Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
about
Crystal Structure of the Interferon Gamma Receptor Alpha Chain from Chicken Reveals an Undetected Extra Helix Compared with the Human CounterpartsPeptide chips for the quantitative evaluation of protein kinase activity.An effective method for quantitative evaluation of proteins adsorbed on biomaterial surfaces.Cell culture on MEMS platforms: a review.Assessment of the transferability of a protein force field for the simulation of peptide-surface interactionsA priori prediction of adsorption isotherm parameters and chromatographic behavior in ion-exchange systems.Effects of polyamines on the thermal stability and formation kinetics of DNA duplexes with abnormal structureSurvey of the year 2000 commercial optical biosensor literature.Perspectives on the simulation of protein-surface interactions using empirical force field methods.Broadband wide-angle dispersion measurements: instrumental setup, alignment, and pitfalls.Chemical-vapor-deposition-based polymer substrates for spatially resolved analysis of protein binding by imaging ellipsometry.Heparin-mimetic sulfated peptides with modulated affinities for heparin-binding peptides and growth factors.Structural evaluation of GM1-related carbohydrate-cholera toxin interactions through surface plasmon resonance kinetic analysis.High-affinity interaction between fibronectin and the group B streptococcal C5a peptidase is unaffected by a naturally occurring four-amino-acid deletion that eliminates peptidase activityPlasmonic-based electrochemical impedance spectroscopy: application to molecular bindingA regenerative label-free fiber optic sensor using surface plasmon resonance for clinical diagnosis of fibrinogenBenchtop chemistry for the rapid prototyping of label-free biosensors: Transmission localized surface plasmon resonance platforms.Surface plasmon resonance as a high throughput method to evaluate specific and non-specific binding of nanotherapeutics.Optical sensing of analytes in aqueous solutions with a multiple surface-plasmon-polariton-wave platform.Elucidation of molecular structures at buried polymer interfaces and biological interfaces using sum frequency generation vibrational spectroscopySPR studies of carbohydrate-protein interactions: signal enhancement of low-molecular-mass analytes by organoplatinum(II)-labeling.Nanoporous Anodic Alumina: A Versatile Platform for Optical Biosensors.Regulation of K-Ras4B Membrane Binding by Calmodulin.Surface plasmon resonance and molecular docking studies of bovine serum albumin interaction with neomycin: kinetic and thermodynamic analysisAmphiphilicity in homopolymer surfaces reduces nonspecific protein adsorption.Polymer surface functionalities that control human embryoid body cell adhesion revealed by high throughput surface characterization of combinatorial material microarrays.Characterization of Biomaterials by Soft X-Ray Spectromicroscopy.Peptide-surface adsorption free energy comparing solution conditions ranging from low to medium salt concentrationsQuantitative Detection of Weak D Antigen Variants in Blood Typing using SPR.Predicting the orientation of protein G B1 on hydrophobic surfaces using Monte Carlo simulations.Moenomycin-mediated affinity purification of penicillin-binding protein 1b.Adsorbed poly(ethyleneoxide)-poly(propyleneoxide) copolymers on synthetic surfaces: spectroscopy and microscopy of polymer structures and effects on adhesion of skin-borne bacteria.Limits of detection for time of flight secondary ion mass spectrometry (ToF-SIMS) and X-ray photoelectron spectroscopy (XPS): detection of low amounts of adsorbed protein.Direct AFM force mapping of surface nanoscale organization and protein adsorption on an aluminum substrate.Elucidating Protein/Ligand Recognition with Combined Surface Plasmon Resonance and Surface Enhanced Raman Spectroscopy.Redox-dependent interactions between reduced/oxidized cytochrome c and cytochrome c oxidase evaluated by in-situ electrochemical surface plasmon resonance.Application of advanced sampling and analysis methods to predict the structure of adsorbed protein on a material surface.Duffy blood group (Fya & Fyb) analysis using surface plasmon resonance.Simulation on wavelength-dependent complex refractive index of liquids obtained by phase retrieval from reflectance dip due to surface plasmon resonance.Kinetics of Competitive Adsorption between Lysozyme and Lactoferrin on Silicone Hydrogel Contact Lenses and the Effect on Lysozyme Activity.
P2860
Q27680695-B461B895-102D-41D5-8E9A-231BEEDDB4FAQ30822070-533B66B6-C47D-4D14-9488-79A7DC5F548CQ31153890-1178428A-DBD3-4B34-8E83-B7E65BCD21F5Q33572805-FD59016F-2225-4E38-B131-DD01F7D7E635Q33847044-8E6FC92E-2234-4EA7-9811-481B90F6959BQ33920014-17D50FCB-3A75-4D58-90DD-A48790180AE1Q34004536-60979D39-44EE-497F-834B-B98245E306C0Q34464911-F3F0D99F-DD52-4E07-BEF1-525E4370A529Q34616436-6C297B68-AEAF-4EAA-9FC2-25B07407ADE1Q34654717-BAE7EDC3-60D7-4AC2-803D-02924C9768EAQ34702706-99C50E07-D36D-4907-B66F-9F388698729AQ35001204-F2BA2B94-4CED-4EA5-858E-354AB1A9E629Q35002948-418006F2-786C-4FB8-A8BC-D44316A5AC80Q35073955-653153F4-200C-46C2-8A36-8F16AC87A067Q35821747-A43493BC-3E90-428A-826C-2C34B891C3E7Q36015965-FED5A9AB-F16F-4949-98BB-ECC85E647A4DQ36253743-7EE8B048-E792-4FD9-B413-E4ECE71B4DD8Q36307546-CDB952CF-78E8-4675-A18A-9AE2E0F71AEEQ36671056-4B40420A-E02A-4FB2-A19B-1B039B26ACDCQ36866711-BEFC4C81-A0ED-4BF8-86E1-0A649DE22351Q38325927-4F9FFD40-3BE1-4042-9265-8273D2F5F5EAQ39185526-430B157C-78AC-4555-AFA1-F8DDDB60627DQ39606227-113D2541-0507-453C-B3AA-9569E4571819Q41109869-763AAE53-CD0D-4727-991F-5B4D2858D505Q41239888-141FD5E4-8897-47A9-A130-362461FF99F2Q41496230-3D08502E-BCA0-4366-9131-F62E38178FFDQ42150303-EF55A844-2253-49F4-B0E1-B0691DC722DFQ42185432-14AA42EB-BDAF-4D00-BE8E-920C44577DD5Q42267013-CE065D5D-A5B7-450D-AF0F-B6A43FAE8770Q42355188-97315432-F8E2-49BA-BF38-42BFEC683C93Q43947698-5C3DEE59-50A8-4DAA-8373-279B8B40FBC3Q44062467-5CB05596-ACF6-4B34-B19A-8D37D7E210FCQ44087757-492317F2-EC90-4608-9D77-F330F8A3549CQ45831910-32B47231-0D3B-4D66-891E-9529249F360BQ47405583-9F7436DF-97BD-4148-B827-08B9638A0514Q50239333-5F82626B-A93F-4C7A-852B-0BACBEEC5E8CQ50871186-CD70BD4A-06FE-435B-9135-64F36C65D18BQ51120948-5BDB8E92-D655-4526-937B-56EBA60F9554Q52006934-7F8131D5-828B-46C7-A6CD-A0FAEC95B338Q53435525-39BB2279-C717-47F5-80FF-F4D674F3DE99
P2860
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
description
2000 nî lūn-bûn
@nan
2000 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@ast
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@en
type
label
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@ast
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@en
prefLabel
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@ast
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@en
P2093
P1433
P1476
Surface plasmon resonance analysis of dynamic biological interactions with biomaterials.
@en
P2093
Frazier RA
Roberts CJ
Shakesheff KM
Tendler SJ
P304
P356
10.1016/S0142-9612(00)00077-6
P577
2000-09-01T00:00:00Z