Abstract
Stropharia rugosoannulata is not only a popular edible mushroom, but also has excellent potential in bioremediation. In this study, we present a high-quality genome of a monokaryotic strain of the S. rugosoannulata commercial cultivar in China. The assembly yielded an N50 length of 2.96 Mb and a total size of approximately 48.33 Mb, encoding 11,750 proteins. The number of heme peroxidase-encoding genes in the genome of S. rugosoannulata was twice the average of all of the tested Agaricales. The genes encoding lignin and xenobiotic degradation enzymes accounted for more than half of the genes encoding plant cell wall degradation enzymes. The expansion of genes encoding lignin and xenobiotic degradation enzymes, and cytochrome P450 involved in the xenobiotic metabolism, were responsible for its strong bioremediation and lignin degradation abilities. S. rugosoannulata was classified as a litter-decomposing (LD) fungus, based on the analysis of the cell wall degrading enzymes. Substrate selection for fruiting body cultivation should consider both the nutritional strategy of LD and a strong lignin degradation ability. Consistent with safe usage as an edible mushroom, the S. rugosoannulata genome does not contain genes for known psilocybin biosynthesis. Genome analysis will be helpful for understanding its nutritional strategy to guide fruiting body cultivation and for providing insight into its application in bioremediation.
Highlights
We presented the genome sequence of S. rugosoannulata generated by Illumina and PacBio RSII long-read sequencing technologies
The expansion of genes encoding lignin and xenobiotic degradation enzymes, cytochrome P450 involved in the xenobiotic metabolism, and siderophore clusters confirm the potential application for bioremediation
A high-quality genome of the S. rugosoannulata commercial cultivar in China was assembled, and the plant cell wall degradation (PCWD) enzymes, nutritional strategy, and secondary metabolites were analyzed in this study
Summary
Ex Murrill, called saketsubatake in Japanese and winecap Stropharia in English, is a popular edible mushroom with high nutritional and medicinal values. By 1989, commercial production of Stropharia in Europe reached approximately 1300 tons per year [3]. Field cultivation of S. rugosoannulata has expanded in most of the provinces in China, and the cultivation area was estimated to be approximately 1333 ha in 2019. In addition to its nutritional and medicinal values [4,5], S. rugosoannulata has great potential for bioremediation. It can degrade a wide range of structurally different environmental pollutants, including polycyclic aromatic hydrocarbons [6], synthetic dyes [7], 2,4,6-trinitrotoluene [8], bisphenol
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