Squid Sucker Ring Teeth: Multiscale Structure–Property Relationships, Sequencing, and Protein Engineering of a Thermoplastic Biopolymer

Squid Sucker Ring Teeth: Multiscale Structure–Property Relationships, Sequencing, and Protein Engineering of a Thermoplastic Biopolymer

The arms and tentacles of Decapodiform cephalopods (squids and cuttlefish) are lined with suckers, each of which contains embedded sucker ring teeth (SRT), which are used by the animal for prey capture and handling. SRT exhibit intriguing physicochemical and thermomechanical characteristics that hav...

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Bibliographic Details
Published in:ACS biomaterials science & engineering Vol. 3; no. 5; pp. 680 - 693
Main Authors: Hiew, Shu Hui, Miserez, Ali
Format: Journal Article
Language:English
Published: United States American Chemical Society 08-05-2017
Subjects:
sucker ring teeth
block copolymers
protein engineering
semicrystalline
β-sheets
squid
thermoplastic
suckerin
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Summary:The arms and tentacles of Decapodiform cephalopods (squids and cuttlefish) are lined with suckers, each of which contains embedded sucker ring teeth (SRT), which are used by the animal for prey capture and handling. SRT exhibit intriguing physicochemical and thermomechanical characteristics that have so far not been observed in other protein-based biomaterials. Notably, despite their comparatively high mechanical properties, SRT are almost fully soluble in chaotropic solvents and can be readily reconstituted after solvent evaporation into three-dimensional structures. SRT also exhibit thermoplastic characteristics: they can be melted and reshaped multiple times with no–or only minimal–loss of mechanical performance postprocessing. Intrigued by these unusual material characteristics, in recent years, we have conducted in-depth fundamental studies to unveil structure/property relationships of SRT from the molecular (genetic) level to the macroscopic scale. These investigations have demonstrated that SRT are entirely assembled from a protein family called “suckerins” that self-assemble into semicrystalline polymer infinite networks. Suckerins are block copolymers at the molecular level, whose closest analogy appears to be silk fibroins, although significant differences exist between these two protein families. Parallel to these studies, there have been efforts to mimic and engineer suckerins by protein engineering and to demonstrate potential applications through proof-of-concept studies, with a focus on the biomedical field. Both fundamental aspects and emerging applications are presented in this short review. Given the rather unusual source of this model structure, we start by a brief historical account of SRT and suckerin discovery.
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ISSN:2373-9878
2373-9878
DOI:10.1021/acsbiomaterials.6b00284