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Journal Abstract Search

213 related items for PubMed ID: 27371100

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  • 3. Spore germination and ectomycorrhizae formation of Tricholoma matsutake on pine root systems with previously established ectomycorrhizae from a dikaryotic mycelial isolate of T. matsutake.
    Horimai Y, Misawa H, Suzuki K, Tateishi Y, Furukawa H, Yamanaka T, Yamashita S, Takayama T, Fukuda M, Yamada A.
    Mycorrhiza; 2021 May; 31(3):335-347. PubMed ID: 33761015
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  • 4. The (oxalato)aluminate complex as an antimicrobial substance protecting the "shiro" of Tricholoma matsutake from soil micro-organisms.
    Nishino K, Shiro M, Okura R, Oizumi K, Fujita T, Sasamori T, Tokitoh N, Yamada A, Tanaka C, Yamaguchi M, Hiradate S, Hirai N.
    Biosci Biotechnol Biochem; 2017 Jan; 81(1):102-111. PubMed ID: 27691719
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  • 5. Ectomycorrhizas in vitro between Tricholoma matsutake, a basidiomycete that associates with Pinaceae, and Betula platyphylla var. japonica, an early-successional birch species, in cool-temperate forests.
    Murata H, Yamada A, Maruyama T, Neda H.
    Mycorrhiza; 2015 Apr; 25(3):237-41. PubMed ID: 25236465
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  • 8. Root endophyte interaction between ectomycorrhizal basidiomycete Tricholoma matsutake and arbuscular mycorrhizal tree Cedrela odorata, allowing in vitro synthesis of rhizospheric "shiro".
    Murata H, Yamada A, Maruyama T, Endo N, Yamamoto K, Ohira T, Shimokawa T.
    Mycorrhiza; 2013 Apr; 23(3):235-42. PubMed ID: 23064771
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  • 10. Tricholoma matsutake can absorb and accumulate trace elements directly from rock fragments in the shiro.
    Vaario LM, Pennanen T, Lu J, Palmén J, Stenman J, Leveinen J, Kilpeläinen P, Kitunen V.
    Mycorrhiza; 2015 Jul; 25(5):325-34. PubMed ID: 25355073
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  • 12. In vitro ectomycorrhizal specificity between the Asian red pine Pinus densiflora and Tricholoma matsutake and allied species from worldwide Pinaceae and Fagaceae forests.
    Yamada A, Kobayashi H, Murata H, Kalmiş E, Kalyoncu F, Fukuda M.
    Mycorrhiza; 2010 Jun; 20(5):333-9. PubMed ID: 19941149
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  • 13. The host ranges of conifer-associated Tricholoma matsutake, Fagaceae-associated T. bakamatsutake and T. fulvocastaneum are wider in vitro than in nature.
    Yamanaka T, Ota Y, Konno M, Kawai M, Ohta A, Neda H, Terashima Y, Yamada A.
    Mycologia; 2014 Jun; 106(3):397-406. PubMed ID: 24871598
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  • 15. Successional Change of the Fungal Microbiome Pine Seedling Roots Inoculated With Tricholoma matsutake.
    Park KH, Oh SY, Yoo S, Park MS, Fong JJ, Lim YW.
    Front Microbiol; 2020 Jun; 11():574146. PubMed ID: 33101248
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  • 16. Detecting nonculturable bacteria in the active mycorrhizal zone of the pine mushroom Tricholoma matsutake.
    Kataoka R, Siddiqui ZA, Kikuchi J, Ando M, Sriwati R, Nozaki A, Futai K.
    J Microbiol; 2012 Apr; 50(2):199-206. PubMed ID: 22538647
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  • 17. Intra- and inter-specific variations in the copy number of two types of retrotransposons from the ectomycorrhizal basidiomycete Tricholoma matsutake.
    Murata H, Babasaki K.
    Mycorrhiza; 2005 Jul; 15(5):381-6. PubMed ID: 15940467
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  • 18. Tricholoma matsutake fruit bodies secrete hydrogen peroxide as a potent inhibitor of fungal growth.
    Takakura Y.
    Can J Microbiol; 2015 Jun; 61(6):447-50. PubMed ID: 25803209
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  • 19. Identification of the Pol Gene as a Species-Specific Diagnostic Marker for Qualitative and Quantitative PCR Detection of Tricholoma matsutake.
    Shan L, Wang D, Li Y, Zheng S, Xu W, Shang Y.
    Molecules; 2019 Jan 28; 24(3):. PubMed ID: 30696007
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  • 20. Tricholoma matsutake in a natural Pinus densiflora forest: correspondence between above- and below-ground genets, association with multiple host trees and alteration of existing ectomycorrhizal communities.
    Lian C, Narimatsu M, Nara K, Hogetsu T.
    New Phytol; 2006 Jan 28; 171(4):825-36. PubMed ID: 16918553
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