Lentinula edodes Genome Survey and Postharvest Transcriptome Analysis

doi:10.1128/AEM.02990-16

. 2017 May 1;83(10):e02990-16.

doi: 10.1128/AEM.02990-16. Print 2017 May 15.

Lentinula edodes Genome Survey and Postharvest Transcriptome Analysis

Yuichi Sakamoto¹, Keiko Nakade², Shiho Sato², Kentaro Yoshida², Kazuhiro Miyazaki³, Satoshi Natsume², Naotake Konno²

Affiliations

¹ Iwate Biotechnology Research Center, Kitakami-shi, Iwate, Japan sakamoto@ibrc.or.jp.
² Iwate Biotechnology Research Center, Kitakami-shi, Iwate, Japan.
³ Kyushu Research Center Forestry and Forest Products Research Institute, Kumamoto, Kumamoto, Japan.

PMID: 28314725
PMCID: PMC5411510
DOI: 10.1128/AEM.02990-16

Lentinula edodes Genome Survey and Postharvest Transcriptome Analysis

Yuichi Sakamoto et al. Appl Environ Microbiol. 2017.

. 2017 May 1;83(10):e02990-16.

doi: 10.1128/AEM.02990-16. Print 2017 May 15.

Authors

Yuichi Sakamoto¹, Keiko Nakade², Shiho Sato², Kentaro Yoshida², Kazuhiro Miyazaki³, Satoshi Natsume², Naotake Konno²

Affiliations

¹ Iwate Biotechnology Research Center, Kitakami-shi, Iwate, Japan sakamoto@ibrc.or.jp.
² Iwate Biotechnology Research Center, Kitakami-shi, Iwate, Japan.
³ Kyushu Research Center Forestry and Forest Products Research Institute, Kumamoto, Kumamoto, Japan.

PMID: 28314725
PMCID: PMC5411510
DOI: 10.1128/AEM.02990-16

Abstract

Lentinula edodes is a popular, cultivated edible and medicinal mushroom. Lentinula edodes is susceptible to postharvest problems, such as gill browning, fruiting body softening, and lentinan degradation. We constructed a de novo assembly draft genome sequence and performed gene prediction for Lentinula edodesDe novo assembly was carried out using short reads from paired-end and mate-paired libraries and by using long reads by PacBio, resulting in a contig number of 1,951 and an N₅₀ of 1 Mb. Furthermore, we predicted genes by Augustus using transcriptome sequencing (RNA-seq) data from the whole life cycle of Lentinula edodes, resulting in 12,959 predicted genes. This analysis revealed that Lentinula edodes lacks lignin peroxidase. To reveal genes involved in the loss of quality of Lentinula edodes postharvest fruiting bodies, transcriptome analysis was carried out using serial analysis of gene expression (SuperSAGE). This analysis revealed that many cell wall-related enzymes are upregulated after harvest, such as β-1,3-1,6-glucan-degrading enzymes in glycoside hydrolase (GH) families GH5, GH16, GH30, GH55, and GH128, and thaumatin-like proteins. In addition, we found that several chitin-related genes are upregulated, such as putative chitinases in GH family 18, exochitinases in GH20, and a putative chitosanase in GH family 75. The results suggest that cell wall-degrading enzymes synergistically cooperate for rapid fruiting body autolysis. Many putative transcription factor genes were upregulated postharvest, such as genes containing high-mobility-group (HMG) domains and zinc finger domains. Several cell death-related proteins were also upregulated postharvest.IMPORTANCE Our data collectively suggest that there is a rapid fruiting body autolysis system in Lentinula edodes The genes for the loss of postharvest quality newly found in this research will be targets for the future breeding of strains that keep fresh longer than present strains. De novoLentinula edodes genome assembly data will be used for the construction of a complete Lentinula edodes chromosome map for future breeding.

Keywords: chitin; fruiting body; glucan; lentinan; senescence.

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Figures

**FIG 1**
Comparison of enriched gene ontologies between fruiting bodies after harvest and fresh fruiting bodies (just after harvest) by using Blast2GO enrichment analysis (Fisher's exact test). Black and white bars indicate enriched gene ontologies in the fruiting body after harvest and the fresh fruiting body, respectively. The x axis indicates the number of genes enriched.

**FIG 2**
Working model illustrating the modification of the postharvest quality loss of a Lentinula edodes fruiting body. Oxidative stress will occur after harvest, as will sequential signal transduction via protein kinases and *de novo* gene expression via transcription factors. *De novo* gene expression includes genes for gill browning, cell wall degradation, antioxidative stress, and cell death.

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References

1. Lin FC, Yang XM, Wang ZW. 2000. Cultivation of the black oak mushroom Lentinula edodes in China, p 955–958. In Proc 15th Int Congr Sci Cultiv Edible Fungi, Maastricht, Netherlands, 15–19 May 2000.
1. Chang ST, Miles PG. 2004. Mushrooms: cultivation, nutritional value, medicinal effect, and environmental impact, 2nd ed CRC Press LLC, Boca Raton, FL.
1. Chihara G, Maeda Y, Hamuro J, Sasaki T, Fukuoka F. 1969. Inhibition of mouse sarcoma 180 by polysaccharides from Lentinus edodes (Berk.) sing. Nature 222:687–688. doi:10.1038/222687a0. - DOI - PubMed
1. Nishitani Y, Zhang L, Yoshida M, Azuma T, Kanazawa K, Hashimoto T, Mizuno M. 2013. Intestinal anti-inflammatory activity of lentinan: influence on IL-8 and TNFR1 expression in intestinal epithelial cells. PLoS One 8:e62441. doi:10.1371/journal.pone.0062441. - DOI - PMC - PubMed
1. Xu X, Yang J, Ning Z, Zhang X. 2015. Lentinula edodes-derived polysaccharide rejuvenates mice in terms of immune responses and gut microbiota. Food Funct 6:2653–2663. doi:10.1039/C5FO00689A. - DOI - PubMed

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[1] Lin FC, Yang XM, Wang ZW. 2000. Cultivation of the black oak mushroom Lentinula edodes in China, p 955–958. In Proc 15th Int Congr Sci Cultiv Edible Fungi, Maastricht, Netherlands, 15–19 May 2000.

[2] Lin FC, Yang XM, Wang ZW. 2000. Cultivation of the black oak mushroom Lentinula edodes in China, p 955–958. In Proc 15th Int Congr Sci Cultiv Edible Fungi, Maastricht, Netherlands, 15–19 May 2000.

[3] Chang ST, Miles PG. 2004. Mushrooms: cultivation, nutritional value, medicinal effect, and environmental impact, 2nd ed CRC Press LLC, Boca Raton, FL.

[4] Chang ST, Miles PG. 2004. Mushrooms: cultivation, nutritional value, medicinal effect, and environmental impact, 2nd ed CRC Press LLC, Boca Raton, FL.

[5] Chihara G, Maeda Y, Hamuro J, Sasaki T, Fukuoka F. 1969. Inhibition of mouse sarcoma 180 by polysaccharides from Lentinus edodes (Berk.) sing. Nature 222:687–688. doi:10.1038/222687a0. - DOI - PubMed

[6] Chihara G, Maeda Y, Hamuro J, Sasaki T, Fukuoka F. 1969. Inhibition of mouse sarcoma 180 by polysaccharides from Lentinus edodes (Berk.) sing. Nature 222:687–688. doi:10.1038/222687a0. - DOI - PubMed

[7] Nishitani Y, Zhang L, Yoshida M, Azuma T, Kanazawa K, Hashimoto T, Mizuno M. 2013. Intestinal anti-inflammatory activity of lentinan: influence on IL-8 and TNFR1 expression in intestinal epithelial cells. PLoS One 8:e62441. doi:10.1371/journal.pone.0062441. - DOI - PMC - PubMed

[8] Nishitani Y, Zhang L, Yoshida M, Azuma T, Kanazawa K, Hashimoto T, Mizuno M. 2013. Intestinal anti-inflammatory activity of lentinan: influence on IL-8 and TNFR1 expression in intestinal epithelial cells. PLoS One 8:e62441. doi:10.1371/journal.pone.0062441. - DOI - PMC - PubMed

[9] Xu X, Yang J, Ning Z, Zhang X. 2015. Lentinula edodes-derived polysaccharide rejuvenates mice in terms of immune responses and gut microbiota. Food Funct 6:2653–2663. doi:10.1039/C5FO00689A. - DOI - PubMed

[10] Xu X, Yang J, Ning Z, Zhang X. 2015. Lentinula edodes-derived polysaccharide rejuvenates mice in terms of immune responses and gut microbiota. Food Funct 6:2653–2663. doi:10.1039/C5FO00689A. - DOI - PubMed

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Lentinula edodes Genome Survey and Postharvest Transcriptome Analysis

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Lentinula edodes Genome Survey and Postharvest Transcriptome Analysis

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