On May 5, 2025, scientists at The Hebrew University of Jerusalem announced a groundbreaking discovery: electron spin can affect the motion of protons in lysozyme crystals. This suggests a direct quantum influence on energy-related processes within cells. The research, led by Naama Goren and Yossi Paltiel, reveals that proton movement in biological systems isn't solely about chemistry but also involves quantum physics.
This finding opens new avenues for understanding energy and information transfer inside living organisms. Cells may utilize quantum rules to organize energy transfer with greater precision than previously thought. The spin of subatomic particles could act as a gatekeeper, selectively controlling proton movement.
The discovery has potential applications in nanotechnology, biochemistry, and materials science, inspiring innovative device engineering. Furthermore, understanding the link between electron spin and proton movement could revolutionize our understanding of neural signaling and diseases involving energy metabolism, such as Parkinson's and Alzheimer's. This could lead to treatments that precisely correct faulty cellular energy flow.