Determining the earliest growth stage to detect the presence of endophytes in tall fescue and perennial ryegrass seedlings using molecular markers

Grassland Research Pub Date : 2023-06-24 DOI:10.1002/glr2.12053

Kendall Lee, Nicholas Hill, Chloe Dela Cerna, Ali Missaoui

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Abstract

Background

Tall fescue (Festuca arundinacea [Schreb.], Lolium arundinaceum [Schreb.] Darbysh) and perennial ryegrass (Lolium perenne) are important cool-season forage and amenity grasses that have a mutualistic association with an endophytic fungus. Endophytes confer insect and drought resistance to plants but can produce mammalian toxins. Novel endophytes that do not produce mammalian toxins have been introduced to elite cultivars for commercial production. Seed companies need to maintain adequate levels of novel endophytes within the elite forage cultivars. Endophyte detection is performed using immunochemical and molecular techniques because of their speed and reliability. Early detection in seedlings is essential to evaluate the viability of the endophyte within seed lots.

Methods

This research aimed to identify the earliest growth stage in which immunochemical and molecular methods can detect viable endophyte in seedlings of tall fescue cultivars BarOptima (e34), Texoma MaxQII (584), and Jesup MaxQ (542), as well as the perennial ryegrass cultivar Remington (NEA2).

Results

Immunochemical testing detected endophytes in seedlings 14 days after germination (DAG), but the detection rate increased until 42 DAG in some cultivars tested. The molecular marker Tef1exon detected endophytes at a lower rate than the immunochemical method at 28–42 DAG. However, there was insufficient DNA to detect endophytes in 14 DAG seedlings using markers.

Conclusions

We conclude that the most accurate detection of viable endophytes in seedlings was 42 DAG, at which sufficient and consistent endophyte colonization occurred.

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利用分子标记确定高羊茅和多年生黑麦草幼苗最早生长阶段以检测内生菌的存在

背景高羊茅（Festuca arundinacea[Shreb.]，Lolium arundinaceam[Shreb.]Darbysh）和多年生黑麦草（Lolium perenne）是重要的冷季牧草和舒适草，与内生真菌有互惠关系。内生植物赋予植物昆虫和抗旱性，但可以产生哺乳动物毒素。不产生哺乳动物毒素的新型内生菌已被引入优良品种中进行商业生产。种子公司需要在优质饲料品种中保持足够水平的新型内生菌。内生菌检测是使用免疫化学和分子技术进行的，因为它们的速度和可靠性。幼苗中的早期检测对于评估种子批内生菌的生存能力至关重要。方法本研究旨在确定免疫化学和分子方法可以检测高羊茅品种BarOptima（e34）、Texoma MaxQII（584）和Jesup MaxQ（542）以及多年生黑麦草品种Remington（NEA2）幼苗中活内生菌的最早生长阶段。结果免疫化学检测在发芽后14天（DAG）幼苗中检测到内生菌，但部分品种的检测率一直上升到42天。分子标记Tef1外显子在28–42 DAG时检测内生菌的比率低于免疫化学方法。然而，使用标记物检测14株DAG幼苗内生菌的DNA不足。结论我们得出的结论是，对幼苗中有活力的内生菌的最准确检测是42DAG，在该条件下，内生菌发生了充分和一致的定殖。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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