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Adhesive and mechanical properties of the glue produced by 25 Drosophila species

Drosophila glue, a bioadhesive produced by fly larvae to attach themselves to a substrate for several days, has recently gained attention for its peculiar adhesive and mechanical properties. Although Drosophila glue production was described more than 50 years ago, a general survey of the adhesive an...

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Published in:	Scientific reports 2024-10, Vol.14 (1), p.23249-11, Article 23249
Main Authors:	Monier, Manon, Lorenzi, Jean-Noël, Narasimha, Sunitha, Borne, Flora, Contremoulins, Vincent, Mevel, Louis, Petit, Romane, El Hachem, Youssef, Graner, François, Courtier-Orgogozo, Virginie
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Subjects:	631/158 631/181 631/57 Adhesion Adhesion assay Adhesiveness Adhesives Adhesives - chemistry Adhesives - metabolism Animals Attachment Bioadhesion Biomechanical Phenomena Biomimetics Drosophila Glue Humanities and Social Sciences Insects Larva - physiology Larvae Life Sciences Mechanical properties multidisciplinary Phenotypes Phenotypic plasticity Physics Pupa - physiology Pupal shape Rigidity Science Science (multidisciplinary) Species Surveys
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creator	Monier, Manon Lorenzi, Jean-Noël Narasimha, Sunitha Borne, Flora Contremoulins, Vincent Mevel, Louis Petit, Romane El Hachem, Youssef Graner, François Courtier-Orgogozo, Virginie
description	Drosophila glue, a bioadhesive produced by fly larvae to attach themselves to a substrate for several days, has recently gained attention for its peculiar adhesive and mechanical properties. Although Drosophila glue production was described more than 50 years ago, a general survey of the adhesive and mechanical properties of this proteinaceous gel across Drosophila species is lacking. To measure adhesion, we present here a protocol that is robust to variations in protocol parameters, pupal age and calculation methods. We find that the glue, which covers the entire pupal surface, increases the animal rigidity and plasticity when bound to a glass slide. Our survey of pupal adhesion in 25 Drosophilidae species reveals a wide range of phenotypes, from species that produce no or little glue and adhere little, to species that produce high amounts of glue and adhere strongly. One species, D. hydei , stands out from the rest and emerges as a promising model for the development of future bioadhesives, as it has the highest detachment force per glue area and produces relatively large amounts of glue relative to its size. We also observe that species that invest more in glue tend to live in more windy and less rainy climates, suggesting that differences in pupal adhesion properties across species are shaped by ecological factors. Our present survey provides a basis for future biomimetic studies based on Drosophila glue.
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subjects	631/158 631/181 631/57 Adhesion Adhesion assay Adhesiveness Adhesives Adhesives - chemistry Adhesives - metabolism Animals Attachment Bioadhesion Biomechanical Phenomena Biomimetics Drosophila Glue Humanities and Social Sciences Insects Larva - physiology Larvae Life Sciences Mechanical properties multidisciplinary Phenotypes Phenotypic plasticity Physics Pupa - physiology Pupal shape Rigidity Science Science (multidisciplinary) Species Surveys
title	Adhesive and mechanical properties of the glue produced by 25 Drosophila species
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