A Structure-Activity Relationship Study for the Development of HSP47-Inhibitors
スポンサーリンク
概要
- 論文の詳細を見る
- 2007-03-01
著者
-
Koide Takaki
Faculty Of Pharmaceutical Sciences Niigata University Of Pharmacy And Applied Life Sciences
-
Koide Takaki
Faculty Of Pharmaceutical Science Niigata University Of Science And Applied Life Sciences
-
Asada Shinichi
Faculty Of Pharmaceutical Sciences Niigata University Of Pharmacy And Applied Life Sciences
-
Asada S
Kanagawa Prefectural Agricultural Research Institute Nebukawa Experimental Station
-
NISHIKAWA Yoshimi
Faculty of Pharmaceutical Sciences, Niigata University of Pharmacy and Applied Life Sciences
-
KITAGAWA Kouki
Faculty of Pharmaceutical Sciences, Niigata University of Pharmacy and Applied Life Sciences
-
Kitagawa Kouki
Faculty Of Pharmaceutical Sciences Niigata University Of Pharmacy And Applied Life Sciences
-
Kitagawa Kouki
Niigata University Of Pharmacy And Applied Life Sciences
-
Nishikawa Yoshimi
Faculty Of Pharmaceutical Sciences Niigata University Of Pharmacy And Applied Life Sciences
関連論文
- Effect of HSP47 on Prolyl 4-Hydroxylation of Collagen Model Peptides
- A Structure-Activity Relationship Study for the Development of HSP47-Inhibitors
- An Improved Synthesis of Collagen-model Peptides by the Use of 4-(4,6-Dimethoxy-1,3,5-triazin-2-yl)-4-methylmorpholinium Chloride (DMT-MM) as a Coupling Reagent
- Self-assembly of Self-complementary Peptides to Form Collagen-like Triple-helical Supramolecules
- HSP47-Binding Structural Epitopes in Triple Helical Collagen
- SUBSTRATE-BINDING SPECIFICITY OF HSP47, A PROCOLLAGEN-SPECIFIC MOLECULAR CHAPERONE
- Substrate Recognition of Collagen-Specific Molecular Chaperone HSP47 : Contribution of Arginine Residue in the Triple Helical Substrates
- Interaction of Collagen-specific Molecular Chaperone HSP47 with Collagen-model Peptides
- Difference in colony development of two Japanese bumblebees, Bombus hypocrita and B. ignitus (Hymenoptera: Apidae)
- Triple Helical Collagen-Like Peptides : Engineering and Applications in Matrix Biology
- Solid-Phase Synthesis of Sulfated α-Conotoxins Using Side-Chain Anchoring Approach
- SYNTHESES AND OPIOID ACTIVITIES OF ENKEPHALIN-AND DERMORPHIN-RELATED PEPTIDES
- Synthesis of Tyr(SO_3H)-Containing α-Conotoxins