Publications/研究業績
詳細はResearchmapでも公開中しています
https://researchmap.jp/yuyamai
Resarch Article / 学術論文 (査読付き)
*:corresponding Author
Yuyama I, Kume K*, Tamura T, Inagaki Y, and Hashimoto T (2022). Draft genome sequence of Aduncisulcus paluster, a free-living microaerophilic eukaryote belonging to Fornicata. Microbiology resource announcements 12: 2, DOI: https://doi.org/10.1128/mra.00539-22, #Yuyama I and Kume K are equal contributors to this work.
Yuyama I, Higuchi T, Mezaki T, Tashiro H, Kazuho Ikeo K (2022). Metatranscriptomic Analysis of Corals Inoculated with Tolerant and Non-Tolerant Symbiont Exposed to High Temperature and Light Stress. Frontiers in Physiology, 13, 806171.
Yuyama I*, Higuchi T, Hidaka M (2021). Application of RNA Interference Technology to Acroporid Juvenile Corals. Frontiers in Marine Science, 8, 688876.
Yuyama I*, Ugawa N, Hashimoto T (2021). Transcriptome Analysis of Durusdinium Associated with the Transition from Free-Living to Symbiotic, Microorganisms, 9, 1560-1560.
Higuchi T*, Tanaka K, Shirai K, Yuyama I, Mezaki T, Takahata N, Sano Y (2021). Sulfur assimilation in corals with aposymbiotic and symbiotic zooxanthellae, Environmental Microbiology Reports, 13, 98-103.
Higuchi T, Yuyama I, Sylvain A* (2019). Physiology of winter coral bleaching in temperate zone. Physiology of winter coral bleaching in temperate zone.Evolution of Marine Coastal Ecosystems under the Pressure of Global Changes:Proceedings of Coast Bordeaux and of the 17th French-Japanese Oceanography Symposium, 1~11.
Yuyama I, Higuchi T* (2019). Differential gene expression in skeletal organic matrix proteins of scleractinian corals associated with mixed aragonite/calcite skeletons under low mMg/Ca conditions. PeerJ, 7, 1~7.
湯山育子*(2018). ゲノム,トランスクリプトームデータから明らかにされる刺胞動物-藻類の細胞内共生, 農文協「生物科学」, 69, 214~222.
Yuyama I*, Ishikawa M, Nozawa M, Yoshida M, Ikeo K (2018). Transcriptomic changes with increasing algal symbiont reveal the detailed process underlying establishment of coral-algal symbiosis. Scientific Reports, 8, 16802.
Higuchi T*, Shirai K, Mezaki T, Yuyama I (2017). Temperature dependence of aragonite and calcite skeleton formation by a scleractinian coral in low mMg/Ca seawater. Geology, 45, 1087~1090.
Yuyama I, Higuchi T*, Takei Y (2016). Sulfur utilization of corals is enhanced by endosymbiotic algae. Biology Open, 5, 1299~1304.
Yuyama I*, Higuchi T, Mezaki T (2016). Symbiodinium kawagutii (clade F) coats the surface of Acropora solitaryensis, resulting in the formation of a sheet-like crust. Proceedings of the 13th International Coral Reef Symposium 2016-12, 1~4.
Ishikawa M*, Yuyama I, Shimizu H, Nozawa M, Ikeo K, Gojobori T (2016). Different Endosymbiotic Interactions in Two Hydra Species Reflect the Evolutionary History of Endosymbiosis. Molecular Biology and Evolution, 8, 2155~2163.
Yuyama I*, Nakamura T, Higuchi T, Hidaka M(2016). Different stress tolerances of juvenile polyps of the coral Acropora tenuis associated with clades C1 and D Symbiodinium. Zoological studies, 55, 19.
Higuchi T*, Agostini A, Casareto BE, Suzuki Y, Yuyama I (2015). The northern limit of corals of the genus Acropora in temperate zone is determined by their resilience to cold bleaching. Scientific Reports, 5, 18467.
Higuchi T*, Yuyama I, Nakamura T (2015). The combined effects of nitrate with high temperature and high light intensity on coral bleaching and antioxidant enzyme activities. Regional studies in Marine Science 2, 27~31.
樋口富彦*, 湯山育子, 中村崇 (2014). 造礁性 サンゴ類のストレスと防御機能―生理・遺伝子・生態の視点から― . 日 本サンゴ礁学会誌 16, 47~64.
Yuyama I*, Higuchi T (2014). Comparing the effects of symbiotic algae (Symbiodinium) clade C1 and D on early growth stage of Acropora tenuis. Plos One, 9, e98999
Higuchi T*, Fujimura H, Yuyama I, Harii S, Agostini S, Omori T (2014). Biotic control of skeletal growth by scleractinian corals in aragonite-calcite seas. Plos One, 9, e91021.
Agostini S*, Fujimura H, Tomihiko , Yuyama I, Casareto BE, Suzuki Y, Nakano Y (2013). The effects of thermal and high-CO2 stress on the metabolism and surrounding microenvironment of the coral Galaxea fascicularis. Comptes Rendus Biologies, 336, 384~391.
Yuyama I*, Suzuki Y, Watanabe T (2012). Identification of differentiall expressed genes during early growth of Acropora tenuis. Proceedings of the 12th international coral reef symposium, 6A-3, 1~4.
Yuyama I*, Ito Y, Watanabe T, Hidaka M, uzuki Y, Nishida M (2012). Differential gene expression in juvenile polyps of the coral Acropora tenuis exposed to thermal and chemical stresses. Journal of Experimental Marine Biology and Ecology, 430, 17~24.
Yuyama I*, Harii S, Hidaka M (2012). Algal symbiont type affects gene expression in juveniles of the coral Acropora tenuis exposed to thermal stress. Marine Environmental Research, 76, 41~47.
Yuyama I*, Watanabe T, Takei Y (2011). Profiling differential gene expression of symbiotic and aposymbiotic corals using a high coverage gene expression profiling (HiCEP) analysis. Marine Biotechnology, 12, 32~40.
Yuyama I*, Watanabe T (2008). Molecular characterization of a coral sulfate transporter homolog that is up- regulated by the presence of symbiotic algae. Fisheries Science, 74, 1269~1276.
Watanabe T*, Utsunomiya Y, Yuyama I (2007). Long-term laboratory culture of symbiotic coral juveniles and their use in eco-toxicological study. Journal of Experimental Marine Biology and Ecology, 352, 177~186.
Watanabe T*, Yuyama I, Yasumura S (2006). Toxicological effects of biocides on symbiotic and aposymbiotic juveniles of the hermatypic coral Acropora tenuis. Journal of Experimental Marine Biology and Ecology, 339, 177~188.
Yuyama I, Hayakawa H, Endo H, Iwao K, Takeyama H, Maruyama T, Watanabe T* (2005). Identification of symbiotically expressed coral mRNAs using a model infection system. Biochemical and Biophysical Research Communications, 336, 793~798.
Others / その他
湯山育子(2021). サンゴー褐虫藻の共生関係/サンゴの白化減少の解明を目指した研究 生物の科学 遺伝 特集:刺胞動物の生物学 クラゲやサンゴの仲間たちを科学する, 74 426-432.
湯山 育子(2017). 書評:サンゴ礁知られざる世界. 日本サンゴ礁学会ニュースレター, 72.
湯山 育子(2012). サンゴは褐虫藻を選んでいる. 月刊ダイバー 8月号.