An agar medium-based method for screening somatic incompatibility in Agaricus bisporus

IF 2.9 3区生物学 Q2 MYCOLOGY

Fungal biology Pub Date : 2025-02-01 DOI:10.1016/j.funbio.2024.11.009

Karin Scholtmeijer , Ben Auxier , Alfons J.M. Debets , Duur K. Aanen , Johan J.P. Baars , Arend F. van Peer

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Abstract

To visualize the nonself recognition reaction in the cultivated mushroom Agaricus bisporus, we developed a method using the azo dye Evans blue. The use of Evans blue highlights dead mycelial sections, which are produced following nonself recognition in the interaction zone between two individuals. This method can differentiate between distinct heterokaryons, as well as between closely related heterokaryons constructed from siblings. As it is known that co-cultivation of mixed individuals leads to reduced yield, we compared small-scale cultivation experiments to the results of our laboratory assay. Co-cultivation of strains whose interaction produced noticeable Evans blue staining also produced low yield when mixed. However, a combination that did not produce noticeable Evans blue staining still produced an incompatible-like phenotype (reduced yield) when mixed under cultivation conditions. Together, these results suggest that while our Evans blue assay can discriminate between self and nonself pairings, it alone does not encompass all aspects of this interaction. However, this method can facilitate future research into the genetics and physiology of the incompatibility phenotype in this economically important fungus.

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基于琼脂培养基筛选双孢蘑菇体细胞不亲和性的方法。

为了可视化培养双孢蘑菇的非自我识别反应，我们开发了一种使用偶氮染料Evans蓝的方法。埃文斯蓝色的使用突出了死亡菌丝部分，这是在两个个体之间的相互作用区产生的非自我识别。这种方法可以区分不同的异核体，以及由兄弟姐妹构建的密切相关的异核体。众所周知，混合个体的共同栽培会导致产量下降，我们将小规模栽培实验与实验室分析结果进行了比较。相互作用产生明显埃文斯蓝染色的菌株共培养在混合时产量也很低。然而，在培养条件下混合时，没有产生明显的埃文斯蓝染色的组合仍然产生不相容样表型（产量降低）。总之，这些结果表明，虽然我们的埃文斯蓝试验可以区分自我和非自我配对，但它本身并不能涵盖这种相互作用的所有方面。然而，这种方法可以为进一步研究这种经济上重要的真菌的不亲和表型的遗传学和生理学提供便利。

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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来源期刊

Fungal biology MYCOLOGY-

CiteScore

5.80

自引率

4.00%

发文量

审稿时长

49 days

期刊介绍： Fungal Biology publishes original contributions in all fields of basic and applied research involving fungi and fungus-like organisms (including oomycetes and slime moulds). Areas of investigation include biodeterioration, biotechnology, cell and developmental biology, ecology, evolution, genetics, geomycology, medical mycology, mutualistic interactions (including lichens and mycorrhizas), physiology, plant pathology, secondary metabolites, and taxonomy and systematics. Submissions on experimental methods are also welcomed. Priority is given to contributions likely to be of interest to a wide international audience.