The researchers have generated the first experimental mouse model that allows direct analysis of the mechanical function of proteins in living organisms.
The model, published in Nature Communications, is based on the insertion of the HaloTag-TEV genetic cassette into titin, one of the proteins responsible for the elasticity of skeletal and cardiac muscle. The HaloTag-TEV cassette combines three key properties. The author explained: "Thanks to the introduction of this cassette into the gene, we are able to fluorescently mark the protein, which makes it easy to track the cassette and see where it has inserted correctly."
But that's not all: "The cassette includes a target for specific protein lysis, so that the mechanical function of the target protein can be interrupted in a controlled manner at any desired moment, allowing us to study the effect of this interruption." Finally, the cassette "provides a way to anchor the isolated protein to surfaces, enabling the study of its mechanical properties by single-molecule techniques."
"All of this helps to establish a bridge between the modulation of protein mechanical properties and observing the consequences of this modulation at a cellular level," said the author.
It is well known that cells and the living organisms they form respond to changes in the environment. But among the environmental conditions to which living beings must adapt, the purely mechanical forces that constantly act upon them are often overlooked. "This relationship between cells and the mechanical components of their environment is extremely important, and explains many phenomena related to disease, such as cancer metastasis and atherosclerosis, which underlies several cardiovascular conditions."
In recent decades, the development of new technologies has permitted the study of proteins' mechanical behavior, which is responsible at the molecular level for the ability of cells to sense and generate forces.
These techniques have enabled the characterization of the mechanical properties of individual molecules, studied one by one, and this has transformed knowledge about the relationship between force and biological molecules. However, understanding how this relationship operates in the native environment of the cell was until now not possible.
The story doesn't stop with titin. The HaloTag-TEV cassette can be inserted into other proteins with a mechanical function, so that in the future it could be used to study other systems, including those related to diverse muscular and cardiac disorders.
Experimental mouse model for investigating the mechanical function of proteins
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