about
Biologically templated assembly of hybrid semiconducting nanomesh for high performance field effect transistors and sensorsEffect of solid surface charge on the binding behaviour of a metal-binding peptide.Benchmark experimental data set and assessment of adsorption free energy for peptide-surface interactionsBiofabrication of ZnS:Mn luminescent nanocrystals using histidine, hexahistidine, and His-tagged proteins: a comparison study.Identification of multiple dityrosine bonds in materials composed of the Drosophila protein UltrabithoraxDense surface functionalization using peptides that recognize differences in organized structures of self-assembling nanomaterials.Peptides as new smart bionanomaterials: molecular-recognition and self-assembly capabilities.Genetically engineered peptides for inorganics: study of an unconstrained bacterial display technology and bulk aluminum alloy.Selection of peptides binding to metallic borides by screening M13 phage display libraries.Aqueous, protein-driven synthesis of transition metal-doped ZnS immuno-quantum dotsBiomineralization and size control of stable calcium phosphate core-protein shell nanoparticles: potential for vaccine applicationsAffinity-based release of polymer-binding peptides from hydrogels with the target segments of peptides.Modeling Pressure-Driven Transport of Proteins through a Nanochannel.Easy Access to Functional Patterns on Cellulose Paper by Combining Laser Printing and Material-Specific Peptide Adsorption.Carbon-binding designer proteins that discriminate between sp2- and sp3-hybridized carbon surfacesSelf-assembled two-dimensional protein arrays in bionanotechnology: from S-layers to designed lattices.Enhanced cellular adhesion on titanium by silk functionalized with titanium binding and RGD peptides.Evolving the use of peptides as components of biomaterials.A Palladium-Binding Deltarhodopsin for Light-Activated Conversion of Protonic to Electronic Currents.Programmable Bio-surfaces for Biomedical Applications.Direct and reversible immobilization and microcontact printing of functional proteins on glass using a genetically appended silica-binding tag.An artificial fusion protein between bone morphogenetic protein 2 and titanium-binding peptide is functional in vivo.Molecular-level understanding of the adsorption mechanism of a graphite-binding peptide at the water/graphite interface.Study of the nano-morphological versatility by self-assembly of a peptide mimetic molecule in response to physical and chemical stimuli.Bacteria-triggered release of antimicrobial agents.Antibiofilm Peptides and Peptidomimetics with Focus on Surface Immobilization.Laying out ground rules for protein-aided nanofabrication: ZnO synthesis at 70°C as a case study.Peptoids at the 7th Summit: Toward macromolecular systems engineeringSolid-Binding Peptides: Immobilisation Strategies for Extremophile Biocatalysis in Biotechnology
P2860
Q28821503-06C7AEBE-F1FA-4D59-A8B0-2D44169DC750Q30448461-4465EE07-3E60-4C87-B9C7-9D0F263E7F01Q33443255-38B38935-C00D-4581-8C88-47E8803E9CC7Q33856954-59297AD4-D518-4B3B-842C-17C160ECCB21Q33909928-7092CD44-C268-4240-9139-BF039192BECDQ34147324-A7099886-F16B-4F16-BCF6-C19A21EE3FC1Q34610897-2D8D36BA-FB88-4147-8AC7-3514C3E905F7Q34837071-854C321C-DAA6-44E5-8975-B8D3E5860686Q35089922-D1176733-4B2F-4284-9981-2E15D28FAEF8Q35484563-9693AA9F-EBAA-4140-BC68-6B41326A4CD6Q35846356-505896B8-A6F3-4E19-920C-302732844BD5Q35855153-56E71BD1-5996-48C4-9DE7-E0B58ECD2729Q35964743-499BFEE6-0329-4505-B985-B1857FCDBF62Q36059739-1EC81BB3-FA58-4685-82E0-11326D40DE20Q36856325-D98671BC-E9FF-4D3E-A3D3-35E2F1569657Q38212050-98F0BB9F-7BB7-4BAC-8942-A4446C27CFC0Q41766419-0A4DB288-2B78-4873-98D4-CD469AD00256Q42225643-89A8A953-74DF-4177-8925-594219424185Q45943709-EB72A7F1-340E-4CE7-8E84-9D537094DC46Q47400920-4FD9A536-54DA-4367-AA4F-C49AC71ACA0EQ50228340-C778872C-D165-431C-9552-A874CF0A032FQ51034105-4B96A826-CD8B-434E-AC00-58EC63D53740Q53250743-97AEA5F7-7823-4F8F-BA4B-EF6EABEDA10CQ53631467-DF489D05-AF2A-42A1-B43E-7BCFC273ABA3Q53663211-A6C35A6B-95A5-4AB2-99F3-D6AF6C3F9150Q54207896-96B1A70F-3C08-45D7-838B-8B0EFC9402D8Q54341732-8239563F-3D4A-4763-8D8D-0CA056917CE0Q56454345-D3BF732D-DF09-410B-B940-A6793EF8D5F3Q59203082-F6E9C9E6-903B-474B-A0AB-8F5D903D3408
P2860
description
2007 nî lūn-bûn
@nan
2007 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Selection and analysis of solid-binding peptides.
@ast
Selection and analysis of solid-binding peptides.
@en
Selection and analysis of solid-binding peptides.
@nl
type
label
Selection and analysis of solid-binding peptides.
@ast
Selection and analysis of solid-binding peptides.
@en
Selection and analysis of solid-binding peptides.
@nl
prefLabel
Selection and analysis of solid-binding peptides.
@ast
Selection and analysis of solid-binding peptides.
@en
Selection and analysis of solid-binding peptides.
@nl
P1476
Selection and analysis of solid-binding peptides.
@en
P2093
Daniel T Schwartz
François Baneyx
P304
P356
10.1016/J.COPBIO.2007.04.008
P577
2007-07-05T00:00:00Z