Scrutinizing harsh habitats endophytic fungi and their prospective effect on water-stressed maize seedlings.

IF 2.3 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Gehad A El-Nahas, Mohsen E Ibrahim, Zakaria A M Baka, Ali H Ibrahim
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引用次数: 0

Abstract

Drought constitutes a significant abiotic stressor that hinders plant growth and productivity in many countries. Habitat-adapted endophytic fungi offer an environmentally sustainable approach to address this issue by promoting plant development and enhancing resilience against abiotic stresses. In this study, 30 endophytic fungal isolates were recovered from some wild plants in the extreme habitats of Port Said Governorate, Egypt, and evaluated for their drought tolerance using polyethylene glycol (PEG-6000). Only eight isolates demonstrated drought tolerance properties and were further evaluated for their plant growth-promoting biochemical activities and ability to improve maize germination under simulated drought conditions. All eight isolates exhibited enzyme activity for endo-1,4-β-glucanase, amylase, and pectinase, and most displayed significant nutrient mobilization, with siderophores production ranging from 4 to 89%, ammonia production from 1 to 7 μmol/ml, and phosphate solubilization from 129 to 256 µg/ml. Additionally, all isolates showed strong antioxidant activity and high total phenolic content, with some also producing notable levels of indole acetic acid (IAA) and gibberellic acid (GA3) as plant growth hormones. Coating maize grains with spore suspensions of the eight fungal isolates, in general, significantly increased their germination parameters and seedling vigor in vitro under 8% PEG-6000. This enhancement was particularly pronounced with Neurospora sitophila (P8L4M1) and Penicillium tardochrysogenum (P15L4M1), which increased the vigor of maize seedlings by approximately 308% compared to untreated control. Molecular identification of P8L4M1 and P15L4M1 was performed by amplifying the 28S rRNA gene. This study disclosed unique endophytic fungal isolates with promising potential for enhancing drought resistance in maize.

研究生境恶劣的内生真菌及其对水胁迫玉米幼苗的影响。
在许多国家,干旱是阻碍植物生长和生产力的重要非生物胁迫因素。与栖息地相适应的内生真菌通过促进植物生长和增强对非生物胁迫的恢复能力,为解决这一问题提供了一种环境可持续发展的方法。本研究从埃及塞得港省一些野生植物的极端栖息地中分离出 30 个内生真菌,并使用聚乙二醇(PEG-6000)对其耐旱性进行了评估。只有八个分离物表现出耐旱性,并进一步评估了它们在模拟干旱条件下促进植物生长的生化活性和提高玉米发芽率的能力。所有八个分离株都表现出了内-1,4-β-葡聚糖酶、淀粉酶和果胶酶的酶活性,大多数分离株都表现出了显著的养分动员能力,苷元产量从 4% 到 89%不等,氨产量从 1 μmol/ml 到 7 μmol/ml不等,磷酸盐溶解度从 129 微克/毫升到 256 微克/毫升不等。此外,所有分离菌株都表现出很强的抗氧化活性和很高的总酚含量,其中一些还能产生显著水平的吲哚乙酸(IAA)和赤霉素(GA3)等植物生长激素。一般来说,在 8% 的 PEG-6000 条件下,用八种真菌分离物的孢子悬浮液涂覆玉米粒可显著提高其发芽参数和离体幼苗活力。嗜坐果神经孢子菌(P8L4M1)和跗关节青霉(P15L4M1)的这种提高尤为明显,与未经处理的对照组相比,它们使玉米幼苗的活力提高了约 308%。通过扩增 28S rRNA 基因,对 P8L4M1 和 P15L4M1 进行了分子鉴定。这项研究揭示了独特的内生真菌分离物,它们在提高玉米抗旱性方面具有广阔的前景。
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来源期刊
International Microbiology
International Microbiology 生物-生物工程与应用微生物
CiteScore
5.50
自引率
3.20%
发文量
67
审稿时长
3 months
期刊介绍: International Microbiology publishes information on basic and applied microbiology for a worldwide readership. The journal publishes articles and short reviews based on original research, articles about microbiologists and their work and questions related to the history and sociology of this science. Also offered are perspectives, opinion, book reviews and editorials. A distinguishing feature of International Microbiology is its broadening of the term microbiology to include eukaryotic microorganisms.
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