Elastin-based materials. Chem Soc Rev 39, 3371 2010.Almine JF, Bax DV, Mithieux SM, et al. Elastin-based materials [J]. Chem Soc Rev,2010;39(9) :3371-3379.Almine JF, Bax DV, Mithieux SM, Nivison-Smith L, Rnjak J, Waterhouse A, et al. Elastin-based materials. Chem Soc Rev....
Biocompatible materials suitable for use in vascular applications have been engineered, combining human recombinant tropoelastin with other synthetic or natural biomaterials to form protoelastin. The materials can be in the form of elast... NG, Martin, Kean, Chong,WEISS, Anthony, Steven,WISE, Steven...
GPG-AG3 materials were prepared as GPG-AG3 protein aggregates as well as chemically crosslinked spin-coated thin films. Both GPG-AG3 protein aggregates and thin films were incubated in silver nitrate solution and characterized using electron microscopy.The GPG-AG3 substrates prepared in this work ...
Because elastin-like polypeptides (ELPs) have an established sequence and can crosslink to form hydrogels, they are an ideal system for creating pH-sensitive materials. This study examines different parameters that might affect pH-sensitive behavior and characterizes the mechanical and physical ...
Materials and methods ELP expression ELP (MW = 17,000 g/mol; [VPGVG]40) was produced from genetically modifiedE. coliBLR (DE3) bacteria (Novagen EMD), and purification was accomplished through an inverse phase transition procedure involving cycles of solubilization at 4 °C and precipitatio...
M Anwar,CA Hogarth,R Bulpett - 《Journal of Materials Science》 被引量: 109发表: 1989年 Radiation damage studies by x‐ray photoelectron spectroscopy. II. Electron irradiated Li2CrO4 and Li2WO4 Single crystals of Li2CrO4and Li2WO4were irradiatedinsituwith 0.3–1.6 keV electrons in an UH...
The physicochemical properties of collagen and elastin-based materials can be modified by cross-linking. Glutaraldehyde is one of the most efficient cross-linking agents. However, the unreacted molecules can be released from the material and cause cytotoxic reactions. Thus, the aim of our work was...
In addition, these hydrogels can be degraded in the body by proteolytic enzymes. For these reasons, fibrous protein hydrogels are versatile materials for tissue engineering.doi:10.1016/B978-0-08-100803-4.00007-3F. Costa * aR. Silva aA.R. Boccaccini...
Biocompatible materials suitable for use in vascular applications have been engineered, combining human recombinant tropoelastin with other synthetic or natural biomaterials to form
Elastin's persistence and insolubility hampered early efforts to construct versatile biomaterials. Subsequently the field has progressed substantially through the adapted use of solubilized elastin, elastin-based peptides and the increasing availability of recombinant forms of the natural soluble elastin ...