基于基因组分析揭示木材腐朽真菌的起源和多样性

IF 0.1 4区农林科学 Q4 MATERIALS SCIENCE, PAPER & WOOD Mokuzai Gakkaishi Pub Date : 2019-10-25 DOI:10.2488/jwrs.65.173

C. Hori, Makoto Yoshida, K. Igarashi, M. Samejima

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引用次数: 0

摘要

木材腐朽真菌能够有效地分解和代谢由纤维素、半纤维素和木质素组成的难降解植物细胞壁。它们独特的降解过程和相关酶已被广泛研究用于各种工业和环境应用。DNA测序技术和信息学的最新进展已经公开了250多个真菌基因组，并使比较组学分析能够提供关于真菌木材降解过程多样性及其起源和进化的新见解。本文首先概述了木材腐朽类型和相关酶的研究背景，然后对目前比较基因组分析中揭示的白腐真菌和褐腐真菌降解木材多样性的分子机制提出了新的见解。此外，基于分子钟分析，讨论了木材腐朽真菌的起源和进化。

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Origin and Diversity of Wood Decay Fungi Revealed by Genome-Based Analyses

Wood decay fungi can efficiently decompose and metabolize recalcitrant plant cell walls, which consist of cellulose, hemicellulose and lignin. Their unique degradation processes and related enzymes have been extensively studied toward various industrial and environmental applications. The recent advances in DNA sequencing technologies and informatics have made more than 250 fungal genomes publicly available, and enabled comparative omics analyses to provide new insights regarding diversity of fungal wood degradation processes, their origins and evolutions. In this review, at first, the background of wood decay types and related enzymes was summarized, and then new insights on the molecular mechanism of the diversity of wood degradation by both white-rot and brown-rot fungi as disclosed from the current comparative genome analyses were presented. Moreover, the origin and evolutions of wood decay fungi based on molecular clock analyses were discussed.

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