内生真菌镰刀菌提取物促进寄主种子萌发和非寄主兰花原球茎发育。

Q2 Agricultural and Biological Sciences Communicative and Integrative Biology Pub Date : 2024-12-17 eCollection Date: 2025-01-01 DOI:10.1080/19420889.2024.2439798

Sujit Shah, Mukti Ram Paudel, Bir Bahadur Thapa, Harshita Sharma, Arun Kumar Kashyap, Bhagwan Narayan Rekadwad, Rohit Sharma, Jyotsna Sharma, Bijaya Pant

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引用次数: 0

摘要

从石斛的健康根、茎和叶中分离内生镰刀菌菌株，研究其体外促生活性。随后，我们对吲哚乙酸（IAA）进行了定量分析，并对真菌中负责IAA合成的iam基因进行了扩增和测序。最后，对石斛种子进行萌发试验，对石斛原球茎进行植物生长试验，考察其促进植物生长的活性。本研究共分离到5株镰刀菌（CDS11、PDL1、PDL3、PDR6、PDR7）。PDR7提取物中吲哚乙酸含量最高（60µgml-1），而PDR6和CDS11提取物中未检测到吲哚乙酸。分离菌株PDR6和PDR7的真菌提取物对寄主植物的种子萌发率分别约为80%和90%。PDR7真菌提取物具有较高的IAA含量，能促进寄主（D. moschatum）的离体种子萌发和非寄主（D. longicornu）的原球茎发育。相比之下，PDR6真菌提取物中IAA含量未检测到，但对种子萌发和原球茎发育均有影响。结果表明，内生镰刀菌在兰花群体繁殖中具有潜在的有益应用前景。

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Extract from endophytic Fusarium isolates stimulates seed germination of the host and protocorm development of non-host orchids.

We isolated endophytic Fusarium strains from the healthy roots, stems, and leaves of Dendrobium moschatum to investigate their plant growth-promoting activities in vitro. Subsequently, Indole acetic acid (IAA) was quantified and the IaaM gene (responsible for IAA synthesis in fungi) was amplified and sequenced. Finally, a germination assay was performed with seeds of D. moschatum and a plant growth assay with protocorms of Dendrobium longicornu to test their plant growth-promoting activities. Five Fusarium isolates (CDS11, PDL1, PDL3, PDR6, PDR7) were identified in this study. The highest amount (60µgml^-1) of indole acetic acid was recorded in the PDR7 extract, whereas it was not detected in PDR6 and CDS11. The fungal extracts of isolates PDR6 and PDR7 were highly effective for seed germination by approximately 80% and 90% (respectively) of the host plant. The fungal extract of PDR7 showed a high IAA content and promoted in vitro seed germination of the host (D. moschatum) and protocorm development of the non-host (D. longicornu). In contrast, IAA content in the fungal extract of PDR6 remained undetected but was effective in both seed germination and protocorm development. Our results demonstrated the potential beneficial application of endophytic Fusarium in orchid mass propagation.