The fascinating and recent discovery of a new, second DNA code last week
further lends credence to what metaphysical scientists have been saying for
millennia - the body speaks two different languages.
Since the genetic code was deciphered in the 1960s, researchers have assumed that it was used exclusively to write information about proteins.
But biologists have suspected for
years that some kind of epigenetic inheritance occurs at the
cellular level. The different kinds of cells in our bodies provide
an example.
Skin cells and brain cells have
different forms and functions, despite having exactly the same DNA.
No Such Thing As Junk DNA
The human genome is packed with at least four million gene switches that reside in bits of DNA that once were dismissed as “junk” but it turns out that so-called junk DNA plays critical roles in controlling how cells, organs and other tissues behave.
The discovery, considered a major
medical and scientific breakthrough, has enormous implications for human health
and consciousness because many complex diseases appear to be caused by tiny
changes in hundreds of gene switches.
As scientists delved into the “junk” - parts of the DNA that are not actual genes containing instructions for proteins - they discovered a complex system that controls genes. At least 80 percent of this DNA is active and needed. Another 15-17 percent has higher functions scientists are still decoding.
As scientists delved into the “junk” - parts of the DNA that are not actual genes containing instructions for proteins - they discovered a complex system that controls genes. At least 80 percent of this DNA is active and needed. Another 15-17 percent has higher functions scientists are still decoding.
Recent findings in the journal Science may have big implications for
how medical experts use the genomes of patients to interpret and diagnose
diseases, researchers said.
The genetic code uses a 64-letter alphabet called codons.
The genetic code uses a 64-letter alphabet called codons.
Dr John Stamatoyannopoulos
with co-authors were stunned to discover that some codons, which they called duons,
can have two meanings.
·
one
describes how proteins are made
·
the other
instructs the cell on how genes are controlled
The newfound genetic code within
deoxyribonucleic acid, the hereditary material that exists in nearly every cell
of the body, was written right on top of the DNA code scientists had already
cracked.
Controls Genes
Rather than concerning itself
with proteins, this one instructs the cells on how genes are controlled.
Its discovery means DNA changes,
or mutations that come with age or in response to vibrational changes within
the DNA, may be doing more than what scientists previously thought.
"For over 40 years we have assumed
that DNA changes affecting the genetic code solely impact how proteins are
made," said lead author John Stamatoyannopoulos, University of Washington
associate professor of genome sciences and of medicine.
"Now we know that this basic
assumption about reading the human genome missed half of the picture," he
said.
"Many DNA changes that appear to alter protein
sequences may actually cause disease by disrupting gene control programs or
even both mechanisms simultaneously."
These two meanings seem to have
evolved in concert with each other. The gene control instructions appear to
help stabilize certain beneficial features of proteins and how they are made.
The discovery was made as part of
the international collaboration of research groups known as the Encyclopedia of
DNA Elements Project, or ENCODE.
DNA Responds To
Frequency
The Russian biophysicist and molecular biologist Pjotr Garjajev and his colleagues explored the vibrational behavior of the DNA.
The Russian biophysicist and molecular biologist Pjotr Garjajev and his colleagues explored the vibrational behavior of the DNA.
The bottom line was:
“Living chromosomes function just like
solitonic/holographic computers using the endogenous DNA laser radiation.”
This means that they managed for
example to modulate certain frequency patterns onto a laser ray and with it
influenced the DNA frequency and thus the genetic information itself.
Since the basic structure of
DNA-alkaline pairs and of language (as explained earlier) are of the same
structure, no DNA decoding is necessary.
This finally and scientifically explains why affirmations, autogenous training, hypnosis and the like can have such strong effects on humans and their bodies. It is entirely normal and natural for our DNA to react to frequency.
This finally and scientifically explains why affirmations, autogenous training, hypnosis and the like can have such strong effects on humans and their bodies. It is entirely normal and natural for our DNA to react to frequency.
While western researchers cut
single genes from the DNA strands and insert them elsewhere, the Russians
enthusiastically worked on devices that can influence the cellular metabolism
through suitable modulated radio and light frequencies and thus repair genetic
defects.
Garjajev’s research group succeeded in proving that with this method chromosomes damaged by x-rays for example can be repaired. They even captured information patterns of a particular DNA and transmitted it onto another, thus reprogramming cells to another genome.
Garjajev’s research group succeeded in proving that with this method chromosomes damaged by x-rays for example can be repaired. They even captured information patterns of a particular DNA and transmitted it onto another, thus reprogramming cells to another genome.
So they successfully transformed,
for example, frog embryos to salamander embryos simply by transmitting the DNA
information patterns!
This way the entire information
was transmitted without any of the side effects or disharmonies encountered
when cutting out and re-introducing single genes from the DNA. This represents
an unbelievable, world-transforming revolution and sensation!
All this by simply applying vibration
instead of the archaic cutting-out procedure!
This experiment points to the
immense power of wave genetics, which obviously has a greater influence on the
formation of organisms than the biochemical processes of alkaline sequences.
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