AI Article Synopsis
- Nigrospora is a genus of fungi that interacts with plants in various ways, some aiding growth and resistance to diseases, but the mechanisms behind these benefits are not well understood.
- A new study successfully transformed two Nigrospora isolates from switchgrass using a specific method, marking the first successful transformation of this genus.
- These transformed strains can help investigate their interactions with plant pathogens and provide a framework for future genetic research on Nigrospora and its role in plant health.
Article Abstract
Nigrospora is a diverse genus of fungi colonizing plants through endophytic, pathogenic, or saprobic interactions. Endophytic isolates can improve growth and development of host plants, as well as their resistance to microbial pathogens, but exactly how they do so remains poorly understood. Developing a reliable transformation method is crucial to investigate these mechanisms, in particular to identify pivotal genes for specific functions that correlate with specific traits. In this study, we identified eight isolates of Nigrospora sp. internally colonizing the leaves of switchgrass plants cultivated in North Carolina. Using an Agrobacterium tumefaciens-mediated transformation approach with control and GFP-expressing vectors, we report the first successful transformation of two Nigrospora isolates. Finally, we demonstrate that wild-type and transgenic isolates both negatively impact the growth of two plant pathogens in co-culture conditions, Bipolaris maydis and Parastagonospora nodorum, responsible for the Southern Leaf Blight and Septoria Nodorum Blotch diseases, respectively. The GFP-transformed strains developed here can therefore serve as accurate reporters of spatial interactions in future studies of Nigrospora and pathogens in the plant. Finally, the transformation method we describe lays the foundation for further genetic research on the Nigrospora genus to expand our mechanistic understanding of plant-endophyte interactions.
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| http://dx.doi.org/10.1016/j.mimet.2023.106849 | DOI Listing |
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