Materials fabrication from native and recombinant thermoplastic squid proteins

Abdon Pena-Francesch; Sergio Florez; Huihun Jung; Aswathy Sebastian; Istvan Albert; Wayne Curtis; Melik C. Demirel

doi:10.1002/adfm.201401940

Materials fabrication from native and recombinant thermoplastic squid proteins

Abdon Pena-Francesch, Sergio Florez, Huihun Jung, Aswathy Sebastian, Istvan Albert, Wayne Curtis, Melik C. Demirel

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

Natural elastomers made from protein extracts have received significant interest as eco-friendly functional materials due to their unique mechanical and optical properties emanating from secondary structures. The next generation sequencing approach is used to identify protein sequences in a squid ring teeth complex extracted from Loligo vulgaris and the use of recombinant expression is demonstrated in the fabrication of a new generation of thermoplastic materials. Native and recombinant thermoplastic squid proteins exhibit reversible solid to melt phase transition, enabling them to be thermally shaped into 3D geometries such as fibers, colloids, and thin films. Direct extraction or recombinant expression of protein based thermoplastics opens up new avenues for materials fabrication and synthesis, which will eventually be competitive with the high-end synthetic oil based plastics.

Original language	English (US)
Pages (from-to)	7401-7409
Number of pages	9
Journal	Advanced Functional Materials
Volume	24
Issue number	47
DOIs	https://doi.org/10.1002/adfm.201401940
State	Published - Dec 17 2014

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
General Chemistry
Biomaterials
General Materials Science
Condensed Matter Physics
Electrochemistry

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10.1002/adfm.201401940

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title = "Materials fabrication from native and recombinant thermoplastic squid proteins",

abstract = "Natural elastomers made from protein extracts have received significant interest as eco-friendly functional materials due to their unique mechanical and optical properties emanating from secondary structures. The next generation sequencing approach is used to identify protein sequences in a squid ring teeth complex extracted from Loligo vulgaris and the use of recombinant expression is demonstrated in the fabrication of a new generation of thermoplastic materials. Native and recombinant thermoplastic squid proteins exhibit reversible solid to melt phase transition, enabling them to be thermally shaped into 3D geometries such as fibers, colloids, and thin films. Direct extraction or recombinant expression of protein based thermoplastics opens up new avenues for materials fabrication and synthesis, which will eventually be competitive with the high-end synthetic oil based plastics.",

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AU - Pena-Francesch, Abdon

AU - Florez, Sergio

AU - Jung, Huihun

AU - Sebastian, Aswathy

AU - Albert, Istvan

AU - Curtis, Wayne

AU - Demirel, Melik C.

PY - 2014/12/17

Y1 - 2014/12/17

N2 - Natural elastomers made from protein extracts have received significant interest as eco-friendly functional materials due to their unique mechanical and optical properties emanating from secondary structures. The next generation sequencing approach is used to identify protein sequences in a squid ring teeth complex extracted from Loligo vulgaris and the use of recombinant expression is demonstrated in the fabrication of a new generation of thermoplastic materials. Native and recombinant thermoplastic squid proteins exhibit reversible solid to melt phase transition, enabling them to be thermally shaped into 3D geometries such as fibers, colloids, and thin films. Direct extraction or recombinant expression of protein based thermoplastics opens up new avenues for materials fabrication and synthesis, which will eventually be competitive with the high-end synthetic oil based plastics.

AB - Natural elastomers made from protein extracts have received significant interest as eco-friendly functional materials due to their unique mechanical and optical properties emanating from secondary structures. The next generation sequencing approach is used to identify protein sequences in a squid ring teeth complex extracted from Loligo vulgaris and the use of recombinant expression is demonstrated in the fabrication of a new generation of thermoplastic materials. Native and recombinant thermoplastic squid proteins exhibit reversible solid to melt phase transition, enabling them to be thermally shaped into 3D geometries such as fibers, colloids, and thin films. Direct extraction or recombinant expression of protein based thermoplastics opens up new avenues for materials fabrication and synthesis, which will eventually be competitive with the high-end synthetic oil based plastics.

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Materials fabrication from native and recombinant thermoplastic squid proteins

Abstract

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