Connecting materials, performance and evolution: a case study of the glue of moth-catching spiders (Cyrtarachninae).

Candido Diaz, Richard H Baker, John H Long, Cheryl Y Hayashi

The Journal of experimental biology 2022 Feb 15

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Morphological structures and extended phenotypes are made possible by materials that are encoded by the genome. Nearly all biomaterials are viscoelastic, which means that to understand performance, one must understand the strain rate-dependent properties of these materials in relevant ecological interactions, as the behavior of a material can vary dramatically and rapidly. Spider silks are an example of materials whose properties vary substantially intra- and inter-specifically. Here, we focus on aggregate silk, which functions as a biological adhesive. As a case study to understand how a material manifests from genome through organism to ecology, we highlight moth-specialist spiders, the Cyrtarachninae, and their glues as an ideal experimental system to investigate the relationship between genomics and ecologically variable performance of a biological material. There is a clear eco-evolutionary innovation that Cyrtarachne akirai and related species have evolved, a unique trait not found in other spiders, a glue which overcomes the scales of moths. By examining traditional orb-weavers, C. akirai and other subfamily members using biomechanical testing and genomic analysis, we argue that we can track the evolution of this novel bioadhesive and comment on the selection pressures influencing prey specialization. The importance of the ecological context of materials testing is exemplified by the poor performance of C. akirai glue on glass and the exceptional spreading ability and adhesive strength on moths. The genetic basis for these performance properties is experimentally tractable because spider silk genes are minimally pleiotropic and advances in genomic technologies now make possible the discovery of complete silk gene sequences. © 2022. Published by The Company of Biologists Ltd.

Citation

Candido Diaz, Richard H Baker, John H Long, Cheryl Y Hayashi. Connecting materials, performance and evolution: a case study of the glue of moth-catching spiders (Cyrtarachninae). The Journal of experimental biology. 2022 Feb 15;225(Suppl1)