AI Article Synopsis
- - Circular patterns known as "fairy rings" are formed by the interaction between certain fungi and plants, impacting plant growth and mushroom production.
- - Researchers isolated a gene related to plant growth regulators in the fairy ring fungus Lepista sordida and created a more complete draft genome to identify additional genes involved in fairy ring formation.
- - The study revealed unique nitric oxide synthase gene candidates in fairy ring-forming fungi and established a web database called F-RINGS to share genomic information about L. sordida.
Article Abstract
Circular patterns called "fairy rings" in fields are a natural phenomenon that arises through the interaction between basidiomycete fungi and plants. Acceleration or inhibition of plant vegetative growth and the formation of mushroom fruiting bodies are both commonly observed when fairy rings form. The gene of an enzyme involved in the biosynthesis of these regulators was recently isolated in the fairy ring-forming fungus, Lepista sordida. To identify other genes involved in L. sordida fairy ring formation, we used previously generated sequence data to produce a more complete draft genome sequence for this species. Finally, we predicted the metabolic pathways of the plant growth regulators and 29 candidate enzyme-coding genes involved in fairy-ring formation based on gene annotations. Comparisons of protein coding genes among basidiomycete fungi revealed two nitric oxide synthase gene candidates that were uniquely encoded in genomes of fairy ring-forming fungi. These results provide a basis for the discovery of genes involved in fairy ring formation and for understanding the mechanisms involved in the interaction between fungi and plants. We also constructed a new web database F-RINGS ( http://bioinf.mind.meiji.ac.jp/f-rings/ ) to provide the comprehensive genomic information for L. sordida.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6458111 | PMC |
| http://dx.doi.org/10.1038/s41598-019-42231-9 | DOI Listing |
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