食用菌(蘑菇门)子实体和菌丝体的亲水性代谢产物组成。

Rao-Chi Chien, Shin-Yu Chen, Darya O Mishchuk, Carolyn M Slupsky
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引用次数: 0

摘要

蘑菇有两个组成部分,子实体,包括茎和菌盖,菌丝体,在地下支撑子实体。蘑菇最常食用的部分是子实体。鉴于收获子实体比单纯收获菌丝体更耗时,我们有兴趣了解台湾四种广泛食用的蘑菇的子实体和菌丝体之间代谢产物含量的差异:圆柱菇(AC)、鸡腿菇(CC)、猴头菇(HE)和马齿菇(HM)。我们使用1H NMR光谱总共鉴定了54种极性代谢物,包括糖醇、氨基酸、有机酸、核苷和嘌呤/嘧啶衍生物、糖等。一般来说,AC、CC和HM的子实体比其相应的菌丝体含有更高量的必需氨基酸。在子实体中,HE的必需氨基酸含量最低。在大多数样品中,海藻糖是主要的碳水化合物,除了AC的菌丝体,其中主要的糖是葡萄糖。样品中腺苷、尿苷和黄嘌呤的含量相似,除HM外,子实体中的含量高于菌丝体。子实体和菌丝体之间的有机酸和糖醇含量没有差异。尽管每种蘑菇都有独特的代谢谱,但CC和HE的子实体和菌丝体的代谢谱最相似,这表明CC和HE菌丝体可能是其相应子实体的良好替代品。此外,每种蘑菇都有一个独特的极性代谢产物指纹,可用于识别掺假。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrophilic Metabolite Composition of Fruiting Bodies and Mycelia of Edible Mushroom Species (Agaricomycetes).

Mushrooms have two components, the fruiting body, which encompasses the stalk and the cap, and the mycelium, which supports the fruiting body underground. The part of the mushroom most commonly consumed is the fruiting body. Given that it is more time consuming to harvest the fruiting body versus simply the mycelia, we were interested in understanding the difference in metabolite content between the fruiting bodies and mycelia of four widely consumed mushrooms in Taiwan: Agrocybe cylindracea (AC), Coprinus comatus (CC), Hericium erinaceus (HE), and Hypsizygus marmoreus (HM). In total, we identified 54 polar metabolites using 1H NMR spectroscopy that included sugar alcohols, amino acids, organic acids, nucleosides and purine/pyrimidine derivatives, sugars, and others. Generally, the fruiting bodies of AC, CC, and HM contained higher amounts of essential amino acids than their corresponding mycelia. Among fruiting bodies, HE had the lowest essential amino acid content. Trehalose was the predominant carbohydrate in most samples except for the mycelia of AC, in which the major sugar was glucose. The amount of adenosine, uridine, and xanthine in the samples was similar, and was higher in fruiting bodies compared with mycelia, except for HM. The organic acid and sugar alcohol content between fruiting bodies and mycelia did not tend to be different. Although each mushroom had a unique metabolic profile, the metabolic profile of fruiting bodies and mycelia were most similar for CC and HE, suggesting that the mycelia of CC and HE may be good replacements for their corresponding fruiting bodies. Additionally, each mushroom species had a unique polar metabolite fingerprint, which could be utilized to identify adulteration.

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