Due to the reverse arrangement of DNA and DNA chains as mirror images of each other, the expression of the same genes in the cells of the right and left halves of the body should be different. ​

Due to the reverse arrangement of DNA and DNA chains as mirror images of each other,the expression of the same genes in the cells of the right and left halves of the body should be different. ​,

                                                                       

                                               (Shaped by changing from dailyknowledges.com )

                               

                                                           Taken from  dailyknowledges.com.

DNA chains and left-handed amino acids must be opposite mirror images of each other in the cells of the right and left body halves.

DNA chains and also the double helix DNA they form should be opposite mirror images of each other in the cells of the right and left halves of the body.; This formation may create slightly different gene functions in the cells of the right and left body halves. It may cause asymmetry in the right and left body halves.

                                                   

  

In the upper part of the picture, the outer side of the left hand is facing downwards, while the opposite right hand is facing upwards, and the thumbs point in opposite directions, or they point in opposite directions, such as up-down or right-left. In the yellow lower part of the picture, the inside of the left hand shows the face and the thumb points up. .This view shows the mirror image of the left hand in the upper part and the reverse mirror image arrangement of the DNA chains. The outer face of the right hand in the lower part, also yellow, explains the reverse mirror image or arrangement of the right hand and the chains in the upper part. DNA chains are the opposite of the mirror image of each other in the cell nuclei. And again, double helix DNA is used as a Leading Strand template in protein synthesis in both body halves, with the placement of the opposite mirror image of each other in the right and left body halves of living things as a whole, and amino acids, the building blocks of life, are ensured to be left-handed, I think.

DNA chains and double helices must be placed in the cells on the right and left of our body as opposite mirror images of each other. They changed direction in an inverted position. In the mirror, we see our right hand as our left hand, but in reality it is still the right hand. The right glove cannot be transformed into a left glove without damaging its structure.

The blue right hand with open palm in the left half of the picture was shaped as a leading strand (5'-3') position. The red right hand next to it was shaped as a lagging strand (3'-5') as the outer face of the blue hand turned 180 degrees downwards. In the right and left halves of the figure, both right glove or double helix DNA shapes the cell nuclei in the right and left halves of living things to be structured as the opposite of the mirror images of each other. In this way, the leading and lagging chains are the opposite of the mirror images of each other in the cell nuclei and the DNA helix is located on the right and left sides of the body. An attempt was made to explain the reverse mirror image placement of each other in the half sections. Both the reverse mirror image placement of the DNA chains and the mirror image placement in the right and left half sections of the DNA double helix may be an important secret of life.

​The secret of nature must be hidden here. In the mirror, we see our right hand as our left hand, but what we actually see is the right hand. We see the blue hand on the right side of the body as a red hand (lagging strand) facing downwards, but what we see is the blue hand, that is, the leading strand. It has changed direction by 180 degrees, opposite. It has turned to the direction and there has been no change in its structure. Due to the structure of the DNA chains in the opposite form of the mirror image, the leading strand has turned into a lagging strand direction. The most important result of this placement is that the leading strand can always be used as a template in protein synthesis in the right and left halves of the body. The right-handed leading strand can always be used as a template. Time must be producing left-handed amino acids with this method. In addition, the double helix (helix) formed by the chains must be located in the cell nuclei in the right and left halves of the body, mirror images of each other.

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The inner face of the upward left hand was rotated 180 degrees in the opposite direction to shape the appearance of the outer face of the left hand.

In this picture, the thumb direction is left-handed on both hands and is pointing left. The 180-degree up-down positions of the left hand and left-handed amino acids are shown. The directions of COOH and NH2 molecules change in the up-down direction, R- and H molecules also change in the front-back direction, but the left direction of the hands and amino acids cannot be changed. The localization of the right-handed leading strand is always copied 180 degrees in the opposite direction as a pattern in protein synthesis, ensuring that all amino acids are left-handed.

                                                             

The placement of all cells in our body should be according to this model. In other words, the cells in the right half of our body are right-handed, while the cells in the left half are left-handed like a mirror image, but they are actually right-handed. In the mirror, we see our right hand as our left hand, but what we see is our right hand. You can't make a glove, but you can change its direction without damaging its structure.

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