Website:
http://www.nojilab.t.u-tokyo.ac.jp/
Papers:
“Accurate high-throughput screening based on digital protein synthesis in a massively parallel femtoliter droplet array” (2019) Science Advances
“Arrayed lipid bilayer chambers allow single-molecule analysis of membrane transporter activity” (2014) Nature Communications
“High-Speed Atomic Force Microscopy Reveals Rotary Catalysis of Rotorless F1-ATPase” (2011) Science
“Highly coupled ATP synthesis by F1-ATPase single molecules” (2005) Nature
Media:
編集・合成のさらに先!「人工細胞リアクタ」がゲノム産業を飛躍させる(EMIRA)
わずか一滴の体液で診断:がんや感染症を従来の100万倍もの高感度で検出(JST News)
http://www.nojilab.t.u-tokyo.ac.jp/
Papers:
“Accurate high-throughput screening based on digital protein synthesis in a massively parallel femtoliter droplet array” (2019) Science Advances
“Arrayed lipid bilayer chambers allow single-molecule analysis of membrane transporter activity” (2014) Nature Communications
“High-Speed Atomic Force Microscopy Reveals Rotary Catalysis of Rotorless F1-ATPase” (2011) Science
“Highly coupled ATP synthesis by F1-ATPase single molecules” (2005) Nature
Media:
編集・合成のさらに先!「人工細胞リアクタ」がゲノム産業を飛躍させる(EMIRA)
わずか一滴の体液で診断:がんや感染症を従来の100万倍もの高感度で検出(JST News)
