1. |
新たな顕微技術が明らかにする細胞内分子動態. |
2. |
クライオ電子顕微鏡が観たカルシウムポンプの分子描像. |
3. |
Crystallographic and small angle X-ray scattering analyses provide mew mechanistic insight into the protein quality control system by the ER-resident oxidoreductases and their upstream Enzymes. |
4. |
Novel structural insight provided by cryo-electron microscopy analysis. |
5. |
The brave to change your research theme: let's establish our own research field!. |
6. |
次世代のアカデミア創薬を担う若手の力 抗がん剤を目指した若手研究者連携による創薬スクリーニング. |
7. |
膵臓で特異的に発現するPDIファミリータンパク質(PDIp)の生理的機能の解析. |
8. |
小胞体ストレスタンパク質を標的とした抗癌剤スクリーニング. |
9. |
膵特異的に発現するPDIファミリータンパク質(PDIp)の生理的機能の解析. |
10. |
[NiFe]ヒドロゲナーゼへNiを組み込むHypAB複合体の結晶構造解析. |
11. |
新規PDIファミリータンパク質ERp46の構造と機能. |
12. |
ERdj5(JPDI)基質候補タンパク質のマウス個体組織からの網羅的同定. |
13. |
哺乳動物細胞の小胞体におけるジスルフィド結合形成ネットワークの構造基盤. |
14. |
哺乳動物細胞小胞体に局在するERdj5(JPDI)の生理的基質候補タンパク質の網羅的解析. |
15. |
分泌タンパク質の成熟化を監視するpHに依存的な新たなタンパク質品質管理機構の発見. |
16. |
1P009 NMR analyses of relation-ship between multidomain structure and functions of protein disulfide isomerase. |
17. |
K Inaba, YH Takahashi, N Fujieda, K Kano, H Miyoshi, K Ito, DsbB elicits a red-shift of bound ubiquinone during the catalysis of DsbA oxidation (vol 279, pg 6761, 2004), JOURNAL OF BIOLOGICAL CHEMISTRY, Vol.279, No.23, p.24906, 2004.06. |
18. |
Yoshiki Yamaguchi, Michiko Nakano, Chiho Murakami, Hiroaki Sasakawa, Takushi Harada, Eiji Kurimoto, Takeshi Iguchi, Osamu Asami, Tsutomu Kajino, Kenji Inaba, Koichi Kato, Redox-dependent conformational alteration of protein disulfide isomerase, CELL STRUCTURE AND FUNCTION, Vol.29, p.93, 2004.05. |
19. |
Three-dimensional structure and domain-domain interactions of protein disulfide isomerase as revealed by NMR spectroscopy. |
20. |
2R1600 Structural analyses of protein disulfide isomerase focused on the active sites and domain-domain interactions. |
21. |
Structure of the folding intermediate of apomyolobin studied by fluorescence quenching.. |
22. |
Effects of intersubunit hydrogen bonds on association property of hemoglobin. |
23. |
Structures and Functions of the artificial globins designed by the substitution of the heme binding module. |
24. |
Crystal structure analyses of module substituted chimera hemoglobins. |
25. |
K Inaba, K Wakasugi, K Ishimori, Morishima, I, Preparation and characterization of novel hemoproteins by module substitution in hemoglobin subunits, PROTEIN ENGINEERING, Vol.8, No.9, p.50, 1995.09. |