Life Emits Radiation: Research Uncovers Glowing Properties in All Living Organisms
Introducing the mind-blowing findings in the renowned Journal of Physical Chemistry Letters (JPCL) that hold the potential to redefine medicine and biology!
Have you heard about biophotonic emission (UPE)? This astounding phenomenon is about to be the new revolutionary tool when it comes to medicine and biology!
You won't believe it, but every living creature, from tiniest bacteria to US, emit photons ranging from 200-1000 nanometers. You can't see it with your naked eyes, it's thousand times weaker than bioluminescence. But don't worry, it's not as mysterious as it sounds, these glows come from active oxygen species (ROS) – the by-products of cellular metabolism. When things get tough for these critters, the emission intensity skyrockets.
To get a hold of this, scientists used ultrasensitive cams, craftily installed in those super dark rooms, to examine the photonic emission of live and not-so-live mice. The contrast was glaring – live mice emitted a bright glow, while deceased ones showed almost no emission.
Plants weren't left behind from this emission spree! Researchers attempted some stress tests on plants – heat, physical damage, and chemical effects, consistently triggered an increase in biophotonic emission, with damaged areas glowing particularly bright.
Remember that beautiful discovery about why your fingers wrinkle when in water? Well, this is the stepping stone to even more intriguing findings!
Did you know? under stress, living organisms and plants emit photons, mainly due to the creation of reactive oxygen species (ROS) during cellular stress responses. The ROS, acting as signaling agents, create electron excitation and transfer processes, leading to the release of ultra-low-intensity light – biophotonic emission. Not like bioluminescence, this emission is weaker as it relies on metabolic processes, not enzyme-driven light production.
Hold on to your hats, this emission correlates with the cell's stress levels and vitality, offering a promising tool for non-invasive health monitoring, early disease diagnostics, plant stress assessment, and fundamental biology research. This could potentially help to monitor tissue damage, plant health, or aging without any incisions or invasive procedures.
Stay tuned for more insights into this fascinating topic, as researchers continue to unlock the secrets of biophotonic emission!
I, as a living creature, emit photons due to the creation of reactive oxygen species (ROS) during cellular stress responses, contributing to the biophotonic emission that holds potential for non-invasive health monitoring and early disease diagnostics, under the realm of health-and-wellness and medical-conditions.
This groundbreaking development in biophotonic emission research, with its capacity to monitor tissue damage and plant health without invasive procedures, opens up new avenues in the field of science, especially in the areas of medicine and biology.
