about
Imparting biomolecules to a metal-organic framework material by controlled DNA tetrahedron encapsulation.Self-assembly of a supramolecular hexagram and a supramolecular pentagramDimerization is not a determining factor for functional high affinity human plasminogen binding by the group A streptococcal virulence factor PAM and is mediated by specific residues within the PAM a1a2 domain.Synthesis of a Fluorophore with Improved Optical BrightnessMetallosupramolecular grid complexes: towards nanostructured materials with high-tech applications.Template-free multicomponent coordination-driven self-assembly of Pd(II)/Pt(II) molecular cages.Diffusion NMR of molecular cages and capsules.Integration of Biomolecules with Metal-Organic Frameworks.Sequence-selective encapsulation and protection of long peptides by a self-assembled FeII8L6 cubic cage.A Self-Assembled Spherical Complex Displaying a Gangliosidic Glycan Cluster Capable of Interacting with Amyloidogenic Proteins.Self-assembly of dynamic orthoester cryptates.Tailored protein encapsulation into a DNA host using geometrically organized supramolecular interactions.Fitting Proteins into Metal Organic Frameworks.Geometric curvature controls the chemical patchiness and self-assembly of nanoparticles.Macromolecular semi-rigid nanocavities for cooperative recognition of specific large molecular shapes.A supramolecular sorting hat: stereocontrol in metal-ligand self-assembly by complementary hydrogen bonding.Geometrically restricted intermediates in the self-assembly of an M12L24 cuboctahedral complex.Altering the Peptide Binding Selectivity of Polymeric Reverse Micelle Assemblies via Metal Ion Loading.Self-Assembly of Giant Spherical Liquid-Crystalline Complexes and Formation of Nanostructured Dynamic Gels that Exhibit Self-Healing Properties.Synthesis of Metallic Nanoparticles Using Closed-Shell Structures as Templates.A tetramer micelle: the smallest aggregation number corresponding to the vertex number of regular polyhedra in platonic micelles.Design of a flexible organometallic tecton: host-guest chemistry with picric acid and self-assembly of platinum macrocycles.Chirality-Assisted Synthesis of a Very Large Octameric Hydrogen-Bonded Capsule.Giant hollow M(n)L(2n) spherical complexes: structure, functionalisation and applications.Hyper-Assembly of Self-Assembled Glycoclusters Mediated by Specific Carbohydrate-Carbohydrate Interactions.Large, heterometallic coordination cages based on ditopic metallo-ligands with 3-pyridyl donor groups.A self-assembled, π-stacked complex as a finely-tunable magnetic aligner for biomolecular NMR applications.An M12(L(1))12(L(2))12 cantellated tetrahedron: a case study on mixed-ligand self-assembly.Intermolecular Interactions between Eosin Y and Caffeine Using (1)H-NMR Spectroscopy.Generation of Dynamic Combinatorial Libraries Using Hydrazone-Functionalized Surface Mimetics.Study of new metallomacrocyclic Pd(ii) complexes based on hybrid pyrazole sulfoxide/sulfone ligands and their contribution to supramolecular networksDesigned Enclosure Enables Guest Binding Within the 4200 Å3Cavity of a Self-Assembled CubeSelf-Assembly of Giant Spherical Liquid-Crystalline Complexes and Formation of Nanostructured Dynamic Gels that Exhibit Self-Healing PropertiesFinely Resolved Threshold for the Sharp M12L24/M24L48Structural Switch in Multi-Component MnL2nPolyhedral Assemblies: X-ray, MS, NMR, and Ultracentrifugation AnalysesMetal-Organic Caged AssembliesA facile “click” approach to functionalised metallosupramolecular architecturesSingle-step alcohol-free synthesis of core–shell nanoparticles of β-casein micelles and silicaSupramolecular chemistrySelf-assembly of tetravalent Goldberg polyhedra from 144 small components
P2860
Q30433005-961980F7-2F5F-4ECD-A34C-367C9D3548F1Q33754344-B3C6AB3C-5E55-4621-87CD-782569A6D829Q33985380-91CACE30-FBB4-49E2-9C40-9B07F5191C3AQ34562302-963E71E5-0B23-4E31-8634-4BFA1D3867B7Q38116411-E1EED544-9CD7-4FF4-BE8E-736F72E02AE6Q38182334-FFEAD1A9-571F-4CAA-86F7-E7FEE5C325B5Q38238773-D32BC345-A81E-4405-973A-609FD73A85CBQ39391097-C8961592-1ABA-43F8-9B0E-C02E3091F8BCQ40267175-23808771-2350-4306-BB82-A9D8B5D70C61Q41714984-FC8F665B-F098-4F57-BA50-55EF5ED35299Q42116182-826BEB7A-E12E-4676-9961-BDCBD3133150Q42320711-351083C6-4EBB-497B-81D1-7A3DCCEA21B9Q42556051-FED02F09-CE8B-4119-B258-C302CE89F078Q44204387-EBC9BEA7-2FB4-43A6-9D63-5665E4362C45Q44793309-969DF991-EBF4-481B-B44C-0FC9187FA6B2Q46284253-3D146DAB-B49A-49B6-A486-73A8C48798FCQ46816468-A7B5D73D-FB90-4E2D-B0BA-998F9B72FA57Q47106111-8E682D77-C9D0-42B8-90CB-5C28445B4E43Q47710745-3DB1B2E7-81AA-47F0-A56C-548C8F6B773AQ48272039-646E01A2-711A-401C-85C2-4BA85770EB35Q48304323-54C82A0A-CAD8-433E-AF01-6C0551E7DF9DQ48324947-34F93608-06E3-40C4-88D1-9C75131ED04FQ48930365-D92BAD83-357E-4051-8D16-084E05E3948BQ50893818-500E4BC7-6188-4D16-8C18-C76BEEFA5761Q50954428-18216053-EEE8-4D09-8154-794E17205E8FQ53237785-69F2C4D2-D94C-48E6-BD17-9940B9EF7353Q53345233-266F57D9-A792-4A7C-A8BB-49318851659CQ53421626-362953BC-73B0-40F2-9C02-6DBE0CD24B4BQ54267248-B86F1312-09B2-4D30-8805-EAFA89EB5205Q54941577-2C14D4BF-1102-4768-ACDA-D2C3EFF81C27Q57703657-7806FB5C-36A8-413B-9CED-AF561869A6A8Q57950703-47E8869D-6644-4BDC-A540-EEF1D96DECB7Q57966357-1B0F4B2A-D470-4476-85E2-55E982EC7973Q57966405-52717115-F7B9-481A-9216-2683229EBB30Q57966496-7E8CC282-A1A5-40CC-B6D9-34BC4AB343A7Q58242811-E5BF6FDF-44D3-426F-AB7C-3A5D85D76D92Q58281895-D5EACAA2-B4A9-4ABC-8175-CD4473C4C700Q58875441-73B533D2-E060-4D7C-9B39-808783162170Q59065812-35BBEE46-3AD3-4C26-A9D6-AD76A66D5E70
P2860
description
article publié dans Nature Communications
@fr
im Januar 2012 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published in Nature Communications
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2012
@uk
name
Protein encapsulation within synthetic molecular hosts
@en
Protein encapsulation within synthetic molecular hosts
@nl
type
label
Protein encapsulation within synthetic molecular hosts
@en
Protein encapsulation within synthetic molecular hosts
@nl
prefLabel
Protein encapsulation within synthetic molecular hosts
@en
Protein encapsulation within synthetic molecular hosts
@nl
P2093
P50
P356
P1476
Protein encapsulation within synthetic molecular hosts
@en
P2093
Daishi Fujita
Masaki Takata
Masanori Noda
Nobuhiro Mizuno
Yoshiki Yamaguchi
P2888
P356
10.1038/NCOMMS2093
P407
P577
2012-01-01T00:00:00Z