Suppr超能文献

早期分化的蘑菇形成真菌的比较基因组学为木质纤维素降解能力的起源提供了见解。

Comparative Genomics of Early-Diverging Mushroom-Forming Fungi Provides Insights into the Origins of Lignocellulose Decay Capabilities.

作者信息

Nagy László G, Riley Robert, Tritt Andrew, Adam Catherine, Daum Chris, Floudas Dimitrios, Sun Hui, Yadav Jagjit S, Pangilinan Jasmyn, Larsson Karl-Henrik, Matsuura Kenji, Barry Kerrie, Labutti Kurt, Kuo Rita, Ohm Robin A, Bhattacharya Sukanta S, Shirouzu Takashi, Yoshinaga Yuko, Martin Francis M, Grigoriev Igor V, Hibbett David S

机构信息

Synthetic and Systems Biology Unit, Institute of Biochemistry, BRC-HAS, Szeged, Hungary

US Department of Energy (DOE) Joint Genome Institute, Walnut Creek, CA.

出版信息

Mol Biol Evol. 2016 Apr;33(4):959-70. doi: 10.1093/molbev/msv337. Epub 2015 Dec 10.

Abstract

Evolution of lignocellulose decomposition was one of the most ecologically important innovations in fungi. White-rot fungi in the Agaricomycetes (mushrooms and relatives) are the most effective microorganisms in degrading both cellulose and lignin components of woody plant cell walls (PCW). However, the precise evolutionary origins of lignocellulose decomposition are poorly understood, largely because certain early-diverging clades of Agaricomycetes and its sister group, the Dacrymycetes, have yet to be sampled, or have been undersampled, in comparative genomic studies. Here, we present new genome sequences of ten saprotrophic fungi, including members of the Dacrymycetes and early-diverging clades of Agaricomycetes (Cantharellales, Sebacinales, Auriculariales, and Trechisporales), which we use to refine the origins and evolutionary history of the enzymatic toolkit of lignocellulose decomposition. We reconstructed the origin of ligninolytic enzymes, focusing on class II peroxidases (AA2), as well as enzymes that attack crystalline cellulose. Despite previous reports of white rot appearing as early as the Dacrymycetes, our results suggest that white-rot fungi evolved later in the Agaricomycetes, with the first class II peroxidases reconstructed in the ancestor of the Auriculariales and residual Agaricomycetes. The exemplars of the most ancient clades of Agaricomycetes that we sampled all lack class II peroxidases, and are thus concluded to use a combination of plesiomorphic and derived PCW degrading enzymes that predate the evolution of white rot.

摘要

木质纤维素分解的进化是真菌中最重要的生态创新之一。伞菌纲(蘑菇及其亲缘类群)中的白腐真菌是降解木本植物细胞壁(PCW)中纤维素和木质素成分最有效的微生物。然而,木质纤维素分解的确切进化起源却知之甚少,这主要是因为在比较基因组研究中,伞菌纲及其姐妹类群革菌纲的某些早期分化分支尚未被采样,或者采样不足。在这里,我们展示了十种腐生真菌的新基因组序列,包括革菌纲的成员以及伞菌纲的早期分化分支(鸡油菌目、座担菌目、木耳目和齿孔菌目),我们用这些序列来完善木质纤维素分解酶工具包的起源和进化历史。我们重建了木质素分解酶的起源,重点关注II类过氧化物酶(AA2)以及攻击结晶纤维素的酶。尽管之前有报道称早在革菌纲就出现了白腐现象,但我们的结果表明白腐真菌是在伞菌纲中较晚进化出来的,最早的II类过氧化物酶是在木耳目和剩余伞菌纲的共同祖先中重建的。我们采样的伞菌纲最古老分支的代表都缺乏II类过氧化物酶,因此可以得出结论,它们使用的是在白腐进化之前就存在的多形性和衍生PCW降解酶的组合。

文献AI研究员

20分钟写一篇综述,助力文献阅读效率提升50倍。

立即体验

用中文搜PubMed

大模型驱动的PubMed中文搜索引擎

马上搜索

文档翻译

学术文献翻译模型,支持多种主流文档格式。

立即体验