Production of self-assembling biomaterials for tissue engineering
about
Peptide hydrogelation and cell encapsulation for 3D culture of MCF-7 breast cancer cellsSupramolecular Hydrogelators and Hydrogels: From Soft Matter to Molecular Biomaterials.Liquefaction of Biopolymers: Solvent-free Liquids and Liquid Crystals from Nucleic Acids and ProteinsEvaluation of early and late effects into the acute spinal cord injury of an injectable functionalized self-assembling scaffold.Modelling the self-assembly of elastomeric proteins provides insights into the evolution of their domain architectures.Effective release of a broad spectrum antibiotic from elastin-like polypeptide-collagen composite.Resilin-Like Polypeptide Hydrogels Engineered for Versatile Biological Functions.Evolution of antimicrobial peptides to self-assembled peptides for biomaterial applicationsElastomeric polypeptide-based biomaterials.Recombinant self-assembling peptides as biomaterials for tissue engineering.Rheology of peptide- and protein-based physical hydrogels: are everyday measurements just scratching the surface?Natural and Genetically Engineered Proteins for Tissue Engineering.A combination hydrogel microparticle-based vaccine prevents type 1 diabetes in non-obese diabetic mice.Multi-component extracellular matrices based on peptide self-assembly.Smart self-assembled hybrid hydrogel biomaterialsLight-triggered disassembly of amyloid fibrils.POLYMERIC BIOMATERIALS AND NANOMEDICINES.Self-Assembly for the Synthesis of Functional BiomaterialsRational molecular design of complementary self-assembling peptide hydrogelsResilin-based Materials for Biomedical ApplicationsFunctional inclusion bodies produced in the yeast Pichia pastoris.Biofunctionalisation of polymeric scaffolds for neural tissue engineering.Nanotechnology for the detection and therapy of stroke.Extracellular matrices, artificial neural scaffolds and the promise of neural regeneration.Self-assembling peptide scaffolds as innovative platforms for drug and cell delivery systems in cardiac regeneration.Mechanical & cell culture properties of elastin-like polypeptide, collagen, bioglass, and carbon nanosphere composites.Beaded nanofibers assembled from double-hydrophobic elastin-like block polypeptides: Effects of trifluoroethanol.Stimulation of fibroblasts and neuroblasts on a biomimetic extracellular matrix consisting of tandem repeats of the elastic VGVPG domain and RGD motif.Composition of elastin like polypeptide-collagen composite scaffold influences in vitro osteogenic activity of human adipose derived stem cells.Recombinant production of self-assembling β-structured peptides using SUMO as a fusion partner.Recombinant production of the therapeutic peptide lunasin.Functionalization of α-synuclein fibrilsCollagen oligomers modulate physical and biological properties of three-dimensional self-assembled matricesEngineering building blocks for self-assembling protein nanoparticlesLocal Mechanical Perturbation Provides an Effective Means to Regulate the Growth and Assembly of Functional Peptide Fibrils.Designing Smart Biomaterials for Tissue Engineering.Self-assembly of short peptides composed of only aliphatic amino acids and a combination of aromatic and aliphatic amino acids.Solvent-free liquid crystals and liquids based on genetically engineered supercharged polypeptides with high elasticity.Enhanced sealing strength of a hydrophobically-modified Alaska pollock gelatin-based sealant.Effect of conjugation on phase transitions in thermoresponsive polymers: an atomistic and coarse-grained simulation study.
P2860
Q28488387-BAF428FB-3E7A-42E9-8CF8-961CF3A9F566Q30781853-3EC75D5B-82FA-45ED-BA6A-9E483469C3AFQ33708063-1B7F0883-20DD-4DDA-9BE6-E673B14368A0Q33911066-B1D15030-280F-4E06-A009-0C0E6DEE1290Q34186919-26DDD802-A87C-41C8-AFF1-C4602C6D2797Q34506116-55FFA89E-A254-48F5-B0B1-95066A94A7EEQ34625440-C1B68D5C-BE93-4820-BA8E-622E7F657B00Q34809662-C5E1E3C7-88B1-4F80-96F4-AE85778A98B5Q35014277-A370794C-0964-453C-8029-503D4A44BB81Q35036594-0911BB9E-A807-4860-973B-B4969C840A0CQ35285779-CFEB99FB-9720-4772-A4E6-E7883F9F612BQ35516528-07104B9B-E418-449B-B7A0-A6D426F93CEAQ35960520-CEDE28CF-FBC0-434E-8D0C-79A37F4796C3Q36070639-F19B9086-DA37-431B-ABD1-D59B08E35C12Q36141193-4383AD9B-E614-4D15-ACA0-4106FE5CE6AFQ36203702-4DFF0D80-4DA8-406C-B6F4-FA3956471AC3Q36376467-698DC871-C288-49F1-BEDE-EDABF7758A1FQ36634365-EE782333-2548-4F27-AF23-A4B1EB30FA63Q36713450-675934D3-EA66-41B5-B3E5-F375AF6947BAQ37128322-1B3AAC0F-3D53-4077-9CA6-3264E9FA4F89Q37302292-44514CC5-F554-43E4-B506-62A2E8FB97E3Q38001616-7164BDA4-D73D-4209-BD64-CD6A86153766Q38201415-C8955DED-9BBC-4DD2-8FC6-A516F21A4EAEQ38264907-2AD3FECD-E778-4593-A53C-7BCFA9067A9FQ38383435-B51D54DC-F2AE-47BC-B15D-D1FAF4976D76Q39151449-CEAB7445-F14D-46ED-8DF1-58119C84FD7FQ39270450-DC4451FC-057F-4CB0-A8D5-9761C2D2B6F3Q39582404-94AD7FC8-ED40-49CC-9530-E47E9BF1C780Q41639788-FA4A7C92-1CCE-4CE8-91A0-516F5F6A78ABQ41826535-CAFA4064-2588-4F91-BA50-91A5B11A1BCEQ41855198-AAF3E168-9F0B-4BE0-A369-17E4279AD263Q41860926-CA1710CD-93A6-4ED8-B09D-3EBDABE2AB83Q41892989-E5B5DB18-EF1E-4F6B-A884-B2FDA16ED121Q42574574-81131846-344A-4716-B54F-6721A80B1871Q46712005-B2BFBC0F-A40E-49B1-8DA6-B64A1750F465Q47228230-9948D7E9-B33C-4B00-88BF-6019DF595544Q48002551-9EF35773-C5D6-4F86-801D-033E639A66D1Q50438541-EBC2BFD0-B570-4F44-ACA3-B837A49A4FF6Q50800100-6095807A-3351-424A-ACE4-596EEB87BE97Q50997795-08A1B5CD-6FC4-448F-93AE-44C7C0B139B3
P2860
Production of self-assembling biomaterials for tissue engineering
description
2009 nî lūn-bûn
@nan
2009 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Production of self-assembling biomaterials for tissue engineering
@ast
Production of self-assembling biomaterials for tissue engineering
@en
Production of self-assembling biomaterials for tissue engineering
@en-gb
type
label
Production of self-assembling biomaterials for tissue engineering
@ast
Production of self-assembling biomaterials for tissue engineering
@en
Production of self-assembling biomaterials for tissue engineering
@en-gb
prefLabel
Production of self-assembling biomaterials for tissue engineering
@ast
Production of self-assembling biomaterials for tissue engineering
@en
Production of self-assembling biomaterials for tissue engineering
@en-gb
P2860
P921
P1476
Production of self-assembling biomaterials for tissue engineering
@en
P2093
Amalia Aggeli
Stuart Kyle
P2860
P304
P356
10.1016/J.TIBTECH.2009.04.002
P577
2009-06-06T00:00:00Z
2009-07-01T00:00:00Z