比较子囊菌(毛霉菌)和担子菌(灵芝)的木质纤维素酶和 CAZymes:蛋白质组学方法

Akshay Shankar, Kavish Kumar Jain, Ramesh Chander Kuhad, Krishna Kant Sharma
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引用次数: 0

摘要

木材分解子囊菌和担子菌属真菌是地球生态系统中最有价值的循环碳源微生物;因此,它们对生物炼制工业至关重要。为了了解酶及其在真菌系统中的代谢途径的稳健性,对总蛋白进行了无标记定量。这些真菌显示出相当数量的蛋白质丰度[Trichoderma citrinoviride (285), Thermoascus aurantiacus (206), Ganoderma lucidum MDU-7 (102), G. lucidum(242)]。对子囊菌和担子菌的差异表达蛋白进行分析,利用归一化肽谱匹配(pms)和log2倍变化,绘制出它们的热图,显示出了上调和下调的蛋白[T. citrinoviride(上调8.62%,下调91.37%)和G. lucidum(上调5.74%,下调94.25%)中25个差异表达蛋白]。这些蛋白与糖苷水解酶(GH家族)、糖结合模块(CBM家族)等碳水化合物活性酶家族(CAZymes)相似,具有辅助活性,也参与碳水化合物、木素、木聚糖、多糖、多肽的水解和氧化还原酶活性,有助于抗氧化防御机制。来自真菌和蛋白质组学研究的两个不同部门的木质纤维素水解酶使人们更好地了解碳循环和多产品木质纤维素生物炼制过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of lignocellulosic enzymes and CAZymes between ascomycetes (Trichoderma) and basidiomycetes (Ganoderma) species: a proteomic approach
Wood decomposing ascomycetes and basidiomycetes group of fungi are the most valuable microbes on the earth’s ecosystem that recycles the source of carbon; therefore, they are essential for the biorefinery industries. To understand the robustness of the enzymes and their metabolic pathways in the fungal system, label-free quantification of the total proteins was performed. The fungi showed a comparable quantity of protein abundance [Trichoderma citrinoviride (285), Thermoascus aurantiacus (206), Ganoderma lucidum MDU-7 (102), G. lucidum (242)]. Differentially regulated proteins of ascomycetes and basidiomycetes were analyzed, and their heatmap shows upregulated and downregulated proteins [25 differentially expressed proteins in T. citrinoviride (8.62 % up-regulated and 91.37 % down-regulated) and G. lucidum (5.74 % up-regulated and 94.25 % down-regulated)] by using the normalized peptide-spectrum match (PSMs) and log2fold change. These proteins were similarly matched to the carbohydrate active enzymes family (CAZymes) like glycoside hydrolase (GH family), carbohydrate-binding module (CBM family) with auxiliary activities, and also involved in the hydrolysis of carbohydrate, lignin, xylan, polysaccharides, peptides, and oxido-reductase activity that helps in antioxidant defense mechanism. The lignocellulolytic enzymes from two different divisions of fungi and proteomics studies gave a better understanding of carbon recycling and multi-product lignocellulosic biorefinery processes.
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