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Sequential origin in the high performance properties of orb spider dragline silk.


ABSTRACT: Major ampullate (MA) dragline silk supports spider orb webs, combining strength and extensibility in the toughest biomaterial. MA silk evolved ~376?MYA and identifying how evolutionary changes in proteins influenced silk mechanics is crucial for biomimetics, but is hindered by high spinning plasticity. We use supercontraction to remove that variation and characterize MA silk across the spider phylogeny. We show that mechanical performance is conserved within, but divergent among, major lineages, evolving in correlation with discrete changes in proteins. Early MA silk tensile strength improved rapidly with the origin of GGX amino acid motifs and increased repetitiveness. Tensile strength then maximized in basal entelegyne spiders, ~230?MYA. Toughness subsequently improved through increased extensibility within orb spiders, coupled with the origin of a novel protein (MaSp2). Key changes in MA silk proteins therefore correlate with the sequential evolution high performance orb spider silk and could aid design of biomimetic fibers.

SUBMITTER: Blackledge TA 

PROVIDER: S-EPMC3482764 | biostudies-literature | 2012

REPOSITORIES: biostudies-literature

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Sequential origin in the high performance properties of orb spider dragline silk.

Blackledge Todd A TA   Pérez-Rigueiro José J   Plaza Gustavo R GR   Perea Belén B   Navarro Andrés A   Guinea Gustavo V GV   Elices Manuel M  

Scientific reports 20121029


Major ampullate (MA) dragline silk supports spider orb webs, combining strength and extensibility in the toughest biomaterial. MA silk evolved ~376 MYA and identifying how evolutionary changes in proteins influenced silk mechanics is crucial for biomimetics, but is hindered by high spinning plasticity. We use supercontraction to remove that variation and characterize MA silk across the spider phylogeny. We show that mechanical performance is conserved within, but divergent among, major lineages,  ...[more]

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