Page 53 - The Final Appeal to Mankind
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«The Final Appeal to Mankind» by Nicolai Levashov
This changed the atomic structure of the viral RNA so as to cause the bonding between
the spirals to weaken. Even minor changes in the external environment were sufficient
to rupture the molecular bonds and divide a viral RNA into two chains, quite separate
from each other. Then, out of the plethora of molecules surrounding it, each link of the
chain could attach to its vacant electron bond only those molecules that were mirror
images of itself. The latter molecules, known as nucleotides, i.e., adenine, thymine,
cytosine, and uracil, then united to reproduce an exact copy of the second missing
chain, so that instead of one viral RNA molecule, two identical RNA molecules
appeared. A necessary precondition for this to occur was the availability of just the
right kind and amount of nucleotides and water.
At this point, we must emphasize one very important peculiarity that sets viruses apart
from other, more sophisticated organisms. At the moment the molecule splits into
two spirals, its microcosmic curvature decreases and the channel between the
physical and etheric levels closes again. Only after each of the spirals is finished
building its mirror image does its atomic weight return to critical, causing the
channel between the physical and etheric levels to reopen.
We will consider this mechanism in greater detail later when describing the process of
cell division. Meanwhile, let us return to our description of the stages of the origin of
life. A virus, as we stated before, is the simplest organism, an RNA molecule encased
in a protein membrane. This membrane insulates the RNA molecule from its outer
environment, buffering the impact of external factors and creating a state of maximum
stability. It also slows down the motion of organic and inorganic molecules through it,
thus creating a “microclimate” of its own around the RNA molecule. The viral protein
capsule is, in effect, a prototype of the cell membrane. In the course of further
evolution, various changes occurred — mutations in the RNA structure — due to the
impact of various forms of radiation, temperature, pressure, and active chemical
substances. This changed the properties of the viral structure and the extent of its
influence on its microspace.
Few of the many mutations were positive — perhaps one in one thousand. But over
time, the cumulative effect of the positive changes gave rise to new properties. The
membrane around the RNA molecule also changed. The appearance of a multi-layered
membrane created a more stable environment around the RNA molecule. As a result,
changes in external conditions exerted a weaker influence on the composition and
condition of the membrane’s inner environment. The appearance of the fat layer,
serving as an armored protection of the protein layers around the RNA, and later, the
DNA molecule, reduced the influence of the outer environment to a minimum. Now
only abrupt changes in the environment, destroying the membrane, could affect the
inner environment of the organism.
Furthermore, the fat layers of the membrane, being endowed with hydrophobic, i.e.,
water–repellant properties, reduced the circulation of cellular substance to a minimum,
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