Biochemiluminescence

Biochemiluminescence is a process that occurs in living organisms and is associated with biochemical reactions accompanied by luminescence. This process was discovered in the 19th century and has since become the object of study by many scientists.

Biochemiluminescence occurs due to the presence in biological systems of certain enzymes that can change their structure as a result of chemical reactions. These changes can lead to changes in the properties of the enzyme, such as its ability to glow in the dark.

One example of biochemiluminescence is the glow of green bacteria, which occurs due to certain enzymes called bacteriorhodopsins. These enzymes can glow under certain conditions, such as the presence of certain metal ions or changes in the pH of the environment.

In addition, biochemiluminescent processes can be used in medicine to diagnose various diseases. For example, some tumors can glow in a certain range of wavelengths, allowing them to be detected and treated.

Also, biochemiluminescent methods can be used to study various biological processes, such as photosynthesis, digestion, etc.

Overall, biochemilumination is an essential process for life on Earth and can be used in a variety of fields, including medicine, science and technology.

**Biochemiluminescent transformation** is the basis of light infection, functioning as a chemical-biological technology for creating self-replicating light indicators. The concept of "biochemiluminescence" refers to the occurrence of electrical and optical reactions between chemical substances, causing light or simply becoming light. This process is similar to a natural supernova, which occurs once every 50 years and illuminates the Milky Way galaxy quite brightly.

The word *"luminescence"* means the ability of an object to glow in the absence of a light source. For more than a century, researchers have been developing light-emitting micro kits to make measuring chemical reactions in the blood faster, more accurate and cheaper. Scientists believe that bacteria can transmit molecular-based information to light particles about how to assimilate them to the bacteria and even about the exchange of atoms among them. For the first time, scientists have discovered that the very first life form on Earth had already developed such a set of things; these molecules are called ribosomes ribozymes. Just like the DNA mechanisms in reproduction, the process of cell replication, the life support of the body and its protection, contain various molecular interactions. The use of electrochemical processes by which the elementary processes of electron and/or proton exchange utilize the electron transport system of the body's biomolecular activity supporting the metabolic *Krebs cycle* to produce the energy of biological production of these molecules within a second or several seconds can be understood through photographs that , were likely captured using a telescope for light molecules of cosmic matter floating in the empty space that lies below us. Their light can have a very short lifetime, so that their presence can be evident even after two solar cycles over many megaseconds.