基因组学如何助力揭示内生真菌的进化历程。

How genomics can help unravel the evolution of endophytic fungi.

作者信息

Dos Reis Jefferson Brendon Almeida, Steindorff Andrei Stecca, Lorenzi Adriana Sturion, Pinho Danilo Batista, do Vale Helson Mario Martins, Pappas Georgios Joannis

机构信息

Department of Phytopathology, University of Brasília (UnB), Institute of Biological Sciences, Brasília, DF, Brazil.

US DOE Joint Genome Institute, Lawrence Berkeley National Laboratory, Berkeley, CA, 94720, USA.

出版信息

World J Microbiol Biotechnol. 2025 Apr 28;41(5):153. doi: 10.1007/s11274-025-04375-x.

DOI:10.1007/s11274-025-04375-x

PMID:40289066

Abstract

Endophytic fungi (EFs) form intimate associations with plants, residing within their tissues without causing apparent harm. Understanding the evolution of endophytic fungal genomes is essential for uncovering the mechanisms that drive their symbiotic relationships with host plants. This review explores the dynamic interactions between EFs and host plants, focusing on the evolutionary processes that shape their genomes. We highlighted key genomic adaptations promoting their endophytic lifestyle, including genes involved in plant cell wall degradation, secondary metabolite production, and stress tolerance. By combining genomic data with ecological and physiological information, this review provides a comprehensive understanding of the coevolutionary dynamics between EFs and host plants. Moreover, it provides insights that help elucidate the complex interdependencies governing their symbiotic interactions.

摘要

内生真菌（EFs）与植物形成紧密的联系，寄生于植物组织内而不造成明显损害。了解内生真菌基因组的进化对于揭示驱动其与宿主植物共生关系的机制至关重要。本综述探讨了内生真菌与宿主植物之间的动态相互作用，重点关注塑造其基因组的进化过程。我们强调了促进其内生生活方式的关键基因组适应性，包括参与植物细胞壁降解、次级代谢产物产生和胁迫耐受性的基因。通过将基因组数据与生态和生理信息相结合，本综述全面了解了内生真菌与宿主植物之间的共同进化动态。此外，它提供了有助于阐明控制其共生相互作用的复杂相互依赖关系的见解。

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基因组学如何助力揭示内生真菌的进化历程。

How genomics can help unravel the evolution of endophytic fungi.

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