shiro
Selected indexed studies
- Soil microbiome of shiro reveals the symbiotic relationship between Tricholoma bakamatsutake and Quercus mongolica. (Front Microbiol, 2024) [PMID:38601932]
- Structure revision of tricholomenyn B, an antimitotic geranylcyclohexenone rediscovered as a bitter and antibacterial substance, from a basidiomycete Tricholoma japonicum (Shiro-shimeji). (J Antibiot (Tokyo), 2024) [PMID:38822055]
- [Professor Shiro Kinoshita]. (Shikai Tenbo, 1984) [PMID:6372138]
_Worker-drafted node — pending editorial review._
Connections
shiro helps
Sources
- Soil microbiome of shiro reveals the symbiotic relationship between Tricholoma bakamatsutake and Quercus mongolica. (2024) pubmed
- Structure revision of tricholomenyn B, an antimitotic geranylcyclohexenone rediscovered as a bitter and antibacterial substance, from a basidiomycete Tricholoma japonicum (Shiro-shimeji). (2024) pubmed
- [Professor Shiro Kinoshita]. (1984) pubmed
- Dr. Shiro Oshima (1934-1981). (1982) pubmed
- Fungal Interactions Matter: Tricholoma matsutake Domination Affect Fungal Diversity and Function in Mountain Forest Soils. (2021) pubmed
- Unequal distribution of otx1 mRnas among cleavage stage blastomeres in the teleost, Leucopsarion petersii (shiro-uo). (2003) pubmed
- Ectomycorrhizal symbiosis in vitro between Tricholoma matsutake and Pinus densiflora seedlings that resembles naturally occurring 'shiro'. (2006) pubmed
- Screening of aflatoxins in Shiro and ground red pepper in Addis Ababa. (1996) pubmed
- Germ cell lineage from a single blastomere at 8-cell stage in shiro-uo (ice goby). (2002) pubmed
- "Lipid Nutrition Guidelines: A Comprehensive Analysis" by Harumi Okuyama, Sheriff Sultan, Naoki Ohara, Tomohito Hamazaki, Peter H. Langsjoen, Rokuro Hama, Yoichi Ogushi, Tetsuyuki Kobayashi, Shunji Natori, Hajime Uchino, Yoko Hashimoto, Shiro Watanabe, Kenjiro Tatematsu, Daisuke Miyazawa, Mikio Nakamura and Kentaro Oh-hashi. (2021) pubmed