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Dynamic bio-interface between mussel tissue and byssus plays important role in quick release - Phys.org

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Dynamic bio-interface between mussel tissue and byssus found to play an important role in quick release
Light microscopy image of a histologically stained section of the stem root in which thin wavy sheets of the non-living stem root surrounding by cilia (red) can been seen embedded in the living tissue of the generator (light blue). Credit: Jenaes Sivasundarampillai

A team of chemists at McGill University, working with a colleague from Charité-Universitätsmedizin, in Germany, has uncovered part of the process used by mussels to bind to rocks and to quickly release from them when conditions warrant.

In their project, reported in the journal Science, the group studied the interface between mussel and the bundle of filaments that use to anchor themselves to rocks and other objects. Guoqing Pan and Bin Li, with Jiangsu University and Soochow University, both in China, have published a Perspective article in the same journal issue outlining the work done by the team on this new effort.

Mussels are bivalve mollusks that live in both fresh and saltwater environments. They have hinged shells that are joined by a ligament. Muscles ensure a tight seal when the shell is closed. Mussels use byssus threads (known commonly as a beard) to attach themselves to such as rocks.

3D reconstruction of micro-computed tomography (μCT) dataset. This movie was generated from reconstruction of a μCT dataset acquired from a f stem root stained embedded in the living tissue. Initially, the generator and septa tissues are visualized in grayscale, while the stem root lamellae are visualized in light blue. Moving from the external stem region into the stem root, one can see the complex interdigitation of the septae and lamellae. Later in the movie, the generator tissue is removed from the model in order to more clearly visualize the complex structure of the wavy lamellar sheets. Credit: Jenaes Sivasundarampillai

The mussel byssus has been extensively studied due to their unique ability to connect nonliving material (the filaments that make up the threads) to living tissue and to disconnect on demand. But, as Pan and Li note, most of this research has revolved around possible chemical binding mechanisms. In this new effort, the research team focused instead on the dynamics of the bio-interface.

To better understand how the byssus threads connect to living tissue and how they can be jettisoned if needed, the research team used a variety of technologies to study the threads and the tissue to which they connect. By using several types of imaging along with spectroscopy, the team observed that the ends of the threads interlocked with layers of living tissue, which themselves were covered with approximately 6 billion .

Dynamic bio-interface between mussel tissue and byssus found to play an important role in quick release
Reconstructed features in 3D from a FIB-SEM image stack made from a small region in the stem root. Living tissue in dark blue, non-living stem root sheet in light blue, secretory vesicles in teal, cilia in red. Credit: Jenaes Sivasundarampillai

They further found that having so many translated to a high degree of surface contact, which allowed for mechanically meshing two disparate materials. The researchers also noted that cilia oscillations helped to both strengthen the grip between the two materials and to allow for rapid release when it was needed. They found that cilia movement was driven by neurotransmitters, which, the researchers theorize, suggests that they are ultimately controlled by serotonin and dopamine.

More information: Jenaes Sivasundarampillai et al, A strong quick-release biointerface in mussels mediated by serotonergic cilia-based adhesion, Science (2023). DOI: 10.1126/science.adi7401

Guoqing Pan et al, A dynamic biointerface controls mussel adhesion, Science (2023). DOI: 10.1126/science.adl2002

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