Utilization of Cyclodextrins by Trichoderma Species

The Open Chemical and Biomedical Methods Journal Pub Date : 2010-11-01 DOI:10.2174/1875038901003010090

Gyula Oros, A. Jakab, T. Cserháti

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引用次数: 2

Abstract

The growth and the development of thallus of 17 Trichoderma species have been determined by using native � -, � - and � -cyclodextrins (CDs) and 8 different CD derivatives as a unique carbon source. The majority of species can use CD for growth, this ability was related to their intragenic taxonomic position in order of sections Trichoderma > Longibrachiatum > Pachybasium > Saturnisporum T. reesei being the most and T. virens the least active. All CDs have been utilized but their nutritional value was significantly influenced by the chemical structure, the size of molecules had major importance than the flexibility of their rings. Among natural derivatives of CDs Trichodermas preferred the � - and � -CD prior to � -CD, when carboxylation led to reduction of the biodegradation of � - and � -CDs and enhanced that of � - CD. Methylation or polymerization of � -CD also modified its decomposition rate by considered Trichoderma species. As supported by applied a three-way principal components analysis (3D-PCA) the studied here Trichoderma species showed considerable deviations in their capacity to decompose CDs and the stability of CDs towards biodegradation was highly dependent on the chemical structure of CDs.

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木霉对环糊精的利用

以国产的“-”、“-”和“-”环糊精(CD)及8种不同的CD衍生物为碳源，对17种木霉的菌体生长发育进行了研究。大多数物种都能利用CD生长，这种能力与它们在基因内的分类位置有关，从片段顺序看，木霉(Trichoderma)、长尾蕨(Longibrachiatum)、厚叶蕨(Pachybasium)、土孢霉(Saturnisporum)最活跃，而绿叶蕨(T. virens)最不活跃。所有CDs都已被利用，但它们的营养价值受到化学结构的显著影响，分子的大小比其环的柔韧性更重要。在CD的天然衍生物中，木霉优先选择-和-CD，羧基化导致-和-CD的生物降解减少，并增强-CD的生物降解。甲基化或-CD的聚合也改变了被考虑的木霉的分解速度。应用三维主成分分析(3D-PCA)证实，木霉对cd的分解能力存在较大差异，cd的生物降解稳定性高度依赖于cd的化学结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Open Chemical and Biomedical Methods Journal

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