Structural insights into biological roles of protein-glycosaminoglycan interactions.
about
Heparan sulfate 6-O-endosulfatases: discrete in vivo activities and functional co-operativityGlypican-1 is frequently overexpressed in human gliomas and enhances FGF-2 signaling in glioma cellsSurface Proteoglycans as Mediators in Bacterial Pathogens InfectionsDiverse Roles of Heparan Sulfate and Heparin in Wound RepairPolysaccharide nanosystems for future progress in cardiovascular pathologiesE Protein Domain III Determinants of Yellow Fever Virus 17D Vaccine Strain Enhance Binding to Glycosaminoglycans, Impede Virus Spread, and Attenuate VirulenceA 3D-structural model of unsulfated chondroitin from high-field NMR: 4-sulfation has little effect on backbone conformationCharacterization of molecular interactions between eosinophil cationic protein and heparinGS-align for glycan structure alignment and similarity measurement.A Simple Method for Discovering Druggable, Specific Glycosaminoglycan-Protein Systems. Elucidation of Key Principles from Heparin/Heparan Sulfate-Binding ProteinsFell-Muir Lecture: Heparan sulphate and the art of cell regulation: a polymer chain conducts the protein orchestra.Direct identification of nonreducing GlcNAc residues on N-glycans of glycoproteins using a novel chemoenzymatic methodProfiling heparin-chemokine interactions using synthetic toolsSynthetic polymer nanoparticle-polysaccharide interactions: a systematic study.Enzymatic synthesis of heparin related polysaccharides on sensor chips: rapid screening of heparin-protein interactions.Extending pathways based on gene lists using InterPro domain signatures.Raman spectroscopic investigation of peptide-glycosaminoglycan interactions.UV-MALDI-TOF mass spectrometry analysis of heparin oligosaccharides obtained by nitrous acid controlled degradation and high performance anion exchange chromatography.Towards the assembly of heparin and heparan sulfate oligosaccharide libraries: efficient synthesis of uronic acid and disaccharide building blocks.Spatial frequency analysis of anisotropic drug transport in tumor samples.Preactivation-based, one-pot combinatorial synthesis of heparin-like hexasaccharides for the analysis of heparin-protein interactions.Heparin-binding motifs and biofilm formation by Candida albicans.Extension and validation of the GLYCAM force field parameters for modeling glycosaminoglycans.Glycosaminoglycans detection methods: Applications of mass spectrometry.The Good the Bad and the Ugly of Glycosaminoglycans in Tissue Engineering ApplicationsThe use of bioinspired alterations in the glycosaminoglycan content of collagen-GAG scaffolds to regulate cell activityDevelopment and characterization of magnetic iron oxide nanoparticles with a cisplatin-bearing polymer coating for targeted drug deliveryHuman versus porcine tissue sourcing for an injectable myocardial matrix hydrogel.An anticoagulant activity system using nanoengineered autofluorescent heparin nanotubes.Interstitial fluid: the overlooked component of the tumor microenvironment?Exploiting enzyme specificities in digestions of chondroitin sulfates A and C: production of well-defined hexasaccharidesEnhanced regenerative healing efficacy of a highly skin-permeable growth factor nanocomplex in a full-thickness excisional mouse wound modelA sulfated nanofibrous mesh supporting the osteogenic differentiation of periosteum-derived cells.The "CPC clip motif": a conserved structural signature for heparin-binding proteins.Glycomics: an integrated systems approach to structure-function relationships of glycans.Effect of the substituents of the neighboring ring in the conformational equilibrium of iduronate in heparin-like trisaccharides.Structural basis of single molecular heparin-FX06 interaction revealed by SPM measurements and molecular simulations.On the specificity of heparin/heparan sulfate binding to proteins. Anion-binding sites on antithrombin and thrombin are fundamentally different.On scaffold hopping: challenges in the discovery of sulfated small molecules as mimetics of glycosaminoglycans.Characterizing the microstructure of heparin and heparan sulfate using N-sulfoglucosamine 1H and 15N NMR chemical shift analysis
P2860
Q24673740-B4F181CC-43AC-4DCE-BD30-D7F0D0C4EDCAQ24674858-A8F4FE3C-BC65-4214-AB21-664F8877AF43Q26768544-17918150-B55F-4291-90E9-AC6162E01EF7Q26799832-562A26EF-1530-4CD6-99CA-C13013689A36Q27025494-634860D7-6E7C-4394-B263-36C77ACBEB12Q27486116-21740A7E-8EF0-4ECA-A8B4-09EF85985C11Q27646621-F84631BD-DD21-4C62-8912-A3DA0B1600BBQ28285739-42A45DD0-3964-440E-AF05-856F7ED003BDQ30373530-E3B4B5C8-2285-4368-8BDE-A1E4C69B0D8FQ30380524-3D87B73B-8EEF-41A3-A160-664E0958EA91Q30568524-42766AFD-6EA5-41E7-ABD9-D56484564D96Q30830469-5C6C1837-710A-45C6-B406-356E527FC0D9Q30838810-F0D16EB9-8C12-4FEB-8B23-68EAB4B96CDAQ31044576-E942B7A6-E77B-4014-933C-8FBC54DD6B37Q33227881-DB539B98-6EF1-4BDC-B43F-A5B8827B2266Q33313427-6ABB44E2-2AE8-4D6F-BBFA-F129A5DD6461Q33468739-56DD3984-6D96-4169-9DC2-98FBC0C71C14Q33515199-16CCCCE1-322B-4A35-8DEF-7341E1A2CE19Q33579043-B5A7DCA1-9F5F-4D52-B4E2-27C5B2D17D5EQ33604052-047E9328-99B2-42BF-B1CD-D8FC1D0B69C4Q33630627-F098860C-8094-46F5-BD4F-F810804C1C7DQ33687004-4CBDE119-5203-4B6E-BD57-760C224EE43AQ33778115-68BE0A47-CFC1-45D5-AFE0-8DD317DFB708Q33816146-3F488434-D785-4401-A4B2-F1EFABE1C362Q33851544-35F58152-F585-41EF-A4CB-03CACD977667Q33878151-8D81C710-6743-44D7-81BE-6BA317579CF2Q34028195-A7BFC37D-24AB-48D8-B2D9-9929F1BB2A07Q34040196-EF063F5C-FC10-4578-8A8A-D476F38DE00EQ34057933-628FB6E4-1B5A-47D6-AB18-22BF568968CAQ34060641-F4C8B776-88BF-4B0F-8FEB-930D8844A040Q34161904-C7487F66-FE20-41DB-928A-6549720D5DA5Q34285847-59032976-656C-4232-B862-16AFB5210413Q34323750-3F994D67-0129-42F8-9D39-0D0DE3A225D4Q34374614-34BE3352-3E27-4C56-95BE-679EC2D6D2E2Q34466264-212C490E-C0F6-4F28-A092-94E88E314375Q34473542-7CE82FE2-E640-47FE-92FF-DEB14B0EB307Q34475258-E73D5610-9A52-4F21-B683-487B1D19E4D2Q34477404-0BF6C795-7190-490C-A27D-C66A8551F3DEQ34481378-3CF7BDA2-1ECC-45CA-B831-810CAEAEF48DQ34512911-F0877E9C-9E3F-44A1-B42B-455F48F99430
P2860
Structural insights into biological roles of protein-glycosaminoglycan interactions.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@ast
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@en
type
label
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@ast
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@en
prefLabel
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@ast
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@en
P2093
P1476
Structural insights into biological roles of protein-glycosaminoglycan interactions.
@en
P2093
Rahul Raman
Ram Sasisekharan
V Sasisekharan
P304
P356
10.1016/J.CHEMBIOL.2004.11.020
P577
2005-03-01T00:00:00Z