Publications
研究業績
矢崎 潤史
0000-0003-0212-1490
松尾 充啓 0000-0002-5138-1793
前野 美久 0000-0002-7751-7695
※ 最新の論文一覧は、上記の Google Scholar および研究者総覧でもご確認いただけます。
2026
01
Author Correction: An ABA-increased interaction of the PYL6 ABA receptor with MYC2 Transcription Factor: A putative link of ABA and JA signalling
Aleman F., Yazaki J., Lee M., Takahashi Y., Kim A.Y., Li Z., Kinoshita T., Ecker J.R., Schroeder J.I.
Scientific Reports. 16(1):874 (2026).
De novo 転写がもたらす想定外の遺伝子発現 ~ゲノム進化と遺伝子操作への影響~
小保方潤一、畑貴之、佐藤壮一郎、松尾充啓 (2026)
合成生物学ハンドブック, (株)エヌ・ティー・エス
2025
01
Promotion of seed germination in Echinochloa crus-galli with atmospheric air plasma
Nakamura Y., Ohnishi Y., Oshimo K., Hiramatsu R., Shindo M., Tominaga T., Terabayashi S., Takagi D., Matsuo M.
bioRxiv. 2025.
02
An unbiased tissue transcriptome analysis identifies potential markers for skin phenotypes and therapeutic responses in atopic dermatitis
Fukushima-Nomura A., Kawasaki H., Yashiro K., Obata S., Tanese K., Ebihara T., Saeki H., Etoh T., Hasegawa T., Yazaki J., Seita J., Ohara O., et al.
Nature Communications. 16(1):4981 (2025).
実験進化から迫る遺伝子誕生の初期プロセス (De novo転写の発見とプロモーターの起源)
畑 貴之, 川口 晃平, 佐藤 壮一郎, 松尾 充啓, 小保方 潤一 (2025)
化学と生物 63(6):274-280
プラズマの農業応用の広がり:大気圧バリア放電プラズマを用いた発芽促進の研究
眞銅雅子, 高木大輔, 松尾充啓 (2025)
アグリバイオ 9(11):63-65
2024
01
Mapping adipocyte interactome networks by HaloTag-enrichment–mass spectrometry
Yazaki J., Yamanashi T., Nemoto S., Kobayashi A., Han R., Hasegawa T., Iwase S., Ishikawa M., Konno R., Imami K., Kawashima Y., Kiyota J.
Biology Methods and Protocols. 2024; bpae039.
02
Characterization of metabolic phenotypes and distinctive genes in mice with low-weight gain
Nemoto S, Kubota T, Ishikura T, ... Yazaki J, et al.
The FASEB Journal. 2024;38(1):e23339.
2023
01
Inducible Expression of the Restriction Enzyme Uncovered Genome-Wide Distribution and Dynamic Behavior of Histones H4K16ac and H2A.Z at DNA Double-Strand Breaks in Arabidopsis
Kawaguchi K., Kazama M., Hata T., Matsuo M., Obokata J., Satoh S.
65(1):142-155 (2023).
細胞内共生進化におけるDNA転移のメカニズム
松尾充啓, 畑貴之, 佐藤壮一郎, 小保方潤一 (2023)
月刊細胞 55(6):70-73
2021
01
Kozak sequence acts as a negative regulator for de novo transcription initiation of newborn coding sequences in the plant genome
Hata T., Satoh S., Takada N., Matsuo M., Obokata J.
Mol. Biol. Evol. 38(7):2791-2803 (2021).
02
De novo activated transcription of inserted foreign coding sequences is inheritable in the plant genome
Hata T., Takada N., Hayakawa C., Kazama M., Uchikoba T., Tachikawa M., Matsuo M., Satoh S., Obokata J.
PLOS One (2021).
03
Cryptic promoter activation occurs by at least two different mechanisms in the Arabidopsis genome
Kudo H., Matsuo M., Satoh S., Hata T., Hachisu R., Nakamura M., Yamamoto Y.Y., Kimura H., Matsui M., Obokata J.
The Plant Journal 108:29-39 (2021).
2020
01
Preculture in an enriched nutrient medium greatly enhances the Agrobacterium-mediated transformation efficiency in Arabidopsis T87 cultured cells
Hata T., Mukae K., Satoh S., Matsuo M., Obokata J.
Plant Biotechnology 38:179-182 (2020).