Human Bioluminescence, Are we 'Beings of Light'?
HTML-код
- Опубликовано: 16 янв 2025
- In the 2009 article titled "Cellular Communication through Light" it is stated "Information transfer is a life principle. On a cellular level we generally assume that molecules are carriers of information, yet there is evidence for non-molecular information transfer due to endogenous coherent light. This light is ultra-weak, is emitted by many organisms, including humans and is conventionally described as biophoton emission." In a 2005 article titled "Biophotons - The Light In Our Cells" it is stated "Biophotons consist of light with a high degree of order, in other words, biological laser light. Such light is very quiet and shows an extremely stable intensity, without the fluctuations normally observed in light., Because of the high degree of order, the biological laser light is able to generate and keep order and to transmit information in the organism. In a 2007 article titled "The Real Bioinformatics Revolution - Proteins and Nucleic Acids 'Singing' to One Another?" it is stated "The conventional (Darwinian) picture of a cell even now is that of a bag of molecules dissolved in water. And through bumping into one another by chance - random collisions - those molecules that have complementary shapes lock onto to each other so the appropriate biochemical reactions can take place., A conservative estimate of 10,000 molecular species will involve 10,000 x 10,000 = 10 to the power of 8 pair-wise interactions. The problem is that even if the molecules have very intricate complementary shapes, it would be well nigh impossible for the right molecules to find each other in such a crowded environment as the cell, where there will only be a few copies of each kind of molecules. Imagine trying to find a friend in a very big and very crowded ballroom in the dark., (so how do they find each other?)
the molecules send out specific frequencies of electromagnetic waves which not only enable them to ‘see' and ‘hear' each other, as both photon and phonon modes exist for electromagnetic waves, but also to influence each other at a distance and become ineluctably drawn to each other if vibrating out of phase (in a complementary way)., More than 1000 proteins from over 30 functional groups have been analysed. Remarkably, the results showed that proteins with the same biological function share a single frequency peak while there is no significant peak in common for proteins with different functions; furthermore the characteristic peak frequency differs for different biological functions., The same results were obtained when regulatory DNA sequences were analysed." In an article titled "Does DNA Emit Light" it is stated "We now know, today, that man is essentially a being of light.", "There are about 100,000 chemical reactions happening in every cell each second. The chemical reaction can only happen if the molecule which is reacting is excited by a photon". And in a 2014 article titled "Symphony of Life, Revealed: New Imaging Technique Captures Vibrations of Proteins" it is stated "To observe the protein vibrations, Markelz' team relied on an interesting characteristic of proteins: The fact that they vibrate at the same frequency as the light they absorb., proteins with different structures will absorb and vibrate in response to light of different frequencies., Many scientists have previously thought a protein is more like a wet sponge than a bell: If you tap on a wet sponge, you don't get any sustained sound." To say that biophotonic communication is unexpected under Darwinian presuppositions is to make a rather drastic understatement
