In particular, we have found it
possible to regenerate endocrine glands in animals. By the same means,
we have significantly curbed the aging process in human cells and
even grown new adult human teeth in individuals who had lost them.
Currently, we have a situation in genetics, molecular
biology and medicine in general, that is simultaneously paradoxical
and promising. Long ago, science decided to investigate the human
genetic code. Science has now completed the 10-year-long effort to
map the DNA sequences of human beings, known collectively as the genome.
All of the letters and sequences of human DNA are now known.
Owing to these preliminary results, the forces of transgenetic
engineering have been gathering momentum. Already, scientists have
introduced artificial gene sequences into plants, animals and bacteria,
which are being used as carriers of such artificially introduced genes.
Such experiments have been thought to hold great potential for human
health applications, promising possible cures for many diseases and
disabilities as well as the creation of disease-resistant foods--meaning
greater abundance of food.
Paradoxically, however, the more success we have in
such genetic and molecular biology technologies, the further we seem
to be from understanding the actual foundational principles--the inner
workings--of genetic codes. To date, successes in this direction have
mainly been concerned with functions of particular gene sequences
that fabricate various proteins, the building materials from which
cells are made.
These particular gene sequences occupy only 2% of the
genetic memory found in chromosomes. The other 98%, the major part
of chromosomes, is not understood by mainstream genetics, and has
for some odd reason been labeled as "junk" DNA. Many hypotheses
have been brought forward to attempt to account for the existence
of this "junk" DNA--from suggesting that it might act as
"assistants" for primary DNA sequences, to theorizing that
this 98% of DNA arises as a "cemetery of viruses"--a rather
To ignore, or so poorly understand, the role of this
98% of the human genome is an appreciable error. Moreover, whether
we correctly grasp the role of the genetic information represented
by the known 2% of DNA is still in question--especially when the other
98% is presently terra incognita, unknown territory.
It is fair to say that we currently understand DNA only
dimly. This is obvious because at our present level of genetic knowledge,
we cannot completely cure cancer, resist AIDS, defeat tuberculosis,
or prolong the lives of people beyond 100 years.
The initially bright promises of the creations of transgenetic
research have actually turned out only dangerous hybrid foodstuffs
that are extremely hazardous to the biosphere on which our very lives
depend. The cloning of animals has produced only ugly and useless
creatures, or animals that grow old and die abnormally quickly, as
in the well-known case of the cloned sheep, Dolly.
How are we to transcend this condition of an abundance
of flawed and dangerous experiments, where many inconsistent and hazardous
results are caused by a lack of any proper understanding of DNA and
a dramatic deficiency in grasping the foundational operating principles
of the human genome?
In order to achieve success in our attempts to treat
various medical problems and curb the processes of human aging, it
is clearly necessary to understand the languages by which cells communicate.
To some extent, those of us who have pioneered the field of "wave-genetics"
have managed to accomplish this. It appears that the languages we
were looking for exist, in fact, in the 98% or "junk" DNA
contained in our own genetic apparatus. The foundational principle
of these genetic languages is similar to the language of holographic
images as well as texts constructed from human speech.
What gives us this new knowledge? The answer is that
we now understand these mechanisms. We have experimented broadly with
both the physical processes and mathematical descriptions of these
genetically guided informational functions. We have built sophisticated
laboratory equipment and mathematical apparatuses that allow us to
accurately model the informational functions of the living cell and
all of its DNA, including the neuron network.
Such devices represent the first "quantum biocomputers."
These devices have allowed us: 1) to carry out distant (multi-kilometer)
transfers of genetic/metabolic information in the form of special
physical fields; 2) to introduce this information into human biosystems;
and 3) to perform strategic management functions concerned with biosystems,
biochemical systems, and actual physiological conditions.
In particular, we have found it possible to regenerate
endocrine glands in animals. By the same means, we have significantly
curbed the aging process in human cells and even grown new adult human
teeth in individuals who had lost them.
Frustratingly, even with such documented successes,
the mainstream scientific establishment is such that I have found
it difficult to maintain funding for my work in my home country of
Russia. If you or someone you know are interested in assisting me,
I am willing to relocate if necessary to continue my research and
would love to establish a dialogue to possibility.
Copyright (c) 2005 by Peter Gariaev. All Rights
[Peter Gariaev, Ph.D.,
is renowned for his discovery of the "DNA Phantom Effect"
and as one of the founders of Wave-based Genetics. The basic concept
of the revolutionary approach to morphogenesis proposed and developed
by Dr. Gariaev's team of geneticists and linguists combines physical
models of holographic associative memory and mathematical formalism
having to do with intrinsic wave patterns in DNA. The underlying principles
of holographic storage and solitonic wave transfer of morphogenetic
information reveal previously unknown "ener-genetic" aspects
of biological systems functioning. This new insight into the nature
of morphogenesis makes it possible to treat the genome as a holographic
bio-computer that generates endogenous solitonic acoustic and electromagnetic
(sound and light) waves to carry 4D epigenetic (alternative coding)
information used by biosystems for spatial and temporal self-organizing.
In other words, this new model of genetic creation establishes the
primacy of energetic, as opposed to biochemical, activity in directing
cellular metabolism and replication--a notion that, when finally accepted
by the mainstream, will radically transform genetic science. For more
Contact Dr. Gariaev by email at firstname.lastname@example.org
Reprinted from the September 2005 issue of DNA MONTHLY,
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