The (oxalato)aluminate complex as an antimicrobial substance protecting the "shiro" of Tricholoma matsutake from soil micro-organisms

Katsutoshi Nishino; Misao Shiro; Ryuki Okura; Kazuya Oizumi; Toru Fujita; Takahiro Sasamori; Norihiro Tokitoh; Akiyoshi Yamada; Chihiro Tanaka; Muneyoshi Yamaguchi; Syuntaro Hiradate; Nobuhiro Hirai

doi:10.1080/09168451.2016.1238298

The (oxalato)aluminate complex as an antimicrobial substance protecting the "shiro" of Tricholoma matsutake from soil micro-organisms

Katsutoshi Nishino, Misao Shiro, Ryuki Okura, Kazuya Oizumi, Toru Fujita, Takahiro Sasamori, Norihiro Tokitoh, Akiyoshi Yamada, Chihiro Tanaka, Muneyoshi Yamaguchi, Syuntaro Hiradate, Nobuhiro Hirai

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

Tricholoma matsutake, a basidiomycete, forms ectomycorrhizas with Pinus densiflora as the host tree. Its fruiting body, "matsutake" in Japanese, is an edible and highly prized mushroom, and it grows in a circle called a fairy ring. Beneath the fairy ring of T. matsutake, a whitish mycelium-soil aggregated zone, called "shiro" in Japanese, develops. The front of the shiro, an active mycorrhizal zone, functions to gather nutrients from the soil and roots to nourish the fairy ring. Bacteria and sporulating fungi decrease from the shiro front, whereas they increase inside and outside the shiro front. Ohara demonstrated that the shiro front exhibited antimicrobial activity, but the antimicrobial substance has remained unidentified for 50 years. We have identified the antimicrobial substance as the (oxalato)aluminate complex, known as a reaction product of oxalic acid and aluminum phosphate to release soluble phosphorus. The complex protects the shiro from micro-organisms, and contributes to its development.

Original language	English
Pages (from-to)	102-111
Number of pages	10
Journal	Bioscience, Biotechnology and Biochemistry
Volume	81
Issue number	1
DOIs	https://doi.org/10.1080/09168451.2016.1238298
Publication status	Published - 2017
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biotechnology
Analytical Chemistry
Biochemistry
Applied Microbiology and Biotechnology
Molecular Biology
Organic Chemistry

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10.1080/09168451.2016.1238298

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Nishino, K., Shiro, M., Okura, R., Oizumi, K., Fujita, T., Sasamori, T., Tokitoh, N., Yamada, A., Tanaka, C., Yamaguchi, M., Hiradate, S., & Hirai, N. (2017). The (oxalato)aluminate complex as an antimicrobial substance protecting the "shiro" of Tricholoma matsutake from soil micro-organisms. Bioscience, Biotechnology and Biochemistry, 81(1), 102-111. https://doi.org/10.1080/09168451.2016.1238298

Nishino, K, Shiro, M, Okura, R, Oizumi, K, Fujita, T, Sasamori, T, Tokitoh, N, Yamada, A, Tanaka, C, Yamaguchi, M, Hiradate, S & Hirai, N 2017, 'The (oxalato)aluminate complex as an antimicrobial substance protecting the "shiro" of Tricholoma matsutake from soil micro-organisms', Bioscience, Biotechnology and Biochemistry, vol. 81, no. 1, pp. 102-111. https://doi.org/10.1080/09168451.2016.1238298

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abstract = "Tricholoma matsutake, a basidiomycete, forms ectomycorrhizas with Pinus densiflora as the host tree. Its fruiting body, {"}matsutake{"} in Japanese, is an edible and highly prized mushroom, and it grows in a circle called a fairy ring. Beneath the fairy ring of T. matsutake, a whitish mycelium-soil aggregated zone, called {"}shiro{"} in Japanese, develops. The front of the shiro, an active mycorrhizal zone, functions to gather nutrients from the soil and roots to nourish the fairy ring. Bacteria and sporulating fungi decrease from the shiro front, whereas they increase inside and outside the shiro front. Ohara demonstrated that the shiro front exhibited antimicrobial activity, but the antimicrobial substance has remained unidentified for 50 years. We have identified the antimicrobial substance as the (oxalato)aluminate complex, known as a reaction product of oxalic acid and aluminum phosphate to release soluble phosphorus. The complex protects the shiro from micro-organisms, and contributes to its development.",

author = "Katsutoshi Nishino and Misao Shiro and Ryuki Okura and Kazuya Oizumi and Toru Fujita and Takahiro Sasamori and Norihiro Tokitoh and Akiyoshi Yamada and Chihiro Tanaka and Muneyoshi Yamaguchi and Syuntaro Hiradate and Nobuhiro Hirai",

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AU - Oizumi, Kazuya

AU - Fujita, Toru

AU - Sasamori, Takahiro

AU - Tokitoh, Norihiro

AU - Yamada, Akiyoshi

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AU - Hiradate, Syuntaro

AU - Hirai, Nobuhiro

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AB - Tricholoma matsutake, a basidiomycete, forms ectomycorrhizas with Pinus densiflora as the host tree. Its fruiting body, "matsutake" in Japanese, is an edible and highly prized mushroom, and it grows in a circle called a fairy ring. Beneath the fairy ring of T. matsutake, a whitish mycelium-soil aggregated zone, called "shiro" in Japanese, develops. The front of the shiro, an active mycorrhizal zone, functions to gather nutrients from the soil and roots to nourish the fairy ring. Bacteria and sporulating fungi decrease from the shiro front, whereas they increase inside and outside the shiro front. Ohara demonstrated that the shiro front exhibited antimicrobial activity, but the antimicrobial substance has remained unidentified for 50 years. We have identified the antimicrobial substance as the (oxalato)aluminate complex, known as a reaction product of oxalic acid and aluminum phosphate to release soluble phosphorus. The complex protects the shiro from micro-organisms, and contributes to its development.

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The (oxalato)aluminate complex as an antimicrobial substance protecting the "shiro" of Tricholoma matsutake from soil micro-organisms

Abstract

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