Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
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Protein Calligraphy: A New Concept Begins To Take ShapeSelf-assembled bionanostructures: proteins following the lead of DNA nanostructuresFusion to a homo-oligomeric scaffold allows cryo-EM analysis of a small proteinRational design of heterodimeric protein using domain swapping for myoglobinOn the predictability of the orientation of protein domains joined by a spanning alpha-helical linkerOligomerization enhancement and two domain swapping mode detection for thermostable cytochrome c552 via the elongation of the major hinge loopDesigning and defining dynamic protein cage nanoassemblies in solution.Crystal structure of an amphiphilic foldamer reveals a 48-mer assembly comprising a hollow truncated octahedronStructure of a designed protein cage that self-assembles into a highly porous cube.Protein Synthesis with Ribosomes Selected for the Incorporation of β-Amino Acids.Connecting two proteins using a fusion alpha helix stabilized by a chemical cross linker.Flexible, symmetry-directed approach to assembling protein cages.TOPOFOLD, the designed modular biomolecular folds: polypeptide-based molecular origami nanostructures following the footsteps of DNA.Self-assembly of Ni-NTA-modified β-annulus peptides into artificial viral capsids and encapsulation of His-tagged proteins.Two-Dimensional Peptide and Protein Assemblies.Modified TMV Particles as Beneficial Scaffolds to Present Sensor Enzymes.Domain-swapped cytochrome cb562 dimer and its nanocage encapsulating a Zn-SO4 cluster in the internal cavity.Uncertainty Quantified Computational Analysis of the Energetics of Virus Capsid Assembly.Viral Capsid Assembly: A Quantified Uncertainty Approach.Rational Design of Domain-Swapping-Based c-Type Cytochrome Heterodimers by Using Chimeric Proteins.Designed Protein Origami.Artificial multienzyme supramolecular device: highly ordered self-assembly of oligomeric enzymes in vitro and in vivo.Synthesis of cobalt cluster-based supramolecular triple-stranded helicates.Supracolloidal fullerene-like cages: design principles and formation mechanisms.Engineering aqueous fiber assembly into silk-elastin-like protein polymers
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P2860
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
description
2013 nî lūn-bûn
@nan
2013 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Structure and Flexibility of Nanoscale Protein Cages Designed by Symmetric Self-Assembly
@nl
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@ast
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@en
type
label
Structure and Flexibility of Nanoscale Protein Cages Designed by Symmetric Self-Assembly
@nl
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@ast
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@en
prefLabel
Structure and Flexibility of Nanoscale Protein Cages Designed by Symmetric Self-Assembly
@nl
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@ast
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@en
P2093
P2860
P921
P3181
P356
P1476
Structure and flexibility of nanoscale protein cages designed by symmetric self-assembly.
@en
P2093
Francisco J Asturias
Kuang-Lei Tsai
Yen-Ting Lai
P2860
P304
P3181
P356
10.1021/JA402277F
P407
P577
2013-05-08T00:00:00Z