Adi Al A'assam
Photonic
Cloning
Sommaire
You treat the process of transferring genetic DNA and it’s characteristics to the sperm cells just like creating an invention that can duplicate food supplies. It can be created, for example, by fixing photons to produce a simple form of the atomic number and chemical composition that goes into the contents of the food supplies and other structures.
Discussion
The organic cell adapts to the principles of nitrogen denoted as AGTC. It takes a triple formation with consecutive codes. But, the way of producing other cells and genetically maintaining the same features is translated to us through radiations emitted from the organic cell to be formed as atoms and chemical structures identical to the original cell.
The nucleus of the cell, studied by a Biologist, was also tackled by the Chemist especially in discovering the deoxygenated nucleic acid ribosome identified as the DNA. The most important component of the Nuclei, which consists of chromosomes that take a curved shape (Kinked marks), is the deoxygenated ribose sugar which is attached to the wall of oxygen and is also attached inward by the mentioned four principles of nitrogen. The attachment is formed in a triple distribution just like words are formed from letters. Scientists have counted seventy thousand genes in the human body and were able to read three billion chemical compounds representing the sequence of amino acids associated with the structuring of the system of the genome. It is possible to identify the structure and behavior of those amino acids through protenome. Any defect in the curling of the tails (plaits) and knots will lead to diseases such as Zihymer and mad cow disease etc. Surprisingly, researchers have always failed in identifying the secret behind the cloning of cells inside the body to be genetically transformed to coming generations.
The scientist who cloned Dolly, the sheep, had the knowledge to perform the procedure under appropriate conditions. But, he was not familiar with the process of cell partitioning and why the cell, after parturition, produces identical cells. To a certain extent, it is true that a photocopier can copy the surface of a page with its printed letters, but how does a cell copy its internal structure? Not only were those scientists not able to answer such a question, but, did not put much effort to research it deeply. We must mention that the different distributions of chemical structures and atoms, in general, provides fine odds for either the absorption of a huge sum of the scattered photons or, if not absorbed, returns to be evenly reflected on a surface and gets fixed there.
It seems that the organic cell becomes active from time to time, periodically, to produce a permanent chemical similar to silver nitrates and dichromates. When such chemicals are produced, the cell reflects photons which belong to either infrared light or ultraviolet light. This type of production and reflection continues until the cell gets fixed. This is achieved by rhythmic conformity with the number of layers of the cell to finally form identical cells. If the Blue Gene project were performed to monitor the formation of proteins, then configuring high speed and quality computers to track an active cell, ready to genetically pass on its characteristics to other cells, will guarantee by experiment the validity of the article’s theory.
Based on this theory, where genes can be transferred from cells to cells, we will be able to imitate nature and its work. This can be done by designing an enhanced machine that emits light rays, for e.g. infrared light, that travels different distances to also reflect in different distances.
I mean continuous light rays should be emitted from the machine to enter the first layer of the food supply (assuming that all universal matter could be divided perpendicularly and horizontally to millions of layers) and reflect to a photographic surface that contains, for e.g., silver nitrates.
The machine will then emit another set of light rays that could reach to the second layer only and reflect to the same photographic surface mentioned earlier to set under the first reflected light rays. Light rays will keep getting emitted to the layers from the machine and reflected to the photographic surface to set under the previous reflection of light rays respectively. This procedure continues until a full copy of the food supply (flesh and blood), scanned by the machine, is produced.
The photographic surface produced, when analyzed in a lab, will show results of atoms and chemical compounds, including their structure. The chemical formation of any comsical phenomena consists of electrons and nuclei and an atom breaks up into leptons and quarts and that is how it breaks up into photons. And it appears that the photons that got fixed on the photographic surface transformed into atoms after it entered the layers of the scanned food supply, mentioned earlier, and then shaped to its atomic structure. As a reflex, the photons then, during its transfer to the photographic surface mentioned earlier, got reflected and reserved its proportional constant between the new born cells. The theory can be graphically explained as follows:
ax
+ by + c = 0
Fig. 1
+X Entrance of light rays into stacked, natural shells (layers) +Y Emitted light rays from enhanced
machine
Fig. 2
The arrival of the even reflection to form cloned shells (layers) -X
-Y Reflection from natural shells (layers), as a reflex, through
another enhanced machine
Conclusion
Photonic cloning is a new theory that has not been performed yet. It is true that scientists have succeeded in cloning dolly, the sheep, but with photonic cloning an exact replica with a full understanding of the cell structure can be formed as explained earlier. If such a machine came to existence then we can solve the starvation crisis in the world by cloning food supplies, through photons, to feed the hungry.
References
1. Al A’assam Adi, A Mathematical System for Science Unity
2. Heinsenbery, W.K. (1949). The Physical Principles of the Quantum theory. NewYork.
3. Thomas, G.B. (1961). Differential and Integral Mathematics.
(Arabic Translation)