Control of protein structure and function through surface recognition by tailored nanoparticle scaffolds.
about
Organic chemistry meets polymers, nanoscience, therapeutics and diagnosticsChemical basis of interactions between engineered nanoparticles and biological systemsAggregated gas molecules: toxic to protein?Engineering the nanoparticle-protein interface: applications and possibilitiesNon-covalent synthesis of metal oxide nanoparticle-heparin hybrid systems: a new approach to bioactive nanoparticles.Analytical strategies for detecting nanoparticle-protein interactions.Efficient pH dependent drug delivery to target cancer cells by gold nanoparticles capped with carboxymethyl chitosan25th anniversary article: interfacing nanoparticles and biology: new strategies for biomedicine.A Salmonella nanoparticle mimic overcomes multidrug resistance in tumours.Determination of the intracellular stability of gold nanoparticle monolayers using mass spectrometry.Photoregulated release of caged anticancer drugs from gold nanoparticles.Adsorption of cellular proteins to polyelectrolyte-functionalized gold nanorods: a mechanism for nanoparticle regulation of cell phenotype?Laronidase-functionalized multiple-wall lipid-core nanocapsules: promising formulation for a more effective treatment of mucopolysaccharidosis type I.Graphene oxide as an enzyme inhibitor: modulation of activity of α-chymotrypsin.Intrinsic therapeutic applications of noble metal nanoparticles: past, present and futureBeauty is skin deep: a surface monolayer perspective on nanoparticle interactions with cells and bio-macromolecules.Targeting protein-protein interactions by rational design: mimicry of protein surfacesThe role of surface functionality in determining nanoparticle cytotoxicityNoncovalent modification of chymotrypsin surface using an amphiphilic polymer scaffold: implications in modulating protein function.Sensing of proteins in human serum using conjugates of nanoparticles and green fluorescent protein.Regulation of enzyme activity through interactions with nanoparticles.Analytical strategies for characterizing the surface chemistry of nanoparticlesGold nanoparticles: opportunities and challenges in nanomedicine.Electrostatics at the nanoscale.Nanotechnology for protein delivery: Overview and perspectives.Acylsulfonamide-Functionalized Zwitterionic Gold Nanoparticles for Enhanced Cellular Uptake at Tumor pH.Intracellular delivery of a membrane-impermeable enzyme in active form using functionalized gold nanoparticles.Nano meets biology: structure and function at the nanoparticle interfaceKinetic investigation of bioresponsive nanoparticle assembly as a function of ligand design.Enzyme-amplified array sensing of proteins in solution and in biofluids.Probing the Protein-Nanoparticle Interface: The Role of Aromatic Substitution Pattern on Affinity.Sensitive Analysis of Protein Adsorption to Colloidal Gold by Differential Centrifugal Sedimentation.Enhancing protein stability by adsorption onto raftlike lipid domains.Electrochemical nanoparticle-enzyme sensors for screening bacterial contamination in drinking water.Mechanism of anti-angiogenic property of gold nanoparticles: role of nanoparticle size and surface charge.Insulin-Based Regulation of Glucose-functionalized Nanoparticle Uptake in Muscle Cells.Protein destabilisation by ruthenium(II) tris-bipyridine based protein-surface mimeticsThe role of ligand coordination on the cytotoxicity of cationic quantum dots in HeLa cells.A new approach to inhibit human β-tryptase by protein surface binding of four-armed peptide ligands with two different sets of arms.Inhibition of enzyme activity by nanomaterials: potential mechanisms and implications for nanotoxicity testing.
P2860
Q26738941-EAA3EF25-2A27-49A2-A427-C71C0F36F41DQ27021154-25297963-7C77-4585-8953-0702C45C98A2Q30009872-ECAE1204-3D27-4FA4-BA6D-7FD1FD3C9300Q30395585-67AFDFD4-82BA-4195-BA39-8A151237F2DFQ30651968-85B28EA0-4546-4563-B041-FE6DEFAB1D0FQ33587673-8EC17ACC-167B-4621-ADD0-5E95F0FD3036Q33755737-A7E7BC5F-3653-49ED-8D56-D7692A8BDE00Q33793138-74ED1495-9827-49AD-90E1-41A14F7BE5D6Q33908368-AC272296-9FF9-4FBD-A1DC-FE393BC48E72Q34240307-D348EC80-B505-4475-8283-3348767E536FQ34974579-463299F6-AFE5-4FA3-9BD6-804D619B2639Q35091382-62E8AB6A-2CB6-46F7-A3F5-1BC9F64560A8Q35246598-334D1E96-FC0E-4B2C-BEC8-A0651AE7875EQ35621889-620E20C0-84F7-4E26-AA62-A50C694EE1F9Q35942437-C9961C29-27B2-4440-96D9-D5D1CAF60066Q36452638-4EC2F9F7-3F1B-4394-A03E-75E909EDF944Q36539868-EFCA4D7D-99E8-41D8-A05F-D4CD212EFD3AQ36807868-43CEAFEF-77AA-4F76-A9F8-2B4C9A687D7DQ37001489-64B0E1AA-9831-47A4-8CA2-24F1C94A1418Q37435574-D78603E5-58DB-41CE-916F-74DFBFA931B3Q37464538-B8EDFCD4-C92D-4EDB-A852-F298F95CC876Q37567517-7C456581-3E22-4DDF-9492-658BA29FAC9CQ37735165-65EF9F7C-1865-46A3-9A8D-6487B9C36658Q37842183-C5C12615-5B09-40C5-A107-578CCE669729Q38605185-EBBFB767-6731-449A-A000-1D2B597F0AE3Q38887316-77DAFAB6-6502-4FBE-BF33-2BD82AE69201Q39352854-CC4E2EF1-C05F-4D47-BBEF-BF6401EF64DCQ39561959-50EAACBE-5E82-4210-AA7B-22A0BF60AB9FQ39845168-4349B147-CE7E-42A7-A538-93A25C59475EQ40045415-30458E97-6576-490A-9CE3-5959EA59E9ECQ40605471-A4D67575-0C93-4E97-8ABB-26F38F90C04CQ41071035-20547F32-6185-441F-920E-78D8249476E3Q41486819-4735C8A7-B2FC-49CA-A7A9-0DDC2E56706CQ41536095-B5FAABBF-38DD-487E-9FEA-7D3E5F14F1ECQ41828347-5359B6D7-277A-4F84-A9A2-D444BEA51AD0Q41843285-D9F88EA8-863B-4CB0-94CE-F6DE5179A199Q41868765-EAE47DAB-0830-4417-AE56-864360E820E1Q42088954-4E63D6AD-8100-42CD-96D1-FB92C4D2A5A9Q43573349-9D4AD645-784E-4A02-8A5F-2181FDC6F0B8Q45722295-07C9CE74-B99C-41E6-87E4-158DD7E90AA4
P2860
Control of protein structure and function through surface recognition by tailored nanoparticle scaffolds.
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Control of protein structure a ...... ilored nanoparticle scaffolds.
@ast
Control of protein structure a ...... ilored nanoparticle scaffolds.
@en
type
label
Control of protein structure a ...... ilored nanoparticle scaffolds.
@ast
Control of protein structure a ...... ilored nanoparticle scaffolds.
@en
prefLabel
Control of protein structure a ...... ilored nanoparticle scaffolds.
@ast
Control of protein structure a ...... ilored nanoparticle scaffolds.
@en
P2093
P356
P1476
Control of protein structure a ...... ailored nanoparticle scaffolds
@en
P2093
Ayush Verma
Nicholas O Fischer
Todd Emrick
P304
P356
10.1021/JA037470O
P407
P577
2004-01-01T00:00:00Z