44 2021〜 | 公益財団法人サントリー生命科学財団

研究成果

Review & Book 2024

Shimamoto K., Fujikawa K., Osawa T., Mori S., Nomura K., Nishiyama K. “Key contributions of a glycolipid to membrane protein integration.” Proc. Jpn. Acad., Ser. B 100, 387–413 (2024). [DOI] (open access)

Fujikawa K. “Elucidation of Glycan Functions Based on Precise Synthesis.” Trends Glycosci. Glycotechnol. 36, E46–E50 [DOI]; J47–J51 [DOI] (2024).

Mori S., Shionyu M., Shimamoto K., Nomura K. “Bacterial Glycolipid Acting on Protein Transport Across Membranes.” ChemBioChem 25, e202300808 (2024). [DOI] (open access)

Osawa T., Fujikawa K., Shimamoto K. “Structures, functions, and syntheses of glycero-glycophospholipids.” Front. Chem. 12, 1353688 (2024). [DOI] (open access)

Nomura K., Mori S., Shimamoto K. “Roles of a Glycolipid MPIase in Sec-Independent Membrane Protein Insertion.” Membranes 14, 48 (2024). [DOI] (open access)

Koyama T. “Regulatory mechanisms of transcription factors in plant morphology and function 2.0.” Int. J. Mol. Sci. 25, 2010 (2024). [DOI] (open access)

Takase Y., Takahashi T. “Method for two-dimensional epithelial monolayer formation from mouse three-dimensional small intestinal organoids.” Methods Mol. Biol. 2749, 73–84 (2024). [DOI]

Satake H., Sasakura Y. “The neuroendocrine system of Ciona intestinalis Type A, a deuterostome invertebrate and the closest relative of vertebrates.” Mol Cell Endocrinol. 582, 112122 (2024). [DOI] (open access)

Review & Book 2023

高瀬 悠太 「美しい血管パターンが生まれるしくみ: トリ胚から迫る血管ネットワーク形成機構」 遺伝: 生物の科学 77 (4), 275–281 (2023). [Info]

Ono E., Murata J. “Exploring the Evolvability of Plant Specialized Metabolism: Uniqueness Out of Uniformity and Uniqueness Behind Uniformity.” Plant Cell Physiol. 64, 1449–1465 (2023). [DOI] (open access)

高橋 俊雄 「腸幹細胞の幹細胞性を支えるアセチルコリンシグナリング」 Medical Science Digest 49(5), 42–45 (2023). [Publisher]

Koyama T. “Regulatory mechanisms of transcription factors in plant morphology and function.” Int. J. Mol. Sci. 24, 7039 (2023). [DOI] (open access) 

Satake H. “Kobayashi Award 2021: Neuropeptides, receptors, and follicle development in the ascidian, Ciona intestinalis Type A: New clues to the evolution of chordate neuropeptidergic systems from biological niches.” Gen Comp Endocrinol. 337, 114262 (2023). [DOI] (open access)

Becker A., Yamada Y., Sato F. “California poppy (Eschscholzia californica), the Papaveraceae golden girl model organism for evodevo and specialized metabolism.” Front. Plant Sci. 14, 1084358 (2023). [DOI] (open access) 

Review & Book 2022

Fujikawa K., Mori S., Nishiyama K., Shimamoto K. CHAPTER FIVE “A bacterial glycolipid essential for membrane protein integration.” Adv. Carbohydr. Chem. Biochem. 81, 95–129 (2022). [DOI]

Koyama T., Murata J., Horikawa M., Satake H. “Production of beneficial lignans in heterologous host plants. Front. Plant Sci. 13, 1026664 (2022). [DOI] (open access) 

佐竹 炎 (2022) 「すき間で見つけた石で立派な家を作ることを目指す:小林賞受賞記」 比較内分泌学 48(175), e0023

Nishikawa H., Sawasato K., Mori S., Fujikawa K., Nomura K., Shimamoto K., Nishiyama K. “Interaction between glycolipid MPIase and proteinaceous factors during protein integration into the cytoplasmic membrane of E. coli.Front. Mol. Biosci. 2022, 9, 986602. [DOI] (open access)

Kawada T., Osugi T., Matsubara S., Sakai T., Shiraishi A., Yamamoto T., Satake H. (2022) ”Omics Studies for the Identification of Ascidian Peptides, Cognate Receptors, and Their Relevant Roles in Ovarian Follicular Development.” Front Endocrinol (Lausanne). 13, 858885. [PubMed]

Murata Y., Murata J., Namba K. (2022) ”Unraveling the new biological roles and possibleapplications of phytosiderophores in plants and mammals.” Metallomics Research 2(2).

Review & Book 2021

小埜 栄一郎、 村田 純、 堀川 学 「 ゴマリグナン酵素進化から学ぶ特化代謝観」 ファルマシア, 57 (8), 715-720 (2021). [Publisher]

山垣 亮、木村優佳、山崎尭嗣 「 LC-MS による高感度ペプチド定量分析の問題点と解決法:極微量ペプチド標品の吸着と検量線作成」 J. Mass Spectrom. Soc. Jpn., 69 (2), 23-29 (2021). [Publisher]

Takahashi T., Fujishima K., Kengaku M. (2021) Modeling intestinal stem cell function with organoids. Int. J. Mol. Sci. 22, 10912. [PubMed]

佐竹 炎(2021) 「ホヤから見つかったペプチドと受容体からわかったこと」 比較生理生化学 38(3), 115-123.

川田 剛士(2021) 「バソプレシン遺伝子改変ホヤの解析」 比較内分泌学 47, e0003.

Satake H., Osugi T., Shiraishi A. (2021) Impact of Machine Learning-Associated Research Strategies on the Identification of Peptide-Receptor Interactions in the Post-Omics Era. Neuroendocrinology. doi: 10.1159/000518572. Epub ahead of print. [PubMed]

Takahashi T. (2021) Multiple roles for cholinergic signaling from the perspective of stem cell function. Int J Mol Sci. 22, 666. [PubMed]

高橋 俊雄 (2021) 「非神経細胞型アセチルコリン受容体を介した腸幹細胞の維持機構の解明」BIO Clinica 36(5), 94-97. BIOLOGY TOPICS