ABSTRACT

As the nanometer, which is one billionth of a meter develops and nanotechnology, which operates at 1-100 nanometers, progresses, the perfect construction and functions of biological systems, especially DNA, RNA, ATP and ribosomes at the molecular level, are revealed more clearly. The feature that distinguishes nanoparticles from large materials that can be seen with the naked eye is not only their size. At the same time, these structures have a very different structure and function from macromolecules in terms of their physical, chemical and biological properties. What is important here is to understand that as nanotechnology advances at a dizzying pace, the perfect structures of living things formed billions of years ago by molecules such as ribosomes, DNA, RNA and ATP in the cell created billions of years ago cannot come into being by chance, randomly or spontaneously.

The best example of nano machines is ribosomes, which are found in all living cells and where protein synthesis occurs. A mammal cell has approximately 10 million ribosomes. During protein synthesis, mRNAs synthesized on DNA pass into the cytoplasm, attach to the small subunit of the ribosome, and the large subunit of the ribosome becomes active by binding here. tRNAs capture the amino acids suitable for the protein to be synthesized very quickly in the cytoplasm in accordance with their codes, then the tRNA arrives at the ribosome and binds to the mRNA code, which is its reverse copy and located on the ribosome. The amino acid encoded, that is, carried by each tRNA molecule, is specific to the corresponding tRNA anticodon code. The amino acids carried by tRNAs are linked to each other by peptide bonds on the ribosome, and the required protein molecules are created in this way. Ribosomes are synthesized in the cell according to the need, and these ribosomes can work individually as well as collectively as a polysome (polyribosome). Let's assume that the 3D printer works inside the cell, the product to be produced must be a product that is needed and predetermined, and how it will be produced must be written in advance and written in a 3-dimensional way in the cell. Let's say that the molecule to be synthesized is hemoglabin, after this very perfect molecule is synthesized, it will immediately take over. After all these mechanisms are set up and printed, after the necessary protein production is synthesized in ribosomes and given to the cytoplasm, the ribosomes, the large and small subunits that make up them, separate from each other and switch from active state to passive state. As can be seen here, nothing happens randomly and by chance. In both the first and the last creation of everything; It is understood that it is done in a planned, programmed, known, visual way, by referring to a number of causes and consequences. These things show us the one who has infinite knowledge, will and power, that is, Allah, who creates and shapes them, and introduces Himself to us with His works. Created billions of years ago, nanotechnological ribosomes, molecules such as DNA, RNA and ATP, and their processes have shown that the idea of creation gets younger as nanotechnology develops.

Keywords: Nanotechnology, Evolution, Ribosome, Cell, Molecule, DNA, RNA and ATP.