AI Article Synopsis
- Resilin is a protein found in insects that gives them flexibility and durability for flying and jumping by exhibiting high resilience and fatigue resistance.
- Two specific parts of the resilin gene were studied by cloning and expressing the proteins in bacteria, using a purification method involving heat and salt to create rubber-like materials through cross-linking.
- The analysis showed that one protein (from exon 1) had better elastic properties than the other (from exon 3), suggesting it could be more useful in creating biomaterials that mimic the native properties of resilin, with potential applications for in vivo uses.
Article Abstract
Resilin is an elastomeric protein found in specialized regions of the cuticle of most insects, providing outstanding material properties including high resilience and fatigue lifetime for insect flight and jumping needs. Two exons (1 and 3) from the resilin gene in Drosophila melanogaster were cloned and the encoded proteins expressed as soluble products in Escherichia coli. A heat and salt precipitation method was used for efficient purification of the recombinant proteins. The proteins were solution cast from water and formed into rubber-like biomaterials via horseradish peroxidase-mediated cross-linking. Comparative studies of the two proteins expressed from the two different exons were investigated by Fourier Transform Infrared Spectroscopy (FTIR) and Circular Dichrosim (CD) for structural features. Little structural organization was found, suggesting structural order was not induced by the enzyme-mediated di-tyrosine cross-links. Atomic Force Microscopy (AFM) was used to study the elastomeric properties of the uncross-linked and cross-linked proteins. The protein from exon 1 exhibited 90% resilience in comparison to 63% for the protein from exon 3, and therefore may be the more critical domain for functional materials to mimic native resilin. Further, the cross-linking of the recombinant exon 1 via the citrate-modified photo-Fenton reaction was explored as an alternative di-tyrosine mediated polymerization method and resulted in both highly elastic and adhesive materials. The citrate-modified photo-Fenton system may be suitable for in vivo applications of resilin biomaterials.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3190647 | PMC |
| http://dx.doi.org/10.1016/j.biomaterials.2011.06.010 | DOI Listing |
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