim, Philippoussis Antonios, Diamantopoulou Panagiota

机构信息

Laboratory of Edible Fungi, Institute of Technology of Agricultural Products (ITAP), Hellenic Agricultural Organization-Demeter, 1 Sofokli Venizelou Street, 14123 -Lykovryssi, 14123 Attiki, Greece.

Department of Food Science & Human Nutrition, Agricultural University of Athens, Iera Odos 75, 11855 Athens, Greece.

出版信息

Microorganisms. 2019 Jul 21;7(7):207. doi: 10.3390/microorganisms7070207.

DOI:10.3390/microorganisms7070207

PMID:31330906

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6680548/

Abstract

Grape pomace, a by-product derived from winery industries, was used as fermentation media for the production of added-value products through the cultivation of two species. Solid-state (SSF), semiliquid (SLF), and submerged (SmF) fermentations were carried out using grape pomace as substrate. The effect of the different fermentations on the consumption of phenolic compounds, the production of mycelial mass and enzymes was evaluated using and . The production of fungal biomass and enzymes was influenced by the fermentation mode. The maximum biomass values of ~0.5 g/g were obtained for both and in SmF. Laccase production was induced in SSF and a maximum activity of 26.247 U/g was determined for , whereas the highest endoglucanase activity (0.93 U/g) was obtained in the SmF of the same fungi. Analysis of phenolic compounds showed that both strains were able to degrade up to 79% of total phenolic content, regardless the culture conditions. Grape pomace was also evaluated as substrate for mushroom production. recorded the highest yield and biological efficiency of 14.4% and 31.4%, respectively. This study showed that mushroom cultivation could upgrade winery by-products towards the production of valuable food products.

摘要

葡萄渣是葡萄酒酿造工业的一种副产品，通过两种菌种的培养被用作发酵培养基来生产高附加值产品。以葡萄渣为底物进行固态发酵（SSF）、半液态发酵（SLF）和深层发酵（SmF）。使用[具体方法1]和[具体方法2]评估了不同发酵方式对酚类化合物消耗、菌丝体质量和酶产量的影响。真菌生物量和酶的产量受发酵方式影响。在深层发酵中，[两种菌种名称1]和[两种菌种名称2]的最大生物量值均达到约0.5 g/g。固态发酵诱导了漆酶的产生，[菌种名称1]的漆酶最大活性为26.247 U/g，而同一真菌在深层发酵中内切葡聚糖酶活性最高（0.93 U/g）。酚类化合物分析表明，无论培养条件如何，两种菌株都能降解高达79%的总酚含量。葡萄渣也被评估为蘑菇生产的底物。[蘑菇名称]的产量和生物学效率最高，分别为14.4%和31.4%。这项研究表明，蘑菇栽培可以将葡萄酒厂副产品升级为有价值的食品生产。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9847/6680548/8b556371a103/microorganisms-07-00207-g001.jpg

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通过种植特定物种提升葡萄渣用于酶和子实体的生产

Upgrading Grape Pomace through spp. Cultivation for the Production of Enzymes and Fruiting Bodies.

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