Transcriptomic Insights into Abies koreana Drought Tolerance Conferred by Aureobasidium pullulans AK10.

IF 1.8 3区 农林科学 Q2 PLANT SCIENCES
Jungwook Park, Mohamed Mannaa, Gil Han, Hyejung Jung, Hyo Seong Jeon, Jin-Cheol Kim, Ae Ran Park, Young-Su Seo
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引用次数: 0

Abstract

The conservation of the endangered Korean fir, Abies koreana, is of critical ecological importance. In our previous study, a yeast-like fungus identified as Aureobasidium pullulans AK10, was isolated and shown to enhance drought tolerance in A. koreana seedlings. In this study, the effectiveness of Au. pullulans AK10 treatment in enhancing drought tolerance in A. koreana was confirmed. Furthermore, using transcriptome analysis, we compared A. koreana seedlings treated with Au. pullulans AK10 to untreated controls under drought conditions to elucidate the molecular responses involved in increased drought tolerance. Our findings revealed a predominance of downregulated genes in the treated seedlings, suggesting a strategic reallocation of resources to enhance stress defense. Further exploration of enriched Kyoto Encyclopedia of Genes and Genomes pathways and protein-protein interaction networks revealed significant alterations in functional systems known to fortify drought tolerance, including the terpenoid backbone biosynthesis, calcium signaling pathway, pyruvate metabolism, brassinosteroid biosynthesis, and, crucially, flavonoid biosynthesis, renowned for enhancing plant drought resistance. These findings deepen our comprehension of how AK10 biostimulation enhances the resilience of A. koreana to drought stress, marking a substantial advancement in the effort to conserve this endangered tree species through environmentally sustainable treatment.

Aureobasidium pullulans AK10 对韩国赤松耐旱性的转录组学启示。
保护濒危的韩国冷杉(Abies koreana)对生态至关重要。在我们之前的研究中,分离出了一种类似酵母的真菌--Aureobasidium pullulans AK10,并证明它能增强韩国冷杉幼苗的耐旱性。在本研究中,Au. pullulans AK10 处理在增强朝鲜楤木耐旱性方面的有效性得到了证实。此外,我们还利用转录组分析,比较了在干旱条件下使用 Au. pullulans AK10 处理的朝鲜楤木幼苗与未处理的对照,以阐明耐旱性增强所涉及的分子反应。我们的研究结果表明,在处理过的幼苗中,下调基因占主导地位,这表明对资源进行了战略性的重新分配,以增强抗逆性。对富集的《京都基因与基因组百科全书》通路和蛋白质-蛋白质相互作用网络的进一步探索发现,已知能增强耐旱性的功能系统发生了显著变化,包括萜类骨架生物合成、钙信号通路、丙酮酸代谢、类黄铜素生物合成,以及关键的类黄酮生物合成,而类黄酮在增强植物抗旱性方面享有盛誉。这些发现加深了我们对 AK10 生物刺激如何增强朝鲜杉抗旱能力的理解,标志着通过环境可持续处理来保护这一濒危树种的努力取得了重大进展。
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来源期刊
Plant Pathology Journal
Plant Pathology Journal 生物-植物科学
CiteScore
4.90
自引率
4.30%
发文量
71
审稿时长
12 months
期刊介绍: Information not localized
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