Growth factor mediated assembly of cell receptor-responsive hydrogels.
about
Designing ECM-mimetic materials using protein engineeringA genetically modified protein-based hydrogel for 3D culture of AD293 cellsAffinity-Based Drug DeliveryTwo-component protein-engineered physical hydrogels for cell encapsulationPEG-based hydrogels with collagen mimetic peptide-mediated and tunable physical cross-linksRapid rheological screening to identify conditions of biomaterial hydrogelation.Heparin-Conjugated PCL Scaffolds Fabricated by Electrospinning and Loaded with Fibroblast Growth Factor 2.Disassembly of dendritic micellar containers due to protein binding.Polysaccharide-modified synthetic polymeric biomaterials.Bioactive modification of poly(ethylene glycol) hydrogels for tissue engineering.Protein-engineered biomaterials: nanoscale mimics of the extracellular matrix.Chemical-vapor-deposition-based polymer substrates for spatially resolved analysis of protein binding by imaging ellipsometry.Gelation of Covalently Cross-Linked PEG-Heparin Hydrogels.Heparin-mimetic sulfated peptides with modulated affinities for heparin-binding peptides and growth factors.Elastomeric polypeptide-based biomaterials.Cell-mediated Delivery and Targeted Erosion of Vascular Endothelial Growth Factor-Crosslinked HydrogelsDesign properties of hydrogel tissue-engineering scaffolds.Adaptable hydrogel networks with reversible linkages for tissue engineering.Differential effects of substrate modulus on human vascular endothelial, smooth muscle, and fibroblastic cellsSmart self-assembled hybrid hydrogel biomaterialsStrain-Promoted Crosslinking of PEG-based Hydrogels via Copper-Free Cycloaddition.Polymers to direct cell fate by controlling the microenvironment.Protein-induced supramolecular disassembly of amphiphilic polypeptide nanoassemblies.Controlled release of an anthrax toxin-neutralizing antibody from hydrolytically degradable polyethylene glycol hydrogelsResilin-based Materials for Biomedical ApplicationsThe role of heparin self-association in the gelation of heparin-functionalized polymers.Designing degradable hydrogels for orthogonal control of cell microenvironments.Production of heparin-functionalized hydrogels for the development of responsive and controlled growth factor delivery systemsHybrid multicomponent hydrogels for tissue engineering.Production of heparin-containing hydrogels for modulating cell responses.PEG hydrogels for the controlled release of biomolecules in regenerative medicine.HYDROGELS FROM SOFT CONTACT LENSES AND IMPLANTS TO SELF-ASSEMBLED NANOMATERIALS.Peptide- and protein-mediated assembly of heparinized hydrogels.Heparin-functionalized polymeric biomaterials in tissue engineering and drug delivery applications.Polypeptide-polymer bioconjugates.Protein-triggered supramolecular disassembly: insights based on variations in ligand location in amphiphilic dendrons.Protein-based block copolymers.Injectable and biodegradable hydrogels: gelation, biodegradation and biomedical applications.Recombinant proteins as cross-linkers for hydrogelations.Bioresponsive hydrogels.
P2860
Q27001547-4BDCC0AB-EC84-48CB-9505-25876F0CCF47Q28543065-5BA781F1-31BB-45B5-AFF1-6BF77D39AFC5Q29543246-27640FC9-18E2-4791-8600-B566EB5AA794Q30492276-889A82C2-49DD-4D97-9457-C541A2C5FFE7Q30497717-21F6F49C-9017-4F63-B1AE-DBAF17F82CEDQ33521720-61BDF6CA-C51F-4DE6-9677-602587FF1DADQ33611564-F7100A8E-BBF0-446C-81E6-DF509CCAAC74Q33788950-8A20E0F4-A39F-404E-8F2C-B970756C6F97Q33978402-B5733B4D-1D58-40D4-8C56-BB3504CF230FQ34011019-5B27CB7A-A6B0-4790-877E-EBF833D48FD5Q34553438-61F4FD8C-949F-4E05-BA7C-BBDEBF66EAD1Q34702706-F53B5D4E-78B2-43D0-835E-82B385A9AB69Q34781730-755E3104-5361-4F4D-BFC4-B273F3E5ACD6Q35001204-4825141E-4382-465A-8A90-505A78255698Q35014277-E05A8C68-4E4E-49E4-ACE8-1A22500573C9Q35026967-036644B8-C644-4350-B138-97D9C569F24FQ35503173-DB89DBA7-D612-414E-B85C-4A3E59C890BBQ35927889-95FB0145-3C1F-41BF-9CE4-559F5904BC8DQ35955696-D68F9AFC-A0DD-4912-8660-E429ADCF3F0EQ36141193-41FD6AF7-B649-483F-8AA1-793CD78C831FQ36426067-FBC835F9-F295-4144-9933-EBD42CB7A973Q36488948-38A10B60-241B-48B5-93A2-D42F8D626233Q37028284-EA1C3FB8-D6F8-4A26-B1BD-68DAB8C816B8Q37065380-061A7D9E-D986-4FDB-A751-46D54A43AF00Q37128322-7BB051C7-F549-4312-AB5A-235698FB2D93Q37133513-4D295560-B918-45E2-AB32-C7582DF6291AQ37146704-2A33CE22-FBD7-4BAE-871F-D1A4C33BE8BEQ37157633-A14AD056-FCCD-4571-AE4D-9D04A3CDC268Q37352207-686289C4-046B-47D5-ACD1-C9A39361CB19Q37352245-0C51F225-F2C7-4702-92F5-A448101A15C8Q37352861-EABC563D-9893-4A14-A37D-1D26E15F2FA7Q37419778-9FBBB113-AB8C-4438-87ED-63D9426B1551Q37454735-361FEFA5-E64B-4907-A745-FF9A70C24C74Q37607942-98EDB05D-D1E1-49EF-B39B-BF2A58A477D5Q37659998-A83EB274-951D-4318-AC28-C1B059650B77Q37731527-02CFFEE0-F6CF-4A7A-93BB-3FE925D051FBQ37828503-62D4BBB1-2B78-4C44-A11E-95A0BAC830D8Q37960809-B6BB38C8-D725-4F50-A53D-BD692B9614CEQ38061361-A1D8D9ED-61B9-4559-A3C1-4424C7759A01Q38066812-D0CCD118-9981-414C-8227-2420223BC69B
P2860
Growth factor mediated assembly of cell receptor-responsive hydrogels.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 22 February 2007
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@en
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@nl
type
label
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@en
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@nl
prefLabel
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@en
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@nl
P2093
P2860
P356
P1476
Growth factor mediated assembly of cell receptor-responsive hydrogels.
@en
P2093
Byeong-Seok Chae
Chandra S Palla
Eric M Furst
Nori Yamaguchi
P2860
P304
P356
10.1021/JA0680358
P407
P50
P577
2007-02-22T00:00:00Z