Protein refolding assisted by self-assembled nanogels as novel artificial molecular chaperone.
about
Novel vaccine development strategies for inducing mucosal immunityStrategies for the recovery of active proteins through refolding of bacterial inclusion body proteinsEffect of nanoparticles on protein folding and fibrillogenesis.Hydrogels composed of organic amphiphiles and alpha-cyclodextrin: supramolecular networks of their pseudorotaxanes in aqueous media.The preliminary evaluation on cholesterol-modified pullulan as a drug nanocarrier.Nanotechnology-novel therapeutics for CNS disordersMaturation of dendritic cells by pullulan promotes anti-cancer effect.Design and engineering of nanogels for cancer treatment.Protein refolding using chemical refolding additives.Nanogel-based antigen-delivery system for nasal vaccines.Nanogel--an advanced drug delivery tool: Current and future.Design and processing of nanogels as delivery systems for peptides and proteins.Micro- and nanogels with labile crosslinks - from synthesis to biomedical applications.Basic concepts and recent advances in nanogels as carriers for medical applications.Cell specific peptide-conjugated polysaccharide nanogels for protein delivery.PrP(C) association with lipid rafts in the early secretory pathway stabilizes its cellular conformation.Cellular uptake mechanism and intracellular fate of hydrophobically modified pullulan nanoparticles.Synthesis and Characterization of Self-Assembled Nanogels Made of Pullulan.Inhibition of protein aggregation by zwitterionic polymer-based core-shell nanogels.Synthetic "chaperones": nanoparticle-mediated refolding of thermally denatured proteins.Cyclodextrins enhance recombinant phosphatidylinositol phosphate kinase activity.High drug loading pH-sensitive pullulan-DOX conjugate nanoparticles for hepatic targeting.The role of detergent in refolding of GdnHCl-denatured arginine kinase from shrimp Fenneropenaeus Chinensis: the solubilization of aggregate and refolding in detergent solutions.Effect of Photoinduced Size Changes on Protein Refolding and Transport Abilities of Soft Nanotubes.Nanogel-based scaffold delivery of prostaglandin E(2) receptor-specific agonist in combination with a low dose of growth factor heals critical-size bone defects in mice.Research progress of self-assembled nanogel and hybrid hydrogel systems based on pullulan derivatives.Glycolipid-based nanostructures with thermal-phase transition behavior functioning as solubilizers and refolding accelerators for protein aggregates.Refolding of Aggregation-Prone ScFv Antibody Fragments Assisted by Hydrophobically Modified Poly(sodium acrylate) Derivatives.Cationic pullulan nanogel as a safe and effective nasal vaccine delivery system for respiratory infectious diseases.Amphiphilic polysaccharide nanogels as artificial chaperones in cell-free protein synthesis.Nanogel Engineering by Associating Polymers for Biomedical ApplicationsHydrogel Nanoparticles in Drug DeliveryInhibition of the formation of amyloid β-protein fibrils using biocompatible nanogels as artificial chaperones
P2860
Q24607533-10D03AB3-739F-45A3-8A74-1A73A5491ADEQ24792799-C9CAA228-A37F-4535-9C9A-1DE27629838DQ33424538-7F927CF0-1B12-4115-AB5D-06BE8A98C17AQ33561829-E45DF2C2-99CB-45E3-AEF7-A06B16EDC766Q35119645-E200349E-6DCA-423D-AC50-96FCB45CA037Q37173643-F15726BC-A8C3-481F-B979-BCDA90779EB0Q37536983-F4CC86C7-1E02-41CE-9C70-719EC669A340Q37854158-5FE8160A-B4FE-49FF-8E6B-4B8329FEC657Q38042408-91D48CC2-B3E1-48E5-8C1C-B51CE1F95FEFQ38191009-2BE4600E-4AFC-4680-AA78-14633B713053Q38232948-674EB96A-9661-474B-9D58-BADD468B8442Q38236697-89C00B11-99A1-4865-9518-07D63859D571Q38332155-9B6856D1-5167-4198-8F84-205998786C50Q38970116-0631E5BE-5E3D-4F67-AE52-1C60205204ACQ39558860-4A17D747-2DDD-4893-A165-24AEF9A4EFFBQ39968483-57CF7D01-E8C7-4CE7-AB07-E645E3E7EC6AQ40656240-89C43BB9-7953-4737-95BF-3A5E96FB38ECQ41616120-BBD8B46C-7374-48EE-811A-9DC026CC97A1Q42292895-376DFE54-E225-4D6E-897A-8FCCB39BE3B6Q43176751-6CC365D5-5693-44CF-9E46-1B66B54E390FQ44859977-B0071ECA-3AE4-4288-9333-98AE007F39DAQ45802488-4481884D-2BD4-4C27-9180-B00701B63C17Q46466579-12DD1F19-22F0-48A2-9EA8-49D8E8AC28E0Q47308119-AB43DE33-E0C0-4861-AA01-551159FB2718Q47399212-27425DD9-2735-479F-B8B5-C034ACAA21A6Q50044627-0E9B944D-1099-4B4F-9BE9-E13615A8F3C8Q51080182-8A62357F-4B8E-48DE-AF30-82952F8CAAB6Q51557597-6F682784-67F5-4F24-8160-B9D089CD74E9Q52602775-2E993D94-FF5E-4130-9E9F-44A37A89DF98Q54366783-776ABEA0-9028-47CD-9B74-D95F74F73BB6Q57341217-98C73A3B-EFB5-4DEE-B3D0-819C31A30620Q57346576-31B2114D-E1F6-4239-AB54-71C3FC281E7FQ57360810-7FBF001F-205E-4AC9-96E4-9907B6B33455
P2860
Protein refolding assisted by self-assembled nanogels as novel artificial molecular chaperone.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Protein refolding assisted by ...... rtificial molecular chaperone.
@en
Protein refolding assisted by ...... rtificial molecular chaperone.
@nl
type
label
Protein refolding assisted by ...... rtificial molecular chaperone.
@en
Protein refolding assisted by ...... rtificial molecular chaperone.
@nl
prefLabel
Protein refolding assisted by ...... rtificial molecular chaperone.
@en
Protein refolding assisted by ...... rtificial molecular chaperone.
@nl
P2093
P2860
P921
P1433
P1476
Protein refolding assisted by ...... rtificial molecular chaperone.
@en
P2093
Kazunari Akiyoshi
Masahiro Ikeda
Nozomi Yamaguchi
Yasuhiro Aoyama
Yuta Nomura
P2860
P304
P356
10.1016/S0014-5793(03)01028-7
P407
P577
2003-10-01T00:00:00Z