Transcriptome Analysis of Dryadomyces quercus-mongolicae, a Fungus Associated with Korean Oak Wilt Disease that Causes Oak Mortality in South Korea.

IF 1.8 3区农林科学 Q2 PLANT SCIENCES

Plant Pathology Journal Pub Date : 2025-06-01 DOI:10.5423/PPJ.NT.08.2024.0120

Hyowon Park, Jorge R Ibarra Caballero, Jane E Stewart, Ned B Klopfenstein, Uk Lee, Mee-Sook Kim

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Abstract

Korean oak wilt disease associated with Dryadomyces quercus-mongolicae recently emerged as a major tree disease in South Korea. A comprehensive transcriptome analysis is presented for D. quercus-mongolicae grown in vitro on three different culture media, identifying nearly 7,000 expressed transcripts. Most transcripts are associated with proteins essential for fungal survival and growth. The 40S ribosomal protein S25, ceramide very long chain fatty acid hydroxylase, Epl1 protein, and ADP/ATP translocase are particularly important due to their critical roles in the metabolism and environmental adaptation of fungi. Gene ontology analyses revealed that 39.4%, 61.2%, and 43.3% of transcripts were successfully annotated to biological process, molecular functions, and cellular component aspects, respectively. Furthermore, key metabolic pathways were elucidated, including sphingolipid metabolism, L-tryptophan biosynthesis, and glycolysis, which provide important information on physiological functioning of D. quercus-mongolicae. Overall, these findings provide key information on fundamental biological mechanisms of D. quercus-mongolicae.

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与导致韩国橡树死亡的韩国栎树枯萎病相关的真菌——蒙古栎树枯萎菌的转录组分析

与蒙古栎霉菌相关的韩国栎树枯萎病最近成为韩国主要的树木病害。对三种不同培养基上生长的蒙古栎进行了全面的转录组分析，鉴定出近7000个表达转录本。大多数转录本与真菌生存和生长所必需的蛋白质有关。40S核糖体蛋白S25、神经酰胺长链脂肪酸羟化酶、Epl1蛋白和ADP/ATP转座酶在真菌的代谢和环境适应中起着至关重要的作用。基因本体分析显示，39.4%、61.2%和43.3%的转录本分别被成功标注为生物过程、分子功能和细胞成分。此外，还阐明了蒙古栎的鞘脂代谢、l -色氨酸生物合成和糖酵解等关键代谢途径，为蒙古栎的生理功能研究提供了重要信息。综上所述，这些发现为研究蒙古栎病的基本生物学机制提供了重要信息。

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