AI Article Synopsis
- Mechanobiology studies how mechanical properties of cells and tissues influence their functions, development, and diseases, blending biology, physics, and engineering.
- Key technologies like microscopy, along with techniques such as optical tweezers and scissors, allow for precise measurements of forces and displacements, enhancing our understanding of cell mechanics.
- The paper focuses on using structured light with microscopy techniques to improve measurements of various mechanical properties and suggests that advances in quantum imaging could further propel research in this area.
Article Abstract
Mechanobiology helps us to decipher cell and tissue functions by looking at changes in their mechanical properties that contribute to development, cell differentiation, physiology, and disease. Mechanobiology sits at the interface of biology, physics and engineering. One of the key technologies that enables characterization of properties of cells and tissue is microscopy. Combining microscopy with other quantitative measurement techniques such as optical tweezers and scissors, gives a very powerful tool for unraveling the intricacies of mechanobiology enabling measurement of forces, torques and displacements at play. We review the field of some light based studies of mechanobiology and optical detection of signal transduction ranging from optical micromanipulation-optical tweezers and scissors, advanced fluorescence techniques and optogenentics. In the current perspective paper, we concentrate our efforts on elucidating interesting measurements of forces, torques, positions, viscoelastic properties, and optogenetics inside and outside a cell attained when using structured light in combination with optical tweezers and scissors. We give perspective on the field concentrating on the use of structured light in imaging in combination with tweezers and scissors pointing out how novel developments in quantum imaging in combination with tweezers and scissors can bring to this fast growing field.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10958612 | PMC |
| http://dx.doi.org/10.1021/acsphotonics.4c00064 | DOI Listing |
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