Design and facile production of recombinant resilin-like polypeptides: gene construction and a rapid protein purification method

doi:10.1093/protein/gzl050

PEDS Advance Access first published online on January 11, 2007
This version published online on January 12, 2007
Protein Engineering Design and Selection, doi:10.1093/protein/gzl050

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Design and facile production of recombinant resilin-like polypeptides: gene construction and a rapid protein purification method

Russell E. Lyons¹^,4, Emmanuelle Lesieur¹, Misook Kim¹, Darren C.C. Wong¹, Mickey G. Huson², Kate M. Nairn³, Alan G. Brownlee¹, Roger D. Pearson¹ and Christopher M. Elvin¹

¹ CSIRO Livestock Industries, Queensland Bioscience Precinct, St Lucia, QLD 4072, Australia ² CSIRO Textiles and Fibre Technology, Geelong, Victoria 3216, Australia ³ CSIRO Manufacturing and Infrastructure Technology, Clayton, Victoria 3168, Australia

⁴ To whom correspondence should be addressed. E-mail: Russell.Lyons{at}csiro.au

Resilin is an elastic protein found in specialized regions ofthe cuticle of insects, which displays unique resilience andfatigue lifetime properties. As is the case with many elastomericproteins, including elastin, gliadin and spider silks, resilincontains distinct repetitive domains that appear to confer elasticproperties to the protein. Recent work within our laboratoryhas demonstrated that cloning and expression of exon 1 of theDrosophila melanogaster CG15920 gene, encoding a putative resilin-likeprotein, results in a recombinant protein that can be photochemicallycrosslinked to form a highly resilient, elastic biomaterial(Rec1 resilin). The current study describes a recursive cloningstrategy for generating synthetic genes encoding multiple copiesof consensus polypeptides, based on the repetitive domains withinresilin-like genes from D. melanogaster and Anopheles gambiae.A simple non-chromatographic purification method that can beapplied to these synthetic proteins and Rec1 is also reported.These methods for the design and purification of resilin-likeperiodic polypeptides will facilitate the future investigationof structural and functional properties of resilin, and thedevelopment of novel highly resilient biomaterials.

Keywords: expression/purification/repetitive polypeptides/resilin/synthetic genes

Received April 6, 2006; revised November 15, 2006; accepted November 20, 2006.

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